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VeröffentlichungsnummerWO2017005190 A1
PublikationstypAnmeldung
AnmeldenummerPCT/CN2016/088802
Veröffentlichungsdatum12. Jan. 2017
Eingetragen6. Juli 2016
Prioritätsdatum7. Juli 2015
VeröffentlichungsnummerPCT/2016/88802, PCT/CN/16/088802, PCT/CN/16/88802, PCT/CN/2016/088802, PCT/CN/2016/88802, PCT/CN16/088802, PCT/CN16/88802, PCT/CN16088802, PCT/CN1688802, PCT/CN2016/088802, PCT/CN2016/88802, PCT/CN2016088802, PCT/CN201688802, WO 2017/005190 A1, WO 2017005190 A1, WO 2017005190A1, WO-A1-2017005190, WO2017/005190A1, WO2017005190 A1, WO2017005190A1
Erfinder陈勇
Antragsteller陈勇
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Externe Links:  Patentscope, Espacenet
Magnetite separation apparatus by means of ultrahigh magnetic field
WO 2017005190 A1
Zusammenfassung
A magnetite separation apparatus by means of an ultrahigh magnetic field and a magnetite separation combined device by means of an ultrahigh magnetic field. The magnetite separation apparatus by means of an ultrahigh magnetic field comprises: a magnetite sand drift (1), a separation plate (3), and a hopper (4), and further comprises an ultrahigh-magnetism solenoid coil (2), a magnetic field generated by the coil (2) enabling ore sand to move by a distance in a transverse direction. The magnetite separation apparatus is a magnetite separation apparatus with a belt having small grids, a watercart-type crawler belt-based ore sand scraping and magnetite separation apparatus, an apparatus for magnetite separation by impacting ore sand through a paraboloid, or an apparatus for magnetite separation by blowing ore sand through strong breeze; and the combined apparatus is a magnetite separation combined apparatus with a belt having small grids, a watercart-type crawler belt-based ore sand scraping and magnetite separation combined apparatus, a combined apparatus for magnetite separation by impacting ore sand through a paraboloid, or a combined apparatus for magnetite separation by blowing ore sand through strong breeze.
Ansprüche  übersetzt aus folgender Sprache: Chinesisch  (OCR-Text kann Fehler enthalten)
权利要求书 Claims
[权利要求1] 磁铁矿的超高磁选铁矿石装置, 包括: 磁铁矿沙流(1) 、 分隔板(3 [Claim 1] ultrahigh magnetic separation of magnetite iron ore, comprising: magnetite sand flow (1), the partition plate (3
) 、 料斗(4) , 其特征还在于包括超高磁电磁线圈(2) 和其所产生的磁场使矿沙横向移动的距离; 所述磁铁矿沙流(1) , 是众多的铁矿沙组成的向下移动的流体; 所述分隔板(3) , 位于铁矿沙的最下部, 通过距离的长短, 来分不同品位的矿砂; 所述料斗(4) , 是装通过分隔板选的不同品位的矿砂; 所述超高磁电磁线圈(2) , 所产生的磁场, 是普通电磁线圈所产生磁场的几十上百倍以上, 安装在磁铁矿沙流(1) 的下落过程中的中间位置, 超高磁电磁线圈(2) 导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流(1) ; 所述矿沙横向移动的距离, 是本发明的关键, 在超高磁电磁线圈(2) 的作用下, 矿砂里的铁越多, 横向移动的距离就越大; ), A hopper (4), further characterized by comprising ultrahigh magnetic solenoid (2) and the magnetic field it generates causes lateral movement of sand from the mine; the magnetite sand flow (1), is one of many iron ore sand downward movement of the fluid composition; the partition plate (3), located in the lower part of the iron ore sand, through the length of the distance to the different sub-grade ore; the hopper (4), is mounted through the partition plate choose different grade of ore; the ultrahigh magnetic solenoid (2), the magnetic field generated by the ordinary electromagnetic coil to generate a magnetic field of more than tens of hundreds of times, mounted on magnetite sand flow (1) of the process of falling intermediate position, high magnetic solenoid (2) ultra-high magnetic field conducting issued after ultra-high magnetic field acts on the magnetite sand flow (1); the mineral sands from the lateral movement is the key to the present invention, in the ultra high magnetic solenoid (2) the role of iron ore in the more lateral movement, the greater the distance;
矿砂在自由下落中, 形成铁矿沙流, 比普通电磁线圈所产生磁场高几十上百倍以上的超高磁场作用于铁矿沙流, 使含铁的铁矿沙发生横向移动; 不发生移动或移动距离特别短的, 代表不含铁或含铁少, 是杂质; 移动越远, 含量越高; 不同距离安装分隔板, 就能得到不同品位的矿砂; 料斗接住不同品位的矿砂; 矿砂移动的距离越大, 越可以多细分几个不同品位的矿砂。 Ore in free fall, the formation of iron ore sand flow than ordinary electromagnetic coil to generate a magnetic field on the ultra-high magnetic field dozens of times more than in the iron ore sand flow, so that the iron ore sand laterally move; move or not move very short distance, representatives of non-ferrous or ferrous fewer impurities; move farther, the higher the content; different from the partition plate is installed, you can get different grade ores; hopper catch different grade ore; ore movement the greater the distance, the more you can taste several different segments of ore.
[权利要求2] 本发明多次超高磁选铁矿石装置, 包括: 磁铁矿沙流(1) , 超高电磁线圈(3) , 隔板(4) , 漏槽(5) , 其特征还在于包括进行粗分后的矿砂形成新矿砂流(2) ; 所述磁铁矿沙流(1) , 超高电磁线圈 [Claim 2] The present invention repeatedly ultrahigh magnetic separation of iron ore, comprising: magnetite sand flow (1), high electromagnetic coil (3), a separator (4), sink (5), characterized further characterized by including coarse ore division after the formation of a new ore flow (2); the magnetite sand flow (1), high electromagnetic coil
(3) , 隔板(4) 组成超高磁选铁矿石装置; 所述漏槽(5) , 是由两个分隔板(4) 组成, 呈上宽下窄状, 位于超高磁电磁线圈(3) 下面; 所述新矿砂流(2) , 从漏槽(5) 里漏出的矿砂流; (3), a separator (4) composed of ultra-high magnetic iron ore means; the drain groove (5), is composed of two separate plates (4) Composition, goes wide and narrow shape, it is located in ultrahigh magnetic an electromagnetic coil (3) below; the new ore flow (2), from the drain groove (5) in the leakage flow of ore;
矿砂在自由下落中, 当超高磁磁场作用于铁矿沙, 使铁矿沙发生横向移动, 但由于超高磁电磁线圈制作的局限性, 不能生产出达到想要的磁场强度的成熟产品, 矿砂移动的距离自然也达不到细微分隔的要求, 就只有采取缩短矿砂流和电磁线圈的距离, 进行粗分; 粗分后获得了需要的矿砂, 落入漏槽里, 通过漏槽形成新矿砂流; 再次采用一个超高磁磁场作用于铁矿沙, 使铁矿沙受超高磁磁场影响, 发生横向移动; 多次粗分, 多次分隔, 就形成了细分, 也达到了细微分隔的目的磁铁矿的超高磁选矿装置, 其特征还在于磁铁矿沙的高速运动; 所述磁铁矿沙的高速运动, 就是磁铁矿沙流的高速流动; Ore in free fall, when the ultra-high magnetic field acting on the sand iron ore, iron ore sand so that the occurrence of lateral movement, but due to the limitations of ultra-high magnetic solenoid made, can not produce the desired magnetic field strength reaches a mature product, ore moving distance separating naturally reach the subtle requirements, only to take ore flow and shorten the distance between the electromagnetic coil, coarse points; points gained after crude ore needs, fall into the sink, the sink through the formation of new ore stream; using an ultra high magnetic field effect on iron again, sand, iron ore sand so that the ultra-high magnetic field effects occur lateral movement; roughly divided many times, many times separated to form a subdivision, has reached a fine ultrahigh magnetic magnetite beneficiation plant and the purpose of separating, characterized in that the magnetite sand speed sport; high-speed movement of the magnetite sand, magnetite sand is high-speed flow stream;
添加外力, 让磁铁矿沙在有限的距离里加速, 使磁铁矿沙用很强的惯性力穿过超高磁电磁线圈, 此吋, 磁铁矿沙就多了一个强大的吸力, 让磁铁矿沙和尾矿的分力加大, 更加容易把磁铁矿沙中的磁铁矿和尾矿分得更彻底, 提高选矿的矿砂品位。 Adding an external force, so that magnetite sand in a limited distance from the acceleration, so the magnetite sand with strong inertia force through ultrahigh magnetic solenoids, this inch, magnetite sand on a more powerful suction, so magnetite sand and tailings component increased, easier to magnetite and magnetite sand tailings points more thoroughly and improve the beneficiation of ore grade.
根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于传送带式超高磁场选磁铁矿装置, 包括: 磁铁矿沙(1) 、 皮带轮(2) 、 皮带( 3) 、 超高电磁线圈(4) 、 隔板(5) , 料斗(6) , 其特征还在于其组合; 所述磁铁矿沙流(1) , 是众多的磁铁矿沙组成的运动体; 所述皮带(3) , 在皮带轮(2) 的带动下, 于两皮带轮(2) 间循环转动, 把落在上面的磁铁矿沙流(1) 加速; 所述皮带轮(2) , 是皮带(3) 循环转动的动力源; 所述超高电磁线圈(4) , 安装在磁铁矿沙流(1) 的运动过程中, 超高电磁线圈(4) 导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流(1) ; 所述分隔板(5) , 位于铁矿沙的最下部, 通过距离的长短, 来分不同品位的矿砂; 所述料斗(6) , 是装通过分隔板选的不同品位的矿砂; Ultra-high magnetic magnetite beneficiation apparatus of claim 3, further characterized in that the belt-type ultrahigh magnetic field of magnetite apparatus comprising: magnetite sand (1), the pulley (2), belt (3), super high electromagnetic coil (4), the separator (5), the hopper (6), further characterized by a combination; the magnetite sand flow (1), the moving body is composed of a large number of magnetite sand; the belt (3) in the pulley (2), driven pulleys in two (2) between the rotation cycle to fall on top of magnetite sand flow (1) to accelerate; the pulley (2), the belt (3) cycle rotational power source; the ultrahigh electromagnetic coil (4), installed in the magnetite sand flow (1) of the movement, the ultra-high magnetic field ultrahigh electromagnetic coil (4) conducting issued after ultra-high magnetic field acting on the magnetic iron sand flow (1); the partition plate (5), located in the lower part of the iron ore sand, through the length of the distance to the different sub-grade ore; the hopper (6), is mounted through the partition plate option different grade ore;
磁铁矿沙均匀地落到皮带上, 皮带在皮带轮的带动下高速循环运动, 皮带的高速循环运动, 带动磁铁矿沙高速移动, 磁铁矿沙的高速移动, 惯性穿过超高磁场, 形成选矿。 Magnetite sand evenly fall on the belt, the belt driven pulley speed circular motion, circular motion of the belt speed, drive speed mobile magnetite sand, magnetite sand moving at high speed, ultra-high magnetic field through inertia, formed beneficiation.
根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于小分格的皮带选磁铁矿装置, 包括: 有小分格的皮带(3) 、 电动机、 皮带轮(2 ) 、 超高磁电磁线圈(4) , 其特征还在于包括小隔板(5) ; 所述电动机, 是本系统的动力装置, 带动皮带轮(2) 转动; 所述皮带轮(2 ) , 带动有小分格的皮带(3) 循环转动; 所述有小分格的皮带(3) , 安装在两皮带轮(2) 上, 并在皮带上安装有小隔板(5) ; 所述小隔板(5) , 呈薄、 矮长方体, 横向固定在皮带上; 所述超高磁电磁线圈(4) , 安装在磁铁矿沙喷射的过程中; Ultra-high magnetic magnetite beneficiation apparatus of claim 3, further characterized in that the sub-grid small belt of magnetite apparatus comprising: a small sub-grid belt (3), the motor pulley (2), high magnetic solenoid (4), further characterized in that it comprises a small spacer (5); the motor is the power plant of the present system, driven pulley (2); said pulley (2), driven by a small sub-grid belt (3) rotation cycle; the small sub-grid belt (3), mounted on the two pulleys (2), and the belt is installed with a small spacer (5); the small separator (5), form of a thin, short rectangular, laterally fixed to the belt; the ultrahigh magnetic solenoid (4), installed in the magnetite sand injection process;
磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 电动机带动皮带轮, 有小分格的皮带在两皮带轮间循环转动, 铺在有小分格的皮带上的矿砂在皮带转弯吋会惯性地射向前方, 穿过超高磁场, 完成选矿; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的初始速度, 取决于有小分格的皮带的循环转动速度; 小隔板推动矿砂, 才能让矿砂在有限的距离里, 达到皮带的运转速度; 皮带和超高磁电磁线圈之间的距离, 是回收没有达到要求速度的矿砂。 Magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful for ore and ore division Jian useless greater the force, easier to be useful ore elected; motor driven pulley, a small sub-grid belt between the two pulleys rotation cycle, there is a small shop in the sub-grid belt ore belt inertia will turn inch toward the front, through the super high magnetic field, complete beneficiation; there are means to pull away from the field on magnetite ultrahigh magnetic solenoid will be attracted to the ultra-high magnetic solenoid magnetite sand away until clear of the magnetic field on magnetite sand will free fall to beneficiation pool; initial velocity ore depends on a small sub-grid belt loop rotational speed; small clapboard push ore, ore in order for a limited distance, the reaches operating speed of the belt; belt and super the distance between the magnetic solenoid is not meet the requirements of the recovery rate of ore.
[权利要求6] 根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于水车式履带刮矿砂选磁铁矿装置, 包括: 工作平台槽(2) 、 水车式履带(3) 、 皮带轮(4) 、 超高磁电磁线圈(5) , 其特征还在于包括水车式隔板(8) ; 所述工作平台槽(2) , 呈槽状, 槽的大小和水车式隔板相对应, 安装在水车式履带(3) 对面; 所述水车式履带(3) , 安装在两皮带轮(4) 上, 在皮带轮(4) 带动下循环转动; 所述水车式隔板( 8) , 呈薄、 矮长方体, 横向固定在水车式履带(3) 上; 所述电磁线圈(5) , 安装在磁铁矿沙喷射的过程中; [Claim 6] ultrahigh magnetic magnetite mineral processing apparatus according to claim 3, further characterized in that the paddlewheel track of magnetite ore scraping device, comprising: a working platform groove (2), water tankers crawler (3 ), the pulley (4), ultra-high magnetic solenoid (5), characterized in that it comprises paddlewheel separator (8); the working platform slot (2) as a trough-like groove size and paddlewheel separator corresponding mounted paddlewheel track (3) opposite; the paddlewheel track (3), mounted on the two pulleys (4), the pulley (4) driven by rotation cycle; the paddlewheel separator (8), was thin, short rectangular, laterally fixed paddlewheel track (3); said electromagnetic coil (5), mounted on the magnetite sand injection process;
磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 电动机带动水车式履带, 水车式履带在两皮带轮间循环转动, 旋转式的给料装置将矿砂匀速在工作平台槽上冒出; 水车式隔板刮着矿砂向前运动, 矿砂在水车式履带转弯吋会惯性地射向前方, 穿过超高磁场, 完成选矿; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的初始速度, 取决于水车式履带的循环转动速度; 水车式隔板刮着矿砂, 才能让矿砂在有限的距离里, 达到水车式履带的运转速度; 工作平台槽, 校正了矿砂的运动方向; 水车式履带和超高磁电磁线圈之间的距离, 是回收没有达到要求速度和运动方向不正确的矿砂。 Magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful for ore and ore division Jian useless greater the force, easier to be useful ore elected; motor driven paddlewheel track paddlewheel track rotation cycle between the two pulleys, rotary feeding means uniform ore out on a working platform trough; paddlewheel separator blowing forward movement ore, ore in water tankers track will habitually turn inch toward the front, through the ultra-high magnetic field, complete beneficiation; there will be pulled away from the field of magnetite means ultra-high magnetic solenoid will suck in the ultra high magnetic magnetite sand electromagnetic coil away, taken away from the field until the magnetite sand mineral processing will free fall to the pool; initial velocity ore, depending on water tankers track cycling rotational speed; paddlewheel compartment blowing board ore, ore in order for a limited distance, the reaches operating speed paddlewheel track; working platform trough, corrected the direction of movement of ore; paddlewheel track distance and ultra-high magnetic solenoid between the recycling does not meet the requirements of speed and direction of movement incorrect ore.
[权利要求7] 根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于抛物面击矿砂式选磁铁矿装置, 包括: 电动机、 抛物面轮(4) 、 方向校正器(5 ) 、 超高磁电磁线圈(6) , 其特征还在于包括抛物面齿(3) ; 所述电动机, 是本系统的动力装置, 带抛物面轮(4) 转动; 所述抛物面轮(4) , 在圆柱上安装带抛物面(2) 的齿; 所述方向校正器(5) , 呈梯形筒, 空心宽的一面对准抛物面轮(4) , 窄的一面对准超高磁线圈(6) , 宽的一面的长度大于矿砂流宽度, 窄的一面长度等于矿砂流宽度; 所述超高磁电磁线圈(6) , 安装在方向校正器(5) 后面, 磁铁矿沙流(1) 快速运动的过程中; 所述抛物面齿(3) , 把齿轮的齿, 其中一侧不变, 另外一侧改成抛物面(2) , 即从底部到顶部改成呈抛物线的面; [Claim 7] The ultrahigh magnetic magnetite ore dressing apparatus according to claim 3, characterized in that the parabolic type of magnetite ore blow apparatus, comprising: a motor, a parabolic wheel (4), the direction corrector (5), ultrahigh magnetic solenoid (6), further characterized in that comprises a parabolic tooth (3); said motor is a power unit of the system, with parabolic wheel (4); said paraboloid wheel (4) in the cylinder installation parabolic band (2) of the tooth; the direction corrector (5), trapezoidal cylinder, hollow paraboloid wheel alignment of a wide side (4), aligned with the narrow side ultrahigh magnetic coil (6), width one side is longer than the width of the ore stream, the narrow side of a length equal to the width of the ore stream; the process of ultrahigh magnetic solenoid (6), installed in the direction corrector (5) behind the magnetite sand flow (1) rapid movement ; said parabolic tooth (3), the teeth of the gear, wherein the same side, the other side into a parabola (2), i.e. from bottom to top into a parabolic surface;
磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 旋转式的给料装置将矿砂匀速地在抛物面轮上落下, 电动机带动下的抛物面轮的旋转过程中, 抛物面把下落的矿砂碰撞、 击打后, 改变矿砂呈水平方向运动, 矿砂也用新速度穿过超高磁磁场, 完成选矿; 矿砂的下降速度和抛物面轮的旋转速度匹配后, 达到超高磁选矿和选矿效率的要求; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的初始速度, 取决于抛物面轮的转动速度; 方向校正器, 校正了矿砂的运动方向。 Magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful for ore and ore division Jian useless greater the force, easier to be useful ore elected; rotary feed means uniform ore to fall on paraboloid wheel rotation paraboloid wheel driven by the electric motor, the parabolic falling ore collision, after striking change was the level of ore direction of movement, but also through the ore with a new ultra-high-speed magnetic field, complete dressing; after the rotational speed of the rate of decline in ore and parabolic round match, ultrahigh magnetic mineral processing and beneficiation efficiency requirements; there is the ultra-high magnetic solenoid magnetite pull away from the field device will be attracted to the ultra-high magnetic solenoid magnetite sand away until the magnetic field away from the magnetite sand mineral processing will free fall to the pool; initial velocity ore, depending on paraboloid wheel rotational speed; the direction of correction, correction of the direction of movement of ore. [权利要求8] 根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于强风吹矿砂式选磁铁矿装置, 包括: 吹风口(2) 、 方向校正器(3) 、 超高磁电磁线圈(4) , 其特征还在于强风带着磁铁矿砂流(1) 快速从超高磁电磁线圈(4) 上面穿过; 所述吹风口(2) , 呈扁的长方形, 吹出扁平的强风, 强风宽度大于等于磁铁矿沙流(1) 宽度; 所述方向校正器(3) , 呈梯形筒, 空心宽的一面对吹风口(2) , 窄的一面对准超高磁电磁线圈(4) 上面, 窄的一面的宽度也等于磁铁矿砂流的宽度; 所述超高磁电磁线圈(4) , 安装在强风带着磁铁矿沙流(1) 快速运动的过程中; 所述强风带着矿砂流(1) 快速从超高磁电磁线圈(4 ) 上面穿过, 下落的磁铁矿砂流(1) 到吹风口后, 在强风的带动下改变成水平运动, 也用新速度穿过超高磁电磁线圈(4) 的上面; 磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 旋转式的给料装置将矿砂匀速落在吹风口上, 吹风口的扁平强风吹动下落的矿砂, 改变矿砂呈水平方向运动, 经过方向校正器筛选, 矿砂用新速度穿过超高磁电磁线圈的上面, 完成选矿, 未通过方向校正器筛选的矿砂和没有达到要求速度和运动方向不正确的的矿砂, 重新通过系列设备回收, 又匀速落在吹风口上; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的新运动速度, 取决于吹风口风的强度 [Claim 8] ultrahigh magnetic magnetite mineral processing apparatus according to claim 3, further characterized in that the strong winds of magnetite ore type device, comprising: an air outlet (2), the direction corrector (3), high magnetic solenoid (4), further characterized by a strong wind with magnetic iron ore flow (1) through from ultra-fast magnetic solenoid (4) above; the air outlet (2), Chengbian rectangular, flat, blown strong wind, strong wind than or equal to the width of magnetite sand flow (1) width; the direction corrector (3), trapezoidal cylinder, hollow face a wide air outlet (2), aligned with the narrow side of the ultra-high magnetic electromagnetic coil (4) above, the width of the narrow side is also equal to the width of the flow of magnetic iron ore; the ultrahigh magnetic solenoid (4), installed in the strong wind with magnetite sand flow (1) in the process of rapid movement; the strong wind with ore flow (1) through from ultra-fast magnetic solenoid (4) above, the whereabouts of magnetic iron ore flow (1) to the air outlet after, driven by strong wind of change into a horizontal movement, wear with a new rate through the above ultrahigh magnetic solenoid (4); magnetite sand flow rate greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so helpful ores and ore division Jian useless greater the force, the more likely to be useful ore elected; rotary feeding device will fall on the air outlet ore uniform, flat hair mouth of the strong wind and falling ore, ore horizontal direction change movement direction correction through screening, ore through the above ultrahigh magnetic solenoid with a new speed to complete the processing, not by the direction corrector screening ore and did not meet the requirements of speed and direction of movement incorrect ores, again through a series of recycling equipment, uniform and landed on the air outlet; have pulled away from the magnetite magnetic means, suction on the ultra-high magnetic solenoid magnetite sand away on ultrahigh magnetic solenoid until clear of the magnetic field, the magnetic iron ore beneficiation sand will free fall to the pool; new velocity ore, depending on the wind strength air outlet
[权利要求9] 根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于喷嘴式超高磁选矿装置, 包括: 强风管(1) 、 喷风嘴(2) 、 混料仓(3) 、 喷管(4) 、 扇形喷嘴(5) 、 螺旋式给料装置(6) 、 超高磁电磁线圈(7) 、 磁铁矿沙(8) 、 尾矿(9) 、 隔板(10) 、 料斗(11) , 其特征还在于喷风嘴(2) 的强气流带着矿砂快速由扇形喷嘴(5) 从超高磁电磁线圈(7) 上面穿过; 所述强风管(1) , 连接喷风嘴(2) , 强风的入口; 所述喷风嘴(2) , 处在混料仓(3) 内, 并和其一起运用文丘里原理带动螺旋式给料装置(6) 提供的矿砂作高速运动; 所述混料仓(3) , 上面连接螺旋式给料装置(6) , 让喷风嘴(2) 处在内部, 喷风的方向连接喷管(4) ; 所述喷管(4) , 连接混料仓(3) 和扇形喷嘴(5) ; 所述扇形喷嘴(5) , 呈扇形, 连接喷管(4 ) , 扇形喷嘴(5) 前方是超高磁电磁线圈(7) , 该扇形喷嘴(5) 能将矿砂均匀的、 分散的、 快速的喷射过超高磁电磁线圈(7) ; 所述超高磁电磁线圈(7) , 产生超高磁磁场; 所述螺旋式给料装置(6 ) , 一种连续、 均匀的给料装置; [Claim 9] ultrahigh magnetic magnetite mineral processing apparatus according to claim 3, further characterized in that the nozzle ultra-high magnetic mineral processing apparatus comprising: a strong wind pipe (1), the spray nozzle (2), mixing bin (3), the nozzle (4), fan nozzle (5), screw feeding device (6), ultra-high magnetic solenoid (7), magnetite sand (8), tailings (9), the separator (10), the hopper (11), further characterized in that the spray nozzle (2) of ore with a strong wind quickly by the fan nozzle (5) from above through the ultrahigh magnetic solenoid (7); the strong wind pipe (1) connecting the spray nozzle (2), the inlet strong wind; the spray nozzle (2), in the mixing compartment (3), and which together with the use of venturi principle driven screw feeder apparatus ( 6) provides for high-speed movement of ore; the mixing bin (3), connected to the above spiral feeding device (6), so that the spray nozzle (2) in the interior of the spray nozzle connected to the wind direction (4) ; the nozzle (4), connected to the mixing compartment (3) and the fan nozzle (5); the fan nozzle (5), fan-shaped, connecting nozzle (4), fan nozzle (5) in front of a ultra-high a magnetic solenoid (7), the fan nozzle (5) ore capable of uniformly dispersed, through ultra-fast magnetic ejection solenoid (7); the ultrahigh magnetic solenoid (7), to produce ultrahigh magnetic magnetic field; the spiral feeding device (6), a continuous, uniform feeding device;
强风通过强风管(1) 从喷风嘴(2) 喷出, 在混料仓(3) 里运用文丘里原理, 和螺旋式给料装置(6) 给的矿砂, 形成一个高速的矿砂流, 并顺着喷管(4) 高速由扇形喷嘴(6) 从超高磁电磁线圈(7) 上面穿过, 完成选矿。 Strong winds by a strong wind pipe (1) (2) is ejected from the spray nozzle in the mixing compartment (3) in the use of venturi principle, and screw feed means (6) for the ore to form a high-speed ore stream and along the nozzle (4) from the ultra-high-speed magnetic solenoid (7) above through the fan nozzle (6), to complete the dressing.
10.根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于水中磁铁矿的旋转流灌式超高磁选矿装置, 包括: 入料管(1) 、 动力系统(2 ) 、 轴(3) 、 旋转扇叶(4) 、 选矿灌(5) 、 尾澄出口(6) 、 水中磁选机(7) 、 精矿出口(8) , 其特征还在于它们组合; 所述入料管 10. ultrahigh magnetic magnetite beneficiation apparatus according to claim 3, further characterized in that the rotary flow-fill water ultrahigh magnetic magnetite ore dressing equipment, comprising: a feed pipe (1), the power system (2), axis (3), the rotating blades (4), mineral filling (5), Cheng outlet end (6), the water separator (7), concentrate outlet (8), further characterized by a combination thereof; said incoming feeding tube
( 1) , 位于选矿灌(5) 底部旋转扇叶(4) 的上面, 灌外接挖沙、 抽沙的管, 灌内喷出的矿砂流和选矿灌(5) 内的流动方向一致; 所述动力系统(2) , 处于选矿灌(5) 外, 和轴(3) 的顶部连接; 所述轴(3) , 选矿灌(5) 的中心, 顶部贯穿选矿灌(5) 顶部, 并和动力系统(2) 连接; 所述旋转扇叶(4) , 位于选矿灌(5) 的下部, 固定在轴(3) 的底端; 所述选矿灌(5) , 呈圆柱形, 选矿设备的主体; 所述尾澄出口(6) , 位于选矿灌(5) 顶端, 其同选矿灌(5 ) 连接部分的方向为选矿灌(5) 圆周的切线; 所述水中超高磁选机 Consistent with the direction of flow (1), located beneficiation irrigation (5) at the bottom of the rotating blades (4) above, filling the external dredging, pumping sand tube, irrigation jetted ore beneficiation flow and irrigation (5) inside; the said power system (2), in the dressing irrigation (5), the shaft, and (3) of the top connection; (3), mineral filling (5) of the center of the shaft through the top dressing irrigation (5) at the top, and and power system (2); said rotating blades (4), located in the lower part of beneficiation irrigation (5), fixed at the bottom of the shaft (3); the dressing irrigation (5), cylindrical, mineral processing equipment a body; cheng said tail outlet (6), located irrigation dressing (5) to the top, filling it with the dressing (5) is connected to a portion where irrigation dressing (5) tangent of the circle; the ultrahigh water separator
(7) , 位于选矿灌(5) 中段, 能在水中工作的具有超高磁场的磁选机, 含有精矿选出、 收集、 并排到选矿灌外的装置; 所述精矿出口( 8) , 位置和水中超高磁选机(7) 相配, 形状、 大小也和其把选出的精矿排到选矿灌(5) 外的装置相配; (7), located irrigation dressing (5) in the middle, can work in the water with ultra-high magnetic field of the magnetic separator, concentrates containing selected collection, to the outer side of the dressing filling means; said concentrate outlet (8) , location, and ultra-high water separator (7) match, shape, size and also elected to concentrate its beneficiation discharged irrigation (5) outside the device to match;
水中的磁铁矿沙流通过挖沙、 抽沙的管, 经过入料管喷入选矿灌内, 喷出的矿砂流和旋转扇叶转动融合形成新的旋转向上的矿砂流, 此吋选矿灌内的矿砂流产生一个旋转的向上推力, 含铁的矿砂重会往下坠, 不含铁的或者含铁少的矿砂就被推到顶部, 在旋转中进入到尾澄出口被排除; 推和坠在选矿灌的中部的某个位置形成一个相对平衡, 水中超高磁选机就安装在这个位置, 用自己含有的精矿选出、 收集、 并排到选矿灌外的装置, 进行选矿; 一次没有被水中超高磁选机选中, 只要磁铁矿砂还是在这个范围的灌边转动, 一次次经常水中超高磁选机就肯定会被选中; 磁铁矿沙没有在灌边, 会从灌的中间层落下, 落入灌的下层, 又会被旋转扇叶推上来到灌边上, 又会在中层这个范围的灌边转动, 再次给被水中超高磁选机选中的机会。 Magnetite sand stream water by dredging, pumping sand tubes, feeding tubes through the inner spray irrigation selected ore, ore ejected stream and the rotating blades rotating fuse to form new rotates upward flow of ore, mineral processing within this inch irrigation ore stream to produce a rotating upward thrust, the iron ore will be heavy to fall, non-ferrous or less iron ore was pushed to the top, in the rotation into the tail Cheng exports are excluded; pushed and fall in dressing filling a position in the middle of the formation of a relatively balanced, the water on the installation of ultra-high magnetic separator in this position, with their own elected concentrate containing collected, side by side to the outside of the dressing filling apparatus beneficiation; not once water ultrahigh magnetic separator selected, as long as the rotation of the magnetic iron ore or in the range of irrigation side, again often ultra-high magnetic separator water will certainly be selected; magnetite sand not filling side, from irrigation will be an intermediate layer falling, falling into the lower irrigation, will be pushed to the rotating fan sink edge will rotate in the middle of this range irrigation side, was selected to ultrahigh water separator opportunity again.
11、 根据权利要求10水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加排出大颗粒物体的倒仓装置, 包括: 倒仓(1) 、 倒仓转动体(2) 、 密闭体(3) 、 容器底斜面(4) 、 容器5、 排大颗粒缺口6, 其特征还在于它们的组合成球阀式架构; 所述组合球阀式架构, 是倒仓转动体2和密闭体3形成一个倒仓转动体2可以转动的密封结构; 所述倒仓1, 位于倒仓转动体2内, 呈矩形槽, 宽度和排大颗粒缺口6相对应, 长度、 深度和倒仓转动体2匹配; 所述倒仓转动体2, 呈圆柱体, 和密闭体3匹配, 在密封情况下可转动; 所述密闭体3, 凹园弧形, 和倒仓转动体2匹配; 所述容器底斜面4, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口6连接, 其余与容器壁连接; 所述容器5 , 呈圆柱体; 所述排大颗粒缺口6, 呈长方形, 其长宽与倒仓1的长宽对应; 11, according to claim 10 rotating flow irrigation water magnetite mineral processing ultra-high magnetic means, further characterized in that the cartridge device to increase the discharge down large particles of the object, comprising: down bin (1), inverted positions rotary body (2) , sealed body (3), the container bottom bevel (4), the container 5, rows of large particle gap 6, further characterized in that they are combined into a ball architecture; the combination valve architecture, is inverted and closed positions rotator 2 3 form an inverted vessel to rotate the rotatable seal 2 may be structures; the inverted bin 1, located in the inner vessel to rotate back 2, a rectangular groove, and the width of the discharge gap 6 corresponding to the large particles, the length, depth and inverted vessel to rotate 2 matching body; the inverted positions rotator 2, was cylindrical, sealing body 3 and matching rotatable in a sealed case; the sealing body 3, concave circular arc, and inverted positions rotator 2 match; the container bottom bevel 4, bottom of the container was inclined plane, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, showing the cylinder; the large particles discharge gap 6, rectangular, its length and width and length and width of a corresponding inverted positions;
进入容器内的大颗粒, 由于太重, 容器内的质量大的大颗粒持续下落, 通过排大颗粒缺口落入倒仓内, 倒仓转动体转动180度, 将大颗粒排出在容器外, 完成作业; 倒仓转动体转回, 使倒仓对准排大颗粒缺口, 新的作业幵始。 Large particles into the vessel, due to the heavy, massive large particles within the vessel continued to fall through the discharge gap of large particles fall down inside the warehouse, warehouse down the rotating body is rotated 180 degrees, the large particles are discharged outside the container, complete operations; inverted positions rotating body back so that inverted positions aligned row of large particle gap, starting a new job Jian. 12、 根据权利要求10水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加倒仓自动排出大颗粒矿砂的装置, 包括: 倒仓(1) 、 倒仓转动体(2) 、 密闭体(3) 、 容器底斜面(4) 、 容器(5) 、 排大颗粒缺口(6) 、 传动结构(9) 、 控制器(10) , 其特征还在于增加重量检测器(8) 、 重量监测条(7) ; 所述重量检测器(8) , 安装在重量监测条(7) 上, 采集的信号连接控制器(10) ; 所述重量监测条(7) , 安装在倒仓(1) 底部, 重量监测条是由一个一个的重量检测器(8) 排列组成; 所述倒仓(1) , 位于倒仓转动体(2) 内, 呈矩形槽, 宽度和排大颗粒缺口(6) 相对应, 长度、 深度和倒仓转动体(2) 匹配; 所述倒仓转动体(2) , 呈圆柱体, 和密闭体(3 ) 匹配, 在密封情况下可转动; 所述密闭体(3) , 凹园弧形, 和倒仓转动体(2) 匹配; 所述容器底斜面(4) , 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口(6) 连接, 其余与容器壁连接; 所述容器(5) , 容纳物体的器物; 所述容器底斜面(4) , 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口(6) 连接, 其余与容器壁连接; 所述容器(5) , 容纳物体的器物; 所述排大颗粒缺口(6) , 呈长方形, 其长宽与倒仓(1) 的长宽对应; 所述传动结构(9) , 和倒仓转动体(2) 连接, 接受控制器(10) 指挥; 所述控制器(10) , 安装在容器(5) 外,连接重量检测器(8) 采集的信号, 在判断闭合的倒仓(1) 已经装满吋, 指挥传动结构(9) 工作, 传动结构(9) 使倒仓转动体(2) 转动; Rotating flow irrigation ultra-high magnetic mineral processing apparatus 12 according to claim 10 water magnetite, further characterized in that warehouse down automatically increase the discharge of large particles of ore, comprising: down bin (1), inverted positions rotary body (2 ), sealing body (3), the container bottom inclined surface (4), the container (5), large particle discharge gap (6), the transmission structure (9), the controller (10), further characterized in that to increase the weight detector (8 ), weight monitoring strip (7); the weight of the detector (8), mounted on the weight monitoring strip (7), the acquisition signal connection controller (10); the weight of the monitor strip (7), mounted on the back warehouse (1) bottom, weight monitoring is arranged by an article a weight detector (8) composition; the inverted cartridge (1), located in inverted positions rotary body (2) inside, rectangular groove width and row of large particles notch (6) corresponds to the length, depth and inverted positions rotary body (2) match; the inverted positions rotary body (2), was cylindrical, and sealing body (3) matches, rotatable in a sealed case; the said sealing body (3), a concave circular arc, and inverted positions rotary body (2) match; the bottom of the vessel ramps (4), the bottom of the container was inclined plane, while the large particles and the discharge gap plane (6) connection , connected to the rest of the container wall; the container (5) to accommodate objects of the object; the bottom of the vessel ramps (4), the bottom of the container was inclined plane, while the large particles and the discharge gap plane (6) is connected with the rest container wall; said container (5) to accommodate objects of the object; the row of large particle gap (6), rectangular, (1) the length and width corresponding to length and width and its inverted positions; the transmission structure (9) , and inverted positions rotary body (2) is connected to receive the controller (10) command; the controller (10), mounted on the container (5), the signal connector weight detector (8) collected in the closed judgment down bin (1) have been filled inches, command transmission structure (9) work, transmission structure (9) so that inverted positions rotating body (2) is rotated;
控制器(10) 在接收重量检测条(7) 采集的信号并判定大颗粒矿砂已经装满倒仓(1) 吋, 指挥传动结构(9) 工作, 带动倒仓转动体( 2) 转动, 从而倒仓(1) 工作; 倒仓(1) 倒去大颗粒矿砂后, 控制器(10) 指挥传动结构(9) 工作, 带动倒仓转动体(2) 转动, 从而倒仓(1) 回位; 倒仓(1) 回位后, 控制器(10) 接收重量检测器( 8) 信号, 判断大颗粒矿砂的装填情况。 The controller (10) (7) Acquisition of signals received and determine the weight of a test strip has been filled with granular ore down bin (1) inch, command transmission structure (9) work to drive down bin rotating body (2) is rotated, thereby down bin (1) work; inverted positions (1) large particles ore tossed away after the controller (10) conductor transmission structure (9) work to drive down bin rotating body (2) is rotated so down bin (1) return ; down bin (1) return, the controller (10) (8) signal receiver weight detector determines the loading case of large particles of ore.
13、 根据权利要求10水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加水中控制大颗粒物体下落幵关的装置, 包括: 倒仓( 1) 、 倒仓转动体(2) 、 密闭体(3) 、 容器底斜面(4) 、 容器(5 ) 、 排大颗粒缺口(6) , 其特征还在于增加导矿壁(7) 、 幵关门板 Rotating flow irrigation ultra-high magnetic mineral processing device 13 according to claim 10 water magnetite, further characterized by an increase in water control large particles falling objects Jian Guan, comprising: down bin (1), inverted positions rotary body ( 2), a closed body (3), the container bottom bevel (4), the container (5), rows of large particle gap (6), further characterized by an increase in on mine walls (7), Jian closing plate
(8) 、 幵关门轴(9) 、 转动结构A (10) 、 齿状杆(11) 、 转动结构B (12) 、 控制器(13) 、 斜隔板(14) ; 所述导矿壁(7) , 上面连接容器底斜面(4) , 下面连接密闭体(3) , 两导矿壁(7) 的距离, 大于排大颗粒缺口(6) 的宽度, 多出的空间好安装幵关门(8 ) 、 齿状杆(11) 、 转动结构A (10) 、 转动结构B (12) ; 所述幵关门板(8) , 固定在幵关门轴(9) 上; 所述幵关门轴(9) , 安装在容器底斜面(4) 和导矿壁(7) 之间, 轴杆上固定幵关门板(8) , 轴(9) 和转动结构A (10) 连接; 所述转动结构A (10) , 和幵关门轴(9) 连接, 接受控制器(13) 指挥, 产生动力, 让幵关门板(8 ) 抬起、 放下; 所述齿状杆(11) , 形状为齿状杆那么粗的齿轮加厚到齿状杆那么长, 安装在幵关门轴(9) 对面的容器底斜面(4) 和导矿壁(7) 之间, 并和转动结构B (12) 连接; 所述转动结构B (12) , 和齿状杆(11) 一端连接, 接受控制器(13) 指挥, 当幵关门板( 8) 和自己要闭合吋, 产生动力, 使齿状杆(11) 逆吋针旋转, 闭合后停下; 所述斜隔板(14) , 上端位于齿状杆(11) 和导矿壁(7) 之间, 下端和密闭体(3) 上端的位置一致, 对面幵关门板(8) 下一样可以安装; 所述控制器(13) , 安装在容器(5) 外, 当倒仓(1) 工作吋, 指挥转动结构A (10) 、 转动结构B (12) 工作, 让幵关门板(8) 和齿状杆(11) 闭合; 所述倒仓(1) , 位于倒仓转动体(2 ) 内, 呈矩形槽, 宽度和排大颗粒缺口(6) 相对应, 长度、 深度和倒仓转动体(2) 匹配; 所述倒仓转动体(2) , 呈圆柱体, 和密闭体 (8), Jian closing axis (9), rotating structure A (10), toothed rod (11), rotating structure B (12), the controller (13), oblique separator (14); the guide mine walls (7) above the connections container bottom inclined surface (4), the following connection sealing body (3), two lead mine walls (7) the distance is greater than the row of large particle gap (6) the width of the extra space to install Jian closed (8), toothed rod (11), rotating structure a (10), rotating structure B (12); said Jian closing plate (8), fixed Jian closing axis (9); said Jian closed shaft ( 9), mounted on the bottom of the container between the ramp (4) and lead mine walls (7), on the shaft fixed Jian closing plate (8), the shaft (9) and rotating structure a (10); said rotating structure a (10), and Jian closed shaft (9) is connected to receive the controller (13) command to generate power, so Jian closing plate (8) up, down; the toothed rod (11), the shape of a toothed rod so thick toothed gear lever to thicken so long, mounted between Jian closing axis (9) opposite the bottom of the vessel ramps (4) and lead mine walls (7), and the rotating structure and B (12) is connected; the said rotating structure B (12), and a toothed rod (11) connected at one end to accept a controller (13) command, when Jian closing plate (8) and they have to close inches, generating power, so that toothed rod (11) against the inch needle rotation, after the closing stop; consistent position between the swash plate (14), located at the upper end of toothed rod (11) and lead mine walls (7), the lower end and sealing body (3) the upper end, opposite Jian closing plate (8) can be installed under the same; the controller (13), mounted on the container (5) in addition, when inverted positions (1) working inch rotating command structure a (10), rotating structure B (12) work let Jian closing plate (8) and a toothed rod (11) is closed; the inverted cartridge (1), located in inverted positions rotary body (2) inside, rectangular groove width and row of large particle gap (6) corresponds to , length, depth and inverted positions rotary body (2) match; the inverted positions rotary body (2), was cylindrical, and closed body
(3) 匹配, 在密封情况下可转动; 所述密闭体(3) , 凹园弧形, 和倒仓转动体(2) 匹配; 所述容器底斜面(4) , 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口(6) 连接, 其余与容器壁连接; 所述容器(5) , 容纳物体的器物; 所述排大颗粒缺口(6) , 呈长方形, 其长宽与倒仓(1) 的长宽对应; (3) matching, in the case of a rotatable seal; (2) matching the sealing body (3), a concave circular arc, and the body inverted vessel to rotate; the bottom of the vessel ramps (4), the bottom of the container was inclined plane while large particles and discharge gap plane (6) is connected, is connected to the rest of the container wall; the container (5) to accommodate objects of the object; the row of large particle gap (6), rectangular, its length and width and pour warehouse (1) corresponding to the length and width;
倒仓工作吋, 让控制器知道, 控制器指挥转动结构A、 转动结构B工作, 让幵关门板和齿状杆闭合; 当幵关门板快要和齿状杆闭合吋, 齿状杆呈逆吋针旋转, 推幵继续下落的大颗粒物体, 使闭合紧密, 完成闭合后停下; 当倒仓口全部进入密闭体吋, 指挥转动结构A、 转动结构B工作, 让幵关门板放下, 打幵闭合, 让大颗粒物体落下; 斜隔板起容器底斜面的作用, 让大颗粒物体顺利进入倒仓。 Inch inverted warehouse work, let the controller know that the command of the controller rotating structure A, B rotating structure work, so Jian closing plate and toothed rings are closed; when Jian closed toothed rings are closed and about to board-inch, an inverse-inch toothed rod needle rotation, object push Jian large particles continue to fall, so tightly closed, after the completion of the closing stop; when the inverted positions in all entered the closed-inch body, rotating command structure a, B rotating structure work, so Jian closing plate down, hit Jian closed, so that large particles falling objects; the role of the container from the bottom bevel helical separator, so that large particles fall into the object smoothly warehouse.
14、 根据权利要求10水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加预留一次倒仓大颗粒物体容量的装置, 包括: 倒仓(1 ) 、 倒仓转动体(2) 、 密闭体(3) 、 容器底斜面(4) 、 容器(5) 、 排大颗粒缺口(6) 、 导矿壁(7) 、 幵关门板A (8) , 幵关门轴A 14, according to claim 10 rotating flow irrigation water magnetite mineral processing ultra-high magnetic means, further characterized in that to increase the reserve once large particles fall warehouse capacity object, comprising: down bin (1), inverted positions rotary body (2), sealing body (3), the container bottom bevel (4), the container (5), rows of large particle gap (6), guide mine walls (7), Jian closing plate A (8), Jian closing axis A
(9) , 转动结构A ( 10) , 齿状杆B ( 11) , 转动结构B ( 12) , 控制器( 13) 、 斜隔板( 14) 、 幵关门板C ( 15) 、 幵关门轴C ( 16) , 转动结构C ( 17) ,齿状杆D ( 18) ,转动结构D ( 19) , 重量监测条( 20) 、 重量检测器(21) 、 横隔板(22) , 其特征还在于判定幵关门 (9), rotating structure A (10), toothed rod B (11), rotating structure B (12), the controller (13), oblique separator (14), Jian closing plate C (15), Jian closed shaft C (16), rotating structure C (17), toothed rod D (18), rotating structure D (19), weight monitoring strip (20), the weight detector (21), the crossbeam (22), characterized in that judgment Jian closed
( 15) 已积累了一倒仓(1) 容量的大颗粒后, 停止大颗粒继续添加; 所述倒仓(1) , 位于倒仓转动体(2) 内, 呈矩形槽, 宽度和排大颗粒缺口(6) 相对应, 长度、 深度和倒仓转动体(2) 匹配; 所述倒仓转动体(2) , 呈圆柱体, 和密闭体(3) 匹配, 在密封情况下可转动; 所述密闭体(3) , 凹园弧形, 和倒仓转动体(2) 匹配; 所述容器底斜面(4) , 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口 (15) has accumulated a down bin (1) large particle volume, stop large particles continue to add; the inverted cartridge (1), located within the inverted positions rotary body (2), rectangular tank, large width and row particle gap (6) corresponds to the length, depth and inverted positions rotary body (2) match; the inverted positions rotary body (2), was cylindrical, and sealing body (3) matches, rotatable in a sealed case; the sealing body (3), a concave circular arc, and inverted positions rotary body (2) match; the bottom of the vessel ramps (4), the bottom of the container was inclined plane, while the large particles and the discharge gap plane
(6) 连接, 其余与容器壁连接; 所述容器(5) , 容纳物体的器物; 所述排大颗粒缺口(6) , 呈长方形, 其长宽与倒仓(1) 的长宽对应; 所述导矿壁(7) , 上面连接容器底斜面(4) , 下面连接密闭体( 3) , 两导矿壁(7) 的距离, 大于排大颗粒缺口(6) 的宽度; 所述幵关门板A (8) , 固定在幵关门轴A (9) 上; 所述幵关门轴A (9) , 安装在容器底斜面(4) 和导矿壁(7) 之间, 轴杆上固定幵关门板A (8) , 幵关门轴A (9) 和转动结构A ( 10) 连接; 所述转动结构A (10) , 和幵关门轴A (9) 连接, 接受控制器(13) 指挥, 让幵关门板A (8) 抬起、 放下; 所述齿状杆B (11) , 形状为齿状杆那么粗的齿轮加厚到齿状杆那么长, 安装在幵关门轴A (9) 对面的容器底斜面(4) 和导矿壁(7) 之间, 并和转动结构B (12) 连接; 所述转动结构B (12) , 和齿状杆B (11) 一端连接, 接受控制器(13) 指挥, 当幵关门板A (8) 和齿状杆B (11) 要闭合吋, 带动齿状杆B (1 1) 作逆吋针旋转, 闭合后停下; 所述控制器(13) , 安装在容器(5 ) 外,连接重量检测器(21) 采集的信号, 在判断闭合的幵关门板C ( 15) 已经装满倒仓的容量吋, 指挥幵关门板A (8) 闭合; 所述斜隔板(14) , 斜隔板的上端位于齿状杆和导矿壁(7) 之间, 下端不超出密闭体(3) 上端的位置, 对面幵关门板下一样可以安装; 所述横隔板(22) , 呈长方体, 一端和导矿壁(7) 连接并处在导矿壁(7) 的中部; 另一端不超过排大颗粒缺口(6) , 其下面连接幵关门轴C (6) is connected, is connected to the rest of the container wall; the container (5) to accommodate objects of the object; the row of large particle gap (6), rectangular, its length and width and inverted positions (1) corresponding to the length and width; mine said guide wall (7), connected to the above container bottom bevel (4), the following connection sealing body (3), two lead mine walls (7) the distance is greater than the discharge gap of large particles (6) of the width; the Jian closing plate a (8), fixed Jian closing axis a (9); said Jian closed axis a (9), mounted on the bottom of the container between the ramp (4) and lead mine walls (7), fixed on the shaft Jian closing plate a (8), Jian closing axis a (9) and rotating structure a (10); said rotating structure a (10), and Jian closing axis a (9) is connected to receive the controller (13) command let Jian closing plate a (8) up, down; the toothed rod B (11), the shape of a toothed gear lever so thick thickened to toothed rod so long, mounted Jian closing axis a (9 ) between the bottom of the container opposite the ramp (4) and lead mine walls (7), and the rotating structure and B (12); said rotating structure B (12), and a toothed rod B (11) connected at one end to accept the controller (13) command, when Jian closing plate a (8) and dentate lever B (11) to be closed inch drive toothed lever B (1 1) for reverse-inch needle rotation, after closing stop; the control (13) mounted on the container (5), the connection weight detector (21) signal acquisition, the judge closed Jian closing plate C (15) have been filled inverted positions inch capacity, directing Jian closing plate a ( 8) closed; the swash plate (14), the upper end of the inclined partition plate and the guide rod dentate ore between wall (7), does not exceed the lower sealing body (3) of the upper end position, the next closing plate opposite the same Jian can be installed; the transverse bulkhead (22), rectangular shape and lead mine end wall (7) is connected and is in mine guide wall (7) in the middle; the other end does not exceed the discharge gap of large particles (6), the following Jian close connection axis C
(16) ; 所述幵关门板C (15) 、 固定在幵关门轴C (16) 上; 所述幵关门轴C (16) ,安装在横隔板(22) 的下面、 导矿壁(7) 的中部, 和转动结构C (17) 连接; 所述转动结构C (17) ,和幵关门轴C (1 6) 连接, 接受控制器(13) 指挥, 让幵关门板C (15) 抬起、 放下; 所述齿状杆D (18) ,形状、 大小和所述齿状杆B (11) 一样, 安装在横隔板(22) 下面, 与对面的幵关门板C (15) 、 幵关门轴C (16 ) 相对应; 所述转动结构D (19) , 和齿状杆D (18) 一端连接, 接受控制器(13) 指挥, 当幵关门板C (15) 和齿状杆D (18) 要闭合吋, 带动齿状杆D (18) 作逆吋针旋转, 闭合后停下所述重量检测器 (16); said Jian closing plate C (15), fixed to the closing shaft Jian C (16); said Jian closed axis C (16), install the following in the crossbeam (22), the lead mine walls ( 7) the middle and rotational structure C (17); said rotating structure C (17), and Jian closing axis C (1 6) is connected to receive the controller (13) command, let Jian closing plate C (15) up, down; the toothed rod D (18), shape, size and the toothed rod B (11), as mounted on the crossbeam (22) below, and opposite Jian closing plate C (15) , Jian closed axis C (16) corresponding; the rotating structure D (19), and a toothed rod D (18) connected at one end to accept a controller (13) command, when Jian closing plate C (15) and dentate lever D (18) to be closed inch drive toothed rod D (18) for the reverse-inch needle rotation stopped after the closing of the weight detector
(21) , 安装在幵关门板C (15) 上, 采集的信号连接控制器(13) ; 所述重量监测条(20) , 安装在幵关门板C (15) 上, 重量监测条 (21) mounted Jian closing plate C (15), the connection controller signal acquisition (13); the weight of the monitor strip (20), mounted on the closing plate Jian C (15), the weight of the monitor strip
(20) 是由一个一个的重量检测器(21) 排列组成; (20) is a weight of a detector (21) arranged in composition;
控制器在接收重量检测条采集的信号并判断闭合的幵关门板C的上面已经装满倒仓的容量吋, 指挥转动结构A工作, 带动幵关门轴A转动, 从而让幵关门板A和齿状杆B闭合, 当幵关门板A和齿状杆B要闭合吋, 控制器指挥转动结构B带动齿状杆B作逆吋针旋转, 闭合后停下, 控制器指挥转动结构C工作, 带动幵关门轴C转动, 从而放下幵关门板C, 幵关门板C上预存的大颗粒物体, 落入导矿壁内, 便于倒仓回位吋, 马上就能落入, 倒仓也立刻可以工作; 倒完幵关门板C上的大颗粒物体, 控制器指挥转动结构C工作, 带动幵关门轴C转动, 从而让幵关门板C和齿状杆D闭合, 当幵关门板C和齿状杆D要闭合吋, 控制器指挥转动结构D带动齿状杆D作逆吋针旋转, 闭合后停下; 控制器指挥转动结构A工作, 带动幵关门轴A转动, 从而放下幵关门板A,让大颗粒物体落下; 当控制器在接收重量检测条采集的信号并判断闭合的幵关门板C的上面已经装满倒仓的容量吋, 指挥幵关门板A和齿状杆B闭合, 当幵关门板A和齿状杆B要闭合吋, 控制器指挥转动结构B带动齿状杆B作逆吋针旋转, 闭合后停下; 斜隔板起容器底斜面的作用, 让大颗粒物体顺利进入导矿壁和倒仓。 The controller receives the signals collected by weight of the test strip and closed above judgment Jian closing plate C has full capacity down bin inch rotating command structure A work, led Jian closed rotation axis A, so that the closing plate A and the tooth Jian shaped lever B is closed, when Jian closed toothed plates A and B to be closed inch rod, the controller command structure B driven toothed rotating lever B as reverse-inch needle rotation, after closing stop rotating command of the controller work structure C, drive Jian closed rotation axis C, thereby closing down Jian plate C, Jian closed granular objects stored on board C, the mine falls within the guide wall to facilitate the return-inch inverted cartridge immediately be able to fall, down warehouse also immediately work ; emptied large particles objects Jian closing plate C on the command of the controller work rotating structure C, C drive Jian closed shaft is rotated, so that the closing plate Jian C and D closed toothed rod, plate C and when Jian closed toothed rod D to close the inch, the controller command rotational structure D driven toothed rod D for reverse-inch needle rotation, after the closing stop; command of the controller work rotating structure A, A drive shaft is rotated Jian closed, thereby closing down Jian plate A, so that large particles falling objects; when the controller receives the above signals collected by weight of the test strip and judges closed Jian closing plate C has full capacity down bin inch, commanding Jian closing plate a and B closed toothed rod, when Jian closed a toothed plate and rod B to close the inch, the controller command structure B driven toothed rotating lever B as reverse-inch needle rotation, after the closing stop; bottom of the container ramps ramp from the separator, so that large particles into the object smoothly guide mine walls and inverted positions.
15、 根据权利要求3磁铁矿的超高磁选矿装置, 其特征还在于增加人工智能的水中磁铁矿的旋转流灌式超高磁选矿装置, 包括: 水中磁铁矿螺旋式超高磁选矿装置、 倒仓自动工作装置、 矿砂下落幵关装置、 预留一次倒仓大颗粒矿砂容量装置、 粉碎装置、 磨粉装置、 传动矿砂流装置, 其特征还在于增加人工智能; 所述增加人工智能, 就是由增加的人工智能来控制、 监督、 处理各设备自己的工作状态, 以及设备之间的配合状态, 达到整体设备的平稳高效运转; 所述水中磁铁矿螺旋式超高磁选矿装置, 是一种利用重力原理, 灌内失速的磁铁矿沙往下降, 刚抽入的海沙流呈螺旋式上升, 相互作用, 不含磁铁的海沙由于比较轻, 被上升到选矿灌的顶部, 从尾矿口排出, 比较重的磁铁矿沙大致停滞在选矿灌中部, 由超高磁选矿机选矿的装置; 所述倒仓自动工作装置, 在水中磁铁矿螺旋式超高磁选矿的过程中, 颗粒大了, 螺旋式上升流和旋转扇叶扇不起来, 大颗粒海沙会下沉到灌底, 把它们自动排出到灌外的装置; 所述矿砂下落幵关装置, 控制大颗粒海沙下落和不下落到倒仓内的装置; 所述预留一次倒仓大颗粒矿砂容量装置, 预留一次倒仓容量的大颗粒海沙, 便于倒仓加快工作速度; 所述粉碎装置, 把大颗粒海沙粉碎成选矿用大小规格的装置; 所述磨粉装置, 把选出来的磁铁矿沙, 磨成100目大小, 好进入高品位精选装置 15. The apparatus according to claim 3 ultrahigh magnetic beneficiation of magnetite, characterized in that the increase of rotational flow-fill ultrahigh magnetic magnetite beneficiation means of artificial intelligence in the water, including: water ultrahigh magnetic magnetite spiral beneficiation equipment, automatic warehouse down the work equipment, ore fall Jian closing means, once reserved for large particles fall warehouse capacity means ore crushing equipment, milling equipment, ore stream transmission apparatus further characterized artificial increase; the increase in labor smart, is caused by increased artificial intelligence to control, supervise and coordinate the processing status of each device its own working conditions, as well as between devices, to achieve smooth and efficient operation of the overall device; the water ultrahigh magnetic beneficiation of magnetite spiral means It is a gravity principle, within the irrigation stall magnetite sand going down, just drawn in the sand spiraling flow, interaction, free of sand due to the relatively light magnet is raised to the top of the dressing irrigation from the tailings discharge port, heavier magnetite beneficiation filling sand roughly stagnated in the middle, from ultra-high magnetic concentrator beneficiation equipment; warehouse work automatically means the fall in the water spiral ultrahigh magnetic magnetite beneficiation in the process, large particles, the spiral flow and the rotating fan blades up, large sand particles will sink to the bottom filling, filling them automatically discharged to the outside of the device; the ore whereabouts Jian Guan device control sand and large particles fall down means no less fall within the warehouse; the reserved time positions down large particles of ore capacity means the capacity reserved for a warehouse down large particles sand, easy to pour warehouse work faster; the smash means the larger particles smash into the dressing with sand size specifications of the device; the milling apparatus, the elected magnetite sand, ground into 100 mesh size, good access to high-grade selection means
; 所述传动矿砂流装置, 增加动力, 保持矿砂流、 海沙流流速的装置第一个选矿工序: 海沙抽起来后, 进入水中磁铁矿螺旋式超高磁选矿装置, 喷出的海沙流和旋转扇叶转动融合形成新的旋转向上的矿砂流, 此吋选矿灌内的海沙流产生一个旋转的向上推力, 含铁的海沙重会往下坠, 不含铁的或者含铁少的海沙就被推到顶部, 在旋转中进入到尾澄出口被排除; 推和坠在选矿灌的中部的某个位置形成一个相对平衡, 水中超高磁选机就安装在这个位置, 用自己含有的磁铁矿选出、 收集、 并排到选矿灌外的装置, 进行选矿; 一次没有被水中超高磁选机选中, 只要海沙还是在这个范围的灌边转动, 一次次经常流到水中超高磁选机旁就肯定会被选中; 海沙没有在灌边, 会从灌的中间层落下, 落入灌的下层, 又会被旋转扇叶推上来到灌边上, 又会在中层这个范围的灌边转动, 再次给被水中超高磁选机选中的机会; 螺旋式上升流的快慢是有海沙的普片大小来决定的, 海沙大点就快些, 不然正常的铁矿砂流不到超高磁磁选机, 海沙小点就慢些, 不然正常的铁矿砂会从尾矿出口流走; 石头、 大颗粒海沙由于重, 选矿灌内的矿砂流产生一个旋转的向上推力把它推不到水中超高磁选机面前, 不能被选, 更不用说推到尾矿出料口被排出, 掉下后又不能被旋转扇叶扇起来, 继续下落, 通过排大颗粒缺口落入倒仓内, 控制器在接收重量检测条采集的信号并判定大颗粒矿砂已经装满倒仓吋, 指挥传动结构工作, 带动倒仓转动体转动, 从而倒仓工作; 倒仓倒去大颗粒矿砂后, 控制器指挥传动结构工作, 带动倒仓转动体转动, 从而倒仓回位; 倒仓回位后, 控制器接收重量检测器信号, 判断大颗粒矿砂的装填情况; 再运用预留一次倒仓大颗粒矿砂容量装置, 使倒仓工作吋已经又在积累, 回位后, 迅速将预留的一次倒仓容量的大颗粒矿砂, 倒入倒仓, 加快排出石头、 大颗粒海沙; ; Ore flow means the transmission, increase power to maintain the flow of ore, the first step of sand beneficiation flow velocity means: After pumping up the sand into the water spiral ultrahigh magnetic magnetite beneficiation equipment, sand flow ejected and rotating blades rotating fuse to form new rotates upward flow of ore, sand beneficiation inch irrigation flow this production within a rotating upward thrust, weight sand iron will to fall, or at least non-ferrous iron sea the sand is pushed up to the top end of the rotation into Cheng exports are excluded; pushed and fall in the middle of the dressing filling a position to form a relatively balanced, the water on the installation of ultra-high magnetic separator in this position, with their containing magnetite elected, collection, side by side to the outside of the dressing filling apparatus beneficiation; once the water has not been selected ultra-high magnetic separator, as long as the rotation in the sand or filling side of this range, the water flowing again often super high magnetic separator will surely be next to be selected; no sand in the filling side, will fall from the middle layer of filling, filling the lower falls, will be rotating fan came onto the edge of the sink, turn in the middle of this range of irrigation while rotating, ultra-high water to the selected magnetic separator opportunity again; there is a speed spiral stream of ordinary sand sheet to determine the size of a large sand point quickly, otherwise normal iron ore sand flow is less than the ultra-high magnetic separator, sand dots to slow down, or you'll go from a normal iron ore tailings outlet flow; stone, sand particles due to the large heavy mineral sands, mineral filling inside a rotating flow generation the upward thrust to push it in water less than ultrahigh magnetic separator before, can not be selected, let alone push to tailings discharge port is discharged, after falling fan blades can not be rotated up and continue to fall through the discharge large particles fall within the gap down warehouse, the controller receives the signals collected by weight of the test strip and determining large particles of ore have been filled inverted positions inch drive command structure to work to drive down warehouse rotational body rotated so down warehouse work; inverted positions after large particles decanted ore, drive controller command structure to work to drive down warehouse rotational body rotated so that the return inverted positions; inverted positions after the return, the controller receives the weight of the detector signals to determine the loading case of large particles of ore; then the use of a reserved compartment down large particles of ore capacity means that warehouse down to work again in inches already accumulated, after the return, once again fell rapidly warehouse capacity will be reserved for large particles of ore, down into the warehouse, speed up discharging stones, large sand particles;
第二个选矿工序: 从第一个选矿工序出来的, 有三样东西, 大颗粒、 磁铁矿沙、 尾矿; 大颗粒, 如果有选矿的必要就进行粉碎, 粉碎后通过传动矿砂流装置, 再进入第一个选矿工序, 进行选矿; 没有必要就进入装海沙的仓内填礁用; 磁铁矿沙, 半成品, 可以出售或运到磁铁矿精选厂精选; 马上精选就进入磨粉装置; 尾矿, 里面含有颗粒较小的磁铁矿沙, 需要选就再进入一个水中磁铁矿螺旋式超高磁选矿装置, 只是矿砂流的速度要慢些, 有利于选矿; 并且按海沙的大小规格, 进入不同矿砂流速度的水中磁铁矿螺旋式超高磁选矿装置; 针对规格越细的水中磁铁矿螺旋式超高磁选矿装置, 选出来的磁铁矿品位越高; 尾矿就进入装海沙的仓内填礁用; The second step of dressing: From the first step out of the dressing, there are three things, the large particles, magnetite sand, tailings; large particles, if necessary on beneficiation crushed, crushed ore flow through the transmission means, and then into the first step of beneficiation, beneficiation; fill reef within no need to enter the warehouse loaded with sand; magnetite sand, semi-finished products can be sold or shipped to the selection of magnetite plant selection; now featured on into the milling apparatus; tailings, which contains smaller particles of magnetite sand, would no longer need to choose to enter a spiral water ultrahigh magnetic magnetite beneficiation equipment, ore flow velocity but more slowly, is conducive to beneficiation; according to the size and specifications of sand, into the water spiral ultrahigh magnetic magnetite beneficiation ore means different flow speeds; for more detailed specifications for ultra-high magnetic spiral water magnetite beneficiation equipment, magnetite grade elected the higher; tailings proceeds to fill the inner reef loaded with sand bins;
第三个选矿工序是精选: 把第一个选矿工序、 第二个选矿工序中水中磁铁矿超高磁选矿机选出来的磁铁矿沙, 进入磨粉装置, 研磨成100 目的矿粉, 再进入只针对100目的水中磁铁矿螺旋式超高磁选矿装置, 进行选矿, 出来的产品, 就应该是含量为60%以上的磁铁矿精粉了 The third step is the selection of dressing: the first beneficiation process, the second step in water beneficiation of magnetite concentrator ultrahigh magnetic elected magnetite sand into the milling apparatus ground to 100 mesh slag , then enter the water only for the purpose of 100 ultra-high magnetic beneficiation of magnetite spiral means beneficiation, out of the product, it should be an amount of 60% or more of the magnetite powder
16、 一种磁铁矿的超高磁选矿装置, 其特征还在于增加超声波; 所述超声波, 安装在矿砂的运动过程中, 其波作用于超高磁选矿结束之前在超声波的轰击下, 小颗粒之间的粘连就要受到打击, 使其粘连受到不同程度的损伤甚至被打断, 那么利用超声波的这个特性来轰击磁铁矿沙, 尽量把磁铁矿沙间的粘连打断, 让超高磁最大限度的将磁铁矿沙中的非需要成分的颗粒和需要的矿砂颗粒分幵, 把非需要矿砂颗粒除去, 提高矿砂品位。 16, high magnetic magnetite mineral processing apparatus, further characterized by the increase of ultrasonic; the ultrasonic mounted ore movement, the wave effect before the end of the ultra-high magnetic beneficiation under ultrasound bombardment, small adhesion between the particles will hit to adhesions are subject to different degrees of damage or even be interrupted, then use this feature to ultrasonic bombardment magnetite sand, try to break the adhesion between magnetite sand, so super high magnetic magnetite sand particles will maximize the non-required components and the required ore particles points Jian, the ore particles to remove undesired increase ore grade.
17、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种传送带式超高磁场选磁铁矿装置, 包括: 磁铁矿沙(1) 、 皮带(3 ) 、 皮带轮(2) 、 超高电磁线圈(4) , 其特征还在于增加了超声波 17, according to claim 16- ultrahigh magnetic magnetite seed dressing apparatus claims, characterized by one conveyor-type ultrahigh magnetic field of magnetite apparatus, comprising: magnetite sand (1), the belt (3), pulley (2), high electromagnetic coil (4), further characterized in that the ultrasonic wave increases
(5) ; 所述磁铁矿沙流(1) , 是众多的磁铁矿沙组成的运动体; 所述皮带(3) , 在皮带轮(2) 的带动下, 于两皮带轮(2) 间循环转动, 把落在上面的磁铁矿沙流(1) 加速; 所述皮带轮(2) , 是皮带(3) 循环转动的动力源; 所述超高电磁线圈(4) , 安装在磁铁矿沙流(1) 的运动过程中, 超高电磁线圈(4) 导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流(1) ; 所述增加超声波(5) , 安装在矿砂流(1) 的运动过程中, 在超高磁选矿结束之前对被选的矿砂流(1 (5); the magnetite sand flow (1), the moving body is composed of a large number of magnetite sand; the belt (3) at the pulley (2), driven pulleys in two (2) between the loop rotation, above the falls magnetite sand flow (1) to accelerate; the pulley (2), the belt (3) rotation cycle of the power source; the ultrahigh electromagnetic coil (4), installed in the magnetite sand flow (1) the course of the campaign, ultrahigh ultrahigh electromagnetic field coil (4) conducting issued after ultra-high magnetic field acts on the magnetite sand flow (1); the increase of ultrasonic (5), installed in the ore flow (1 ) course of the campaign, before the end of the ultra-high magnetic beneficiation of the ore being selected flow (1
) 轰击 ) Bombardment
在传送带式超高磁场选磁铁矿装置的超高磁场选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连打断, 在超高磁场中, 不含磁铁的颗粒在惯性作用下, 顺利穿过磁场, 而含磁铁的矿沙会因为超高磁场的作用, 而被吸引改变运动轨迹, 从而达到把非需要成分的颗粒尽量除去, 提高矿砂品位。 Before the end of the conveyor-type ultra-high magnetic field apparatus selected magnetite beneficiation ultrahigh magnetic field, and then the magnetite sand bombardment by the ultrasound, the composition of the ore particles and non-required component required particle adhesion interrupted in ultrahigh magnetic fields , the particles contain magnets in the inertia smoothly through the magnetic field, and the magnet containing sand mining because of the role of ultra-high magnetic field, are attracted to change trajectory, so as to achieve the required small particle component is removed as much as possible, to improve ore grade.
18、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种有小分格的皮带选磁铁矿装置, 包括: 有小分格的皮带选磁铁矿装置, 其特征还在于包括增加了超声波(10) ; 所述有小分格的皮带选磁铁矿装置, 是由有小分格的皮带(3) 、 电动机、 皮带轮(2) 、 超高磁电磁线圈(4) 组成的; 所述超声波(10) , 安装在矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击; 18, claimed 16- kinds of ultra-high magnetic magnetite beneficiation apparatus claims, further characterized by a kind of small sub-lattice of magnetite belt apparatus comprising: a small sub-grid belt of magnetite means further characterized in that it comprises an increase of ultrasound (10); the sub-grid small belt of magnetite means ruled by a small belt (3), the motor pulley (2), ultra-high magnetic solenoid (4) thereof; the ultrasonic wave (10), mounted on the ore movement, before the end of the ultra-high magnetic beneficiation of ores are selected bombardment;
在有小分格的皮带选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 In a small beneficiation process of magnetite ruled belt apparatus, the front end of its ultra-high magnetic beneficiation segment, and then the magnetite sand bombardment by the ultrasound, the adhesion of ore particles in the composition of the particles and non-required components needed interrupted in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.
19、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种水车式履带刮矿砂选磁铁矿装置, 包括: 水车式履带刮矿砂选磁铁矿装置, 其特征还在于增加了超声波(11) ; 所述水车式履带刮矿砂选磁铁矿装置, 由工作平台槽(2) 、 水车式履带(3) 、 电动机、 皮带轮(4) 、 超高磁电磁线圈(5) 组成; 所述超声波(11) , 安装在矿砂流(1) 的运动过程中, 在超高磁选矿结束之前对被选的矿砂流(1) 轰击; 19, claimed 16- kinds of ultra-high magnetic magnetite beneficiation apparatus claims, characterized by one paddlewheel track selected magnetite ore scraping device, comprising: a waterwheel crawler election magnetite ore scraping means further characterized by an increase of ultrasound (11); the waterwheel crawler scraping device magnetite ore selected by the working platform groove (2), water tankers track (3), motors, pulleys (4), high magnetic solenoid (5) composition; the ultrasonic (11), mounted on the ore flow (1) of the movement, before the end of the ultra-high magnetic beneficiation of the ore being selected flow (1) bombardment;
在水车式履带刮矿砂选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 In the beneficiation process paddlewheel track of magnetite ore scraping device, the front end of its ultra-high magnetic beneficiation segment, and then the magnetite sand bombardment by the ultrasound, the adhesion of ore particles in the composition of the particles and non-required components needed try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.
20、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种抛物面击矿砂式选磁铁矿装置, 包括: 抛物面击矿砂式选磁铁矿装置, 其特征还在于增加了超声波(11) ; 所述抛物面击矿砂式选磁铁矿装置, 由电动机、 抛物面轮(4) 、 抛物面(2) 、 抛物面齿(3) 20, claimed 16- kinds of ultra-high magnetic magnetite beneficiation apparatus claims, characterized by one type of magnetite ore parabolic blow apparatus comprising: a parabolic type of magnetite ore blow means, further characterized increased ultrasonic (11); the paraboloid type of magnetite ore blow means, by the motor, a parabolic wheel (4), parabolic (2), a parabolic tooth (3)
、 方向校正器(5) 、 超高磁电磁线圈(6) 组成; 所述超声波(11) , 安装在磁铁矿砂流(1) 的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流(1) 轰击; Direction corrector (5), ultra-high magnetic solenoid (6) composition; the ultrasonic (11), mounted on magnetic iron ore flow (1) in the course of the campaign, before the end of the ultra-high magnetic beneficiation of the magnet is selected ore flow (1) bombardment;
在抛物面击矿砂式选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 In ore beneficiation process parabolic type of magnetite strike means, the end of its ultra-high magnetic beneficiation segment, and then the magnetite sand bombardment by the ultrasound, the particle adhesion required ingredient particles of ore and non-required components as much as possible to fight off, in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.
21、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种强风吹矿砂式选磁铁矿装置, 包括: 强风吹矿砂式选磁铁矿装置, 其特征还在于包括增加了超声波(9) ; 所述强风吹矿砂式选磁铁矿装置, 由吹风口(2) 、 方向校正器(3) 、 超高磁电磁线圈(4) 组成; 所述超声波(9) , 安装在磁铁矿砂流(1) 的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流(1) 轰击; 21, claimed 16- kinds of ultra-high magnetic magnetite beneficiation apparatus claims, further characterized by a strongly wind election magnetite ore type apparatus, comprising: a strong wind of magnetite ore type apparatus, further characterized include the addition of ultrasound (9); the strong wind of magnetite ore type apparatus, the air outlet (2), the direction corrector (3), the ultra-high magnetic solenoid (4) the composition; the ultrasound (9) mounted magnetic iron ore flow (1) in the course of the campaign, before the end of the ultra-high magnetic beneficiation of the selected magnetic iron ore flow (1) bombardment;
在强风吹矿砂式选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前抛物面击矿砂式选磁铁矿装置, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒除去, 提高矿砂品位。 In strong winds formula selected from magnetite ore beneficiation process in the apparatus, its high magnetic beneficiation segment before the end of the parabolic type of magnetite ore strike means, then by ultrasound on magnetite sand bombardment, the required ingredient particles in the ore and non-required component particle adhesion try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing and improve ore grade.
22、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种喷嘴式超高磁选矿装置, 包括: 喷嘴式超高磁选矿装置, 其特征还在于增加了超声波(12) ; 所述喷嘴式超高磁选矿装置, 由强风管 22, according to claim 16- ultrahigh magnetic magnetite seed dressing apparatus claims, characterized by one nozzle type ultrahigh magnetic beneficiation apparatus, comprising: a nozzle ultra-high magnetic beneficiation apparatus, further characterized in that the ultrasonic wave increases ( 12); the nozzle ultra-high magnetic mineral processing equipment, from strong wind pipe
( 1) 、 喷风嘴(2) 、 混料仓(3) 、 喷管(4) 、 扇形喷嘴(5) 、 螺旋式给料装置(6) 、 超高磁电磁线圈(7) 、 磁铁矿沙(8) 、 尾矿(9) 、 隔板(10) 、 料斗(11) 组成; 所述超声波(12) , 安装在磁铁矿砂流的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流轰击; (1), the spray nozzle (2), mixing bin (3), the nozzle (4), fan nozzle (5), screw feeding device (6), ultra-high magnetic solenoid (7), the magnet mineral sands (8), tailings (9), the separator (10), the hopper (11) composition; the ultrasonic (12), mounted on the movement of magnetic iron ore stream, before the end of the ultra-high magnetic beneficiation of being magnetic iron ore selected flow bombardment;
在超高磁场选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒除去, 提高矿砂品位。 Dressing before the end of the ultra-high magnetic field, and then the magnetite sand bombardment by the ultrasound, the composition of the ore particles and non-required component required particle adhesion try to interrupt, in favor of ultra-high magnetic field, the particles are removed by a non-required component improved ore grade.
23、 根据权利要求16—种磁铁矿的超高磁选矿装置, 其特征还在于一种水中磁铁矿的旋转流灌式超高磁选矿装置, 包括: 水中磁铁矿的选矿装置, 其特征还在于增加了超声(9) ; 所述水中磁铁矿的选矿装置, 由波入料管(1) 、 动力系统(2) 、 轴(3) 、 旋转扇叶(4) 、 选矿灌(5) 、 尾澄出口(6) 、 水中磁选机(7) 、 精矿出口(8) 组成; 所述入料管(1) , 位于选矿灌(5) 底部旋转扇叶(4) 的上面, 灌外接挖沙、 抽沙的管, 灌内喷出的矿砂流和选矿灌(5) 内的流动方向一致; 所述动力系统(2) , 处于选矿灌(5) 外, 和轴(3 ) 的顶部连接; 所述轴(3) , 选矿灌(5) 的中心, 顶部贯穿选矿灌 23, claimed 16- kinds of ultra-high magnetic magnetite beneficiation device, characterized in that the rotary flow-fill water ultrahigh magnetic magnetite beneficiation apparatus, comprising: a water magnetite beneficiation apparatus further characterized by an increase of ultrasound (9); the water magnetite beneficiation equipment, by the wave into the tube (1), the power system (2), the shaft (3), the rotating blades (4), mineral filling ( 5), Cheng outlet end (6), the water separator (7), concentrate outlet (8) composition; the feed tube (1), located beneficiation irrigation (5) at the bottom of the rotating blades (4) above , external dredging irrigation, pumping sand tube, filling and discharge of ore beneficiation flow irrigation consistent flow direction (5); said power system (2), in the dressing irrigation (5) outside, and the shaft (3 ) the top connection; (3), mineral filling (5) of the center of the shaft through the top dressing irrigation
(5) 顶部, 并和动力系统(2) 连接; 所述旋转扇叶(4) , 位于选矿灌(5) 的下部, 固定在轴(3) 的底端; 所述选矿灌(5) , 呈圆柱形, 选矿设备的主体; 所述尾澄出口(6) , 位于选矿灌(5) 顶端, 其同选矿灌(5) 连接部分的方向为选矿灌(5) 圆周的切线; 所述水中超高磁选机(7) , 位于选矿灌(5) 中段, 能在水中工作的具有超高磁场的磁选机, 含有精矿选出、 收集、 并排到选矿灌外的装置; 所述精矿出口(8) , 位置和水中超高磁选机(7) 相配, 形状、 大小也和其把选出的精矿排到选矿灌(5) 外的装置相配; 所述超声波, 安装在选矿灌外矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击; 在水中磁铁矿的旋转流灌式超高磁选矿装置的超高磁场选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 (5) at the top, and the power system, and (2); said rotating fan (4), located in the lower part of mineral processing tank (5) is fixed to the bottom end of the shaft (3); said irrigation dressing (5), body was cylindrical, mineral processing equipment; tail Cheng said outlet (6), located beneficiation irrigation (5) to the top, with its beneficiation irrigation (5) connecting direction part of beneficiation irrigation (5) tangent to the circumference; the water ultrahigh magnetic separator (7), located beneficiation irrigation (5) in the middle, can work in the water of the ultra-high magnetic separator, comprising elected concentrate, collecting, side by side to the outside of the dressing filling means; the fine ore export (8), the location and the ultra-high water separator (7) match, shape, size and also elected to concentrate its beneficiation discharged irrigation (5) Matches outside the apparatus; the ultrasonic mounted dressing irrigation outer ore movement, before the end of the ultra-high magnetic beneficiation of ores are selected bombardment; at the end of the rotary flow-fill ultrahigh magnetic beneficiation means ultrahigh magnetic beneficiation of magnetite in water, and then by ultrasound on the magnetic iron ore sand bombardment, the ore particles and the required components of the non-required component particle adhesion try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.
24—种磁铁矿的超高磁选矿组合装置, 其特征还在于选矿装置组合顺序; 所述选矿装置组合顺序, 是一种磁铁矿的超高磁选矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 24- kind ultrahigh magnetic beneficiation of magnetite combining means, further characterized by means for combining the sequence beneficiation; combination sequence of said dressing means, the dressing apparatus after the ultra-high magnetic beneficiation of one kind of magnetite, followed by ultra-high magnetic field election magnetite means;
通过一种磁铁矿的超高磁选矿装置选矿后, 有些非需要颗粒由于速度、 质量、 角度等原因, 会误落入选矿池中, 造成选矿的品位降低, 再通过一个超高磁电磁线圈, 把有用磁铁矿沙吸住, 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 带离磁场, 磁铁矿沙就会自由下落到选矿池。 By means ultrahigh magnetic beneficiation of magnetite beneficiation one kind after some undesired particles due to the speed, quality, angle and other reasons, mistakenly fall into the pool dressing, resulting in lower grade beneficiation, and then through a ultra-high magnetic solenoid to be useful for magnetite sand suck, have pulled away from the magnetite magnetic means, suction on the ultra-high magnetic solenoid magnetite sand away, taken away from the ultra-high magnetic field of electromagnetic coils, magnets, mineral sands beneficiation will free fall to the pool.
25、 根据权利要求24—种磁铁矿的超高磁选矿组合装置, 其特征还在于一种传送带式超高磁场选磁铁矿组合装置, 包括: 一种传送带式超高磁场选磁铁矿装置、 漏槽(5) 、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种传送带式超高磁场选磁铁矿装置, 由皮带(3) 、 皮带轮(2) 、 超高电磁线圈(4) , 超声波组成(12) ; 所述漏槽(5) , 是由两个隔板(11) 组成, 呈上宽下窄状, 位于超高磁电磁线圈上的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 25, according to claim 24- kind ultrahigh magnetic beneficiation composition of claim magnetite apparatus, which are characterized by one conveyor-type ultrahigh magnetic field of magnetite combination apparatus comprising: a conveyor-type ultrahigh magnetic field of magnetite means sink (5), ultra-high magnetic field of magnetite apparatus further characterized dressing means comprises combination sequence; ultra-high magnetic field of said one of magnetite conveyor means, by the belt (3), a pulley ( 2), high electromagnetic coil (4), an ultrasonic composition (12); the drain groove (5), is composed of two baffles (11), with the narrow width goes like, located on the ultra-high magnetic solenoid below; the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow in free fall in the process, with ultra-high magnetic beneficiation means; the combination sequence dressing means is a conveyor-type ultra-high magnetic field is selected after the iron ore beneficiation equipment, followed by the ultra-high magnetic field of magnetite means;
通过一种传送带式超高磁场选磁铁矿装置选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 Elected by means of a conveyor-type ultra-high magnetic field apparatus selected from magnetite ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means to filter out particles do not need to increase the ore grade again .
26、 根据权利要求24—种磁铁矿的超高磁选矿组合装置, 其特征还在于一种有小分格的皮带选磁铁矿组合装置, 包括: 一种有小分格的皮带选磁铁矿装置、 漏槽(11) 、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种有小分格的皮带选磁铁矿装置, 是由有小分格的皮带(3) 、 电动机、 皮带轮(2) 、 超声波轰击装置 26, claimed 24- kinds of ultra-high magnetic beneficiation of magnetite composite apparatus claims, further characterized by a kind of sub-grid small belt of magnetite composite apparatus comprising: a kind of small magnetic belt selected sub-grid iron ore unit, sink (11), ultra-high magnetic field of magnetite apparatus further characterized by a combination of means including beneficiation order; the one small sub-grid belt of magnetite means, is caused by a small sub grid belt (3), a motor, a pulley (2), an ultrasonic device bombardment
(10) 、 超高磁电磁线圈(4) 组成的; 所述漏槽(11) , 是由两个隔板(8) 组成, 呈上宽下窄状, 位于超高磁电磁线圈(4) 上的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; (10), the ultra-high magnetic solenoid (4) thereof; said drain groove (11), by two baffles (8), with the narrow width goes like, located ultrahigh magnetic solenoid (4) Here on; the ultra-high magnetic field apparatus selected from magnetite, magnetite sand in free fall in the process, with ultra-high magnetic beneficiation means; the combination sequence dressing means is a conveyor-type ultra-high magnetic field is selected after magnetite beneficiation equipment, followed by the ultra-high magnetic field of magnetite means;
磁铁矿沙经过一种有小分格的皮带选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 After magnetite sand through a kind of sub-grid small belt of magnetite means elected ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means the particle filter is not required out, again in order to improve the grade of ore.
27、 根据权利要求24—种磁铁矿的超高磁选矿组合装置, 其特征还在于一种水车式履带刮矿砂选磁铁矿组合装置来, 包括: 一种水车式履带刮矿砂选磁铁矿装置、 漏槽(12) 、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种水车式履带刮矿砂选磁铁矿装置, 由工作平台槽(2) 、 水车式履带(3) 、 电动机、 皮带轮( 4) 、 超声波轰击装置(11) 、 超高磁电磁线圈组成(5) ; 所述漏槽 27. 24- kinds of ultra-high magnetic magnetite beneficiation combination apparatus as claimed in claim characterized by one paddlewheel track scraping magnetite ore selected combination apparatus comprising: a waterwheel crawler scraping ore election magnetite means sink (12), ultra-high magnetic field of magnetite apparatus further characterized by a combination of means including beneficiation order; the one paddlewheel track scraping device magnetite ore selected by the working platform groove (2) paddlewheel caterpillar (3), a motor, a pulley (4), an ultrasonic bombardment device (11), consisting of ultra-high magnetic solenoid (5); the drain groove
(12) , 是由两个隔板(9) 组成, 呈上宽下窄状, 位于超高磁电磁线圈(5) 上的下面; 所述超高磁场选磁铁矿装置, 由隔板(9) 、 料斗(10) 、 超高电磁线圈(5) 组成, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种水车式履带刮矿砂选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 磁铁矿沙经过一种水车式履带刮矿砂选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 (12), is composed of two separator (9), with wide and narrow shape goes, located under ultrahigh magnetic solenoid (5); and the ultra-high magnetic field of magnetite means by the partition ( 9), the hopper (10), high electromagnetic coil (5) composed of magnetite sand in free fall in the process, with ultra-high magnetic mineral processing means; said dressing device combination sequence, a waterwheel crawler after scraping of magnetite ore beneficiation equipment, followed by the ultra-high magnetic field apparatus selected magnetite; magnetite sand track after the latter paddlewheel election magnetite ore scraping device, elected ore, formed by sink magnetite sand flow again through ultra-high magnetic field of magnetite means to filter out particles do not need to increase the ore grade again.
28、 根据权利要求24—种磁铁矿的超高磁选矿组合装置, 其特征还在于一种抛物面击矿砂式选磁铁矿组合装置, 包括: 一种抛物面击矿砂式选磁铁矿装置、 漏槽(14)、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种抛物面击矿砂式选磁铁矿装置, 由电动机、 抛物面轮(4)、 抛物面齿(3)、 抛物面(2)、 方向校正器(5)、 超声波轰击装置(11)、 超高磁电磁线圈(6)组成; 所述漏槽(14), 是由两个隔板(9)组成, 呈上宽下窄状, 位于超高磁电磁线圈(6)的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种抛物面击矿砂式选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 28, according to claim 24- kind ultrahigh magnetic beneficiation of magnetite composite apparatus claims, characterized by one type of magnetite ore blow parabola combining means comprising: a parabolic type of magnetite ore blow means, the sink (14), the ultra-high magnetic field of magnetite apparatus further characterized dressing means comprises combination sequence; paraboloid of said one type of magnetite ore blow means, by the motor, a parabolic wheel (4), a parabolic tooth (3), parabolic (2), the direction corrector (5), an ultrasonic bombardment device (11), the ultra-high magnetic solenoid (6) the composition; the drain groove (14), by two baffles (9) composition, goes wide and narrow shape, located below the ultra-high magnetic solenoid (6); and the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow in free fall in the process, with ultra-high magnetic beneficiation equipment ; after the beneficiation unit combination sequence, hit a parabolic type ore beneficiation of magnetite device, followed by the ultra-high magnetic field of magnetite means;
磁铁矿沙经过一种抛物面击矿砂式选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 Magnetite sand after hit after one kind of parabolic type of magnetite ore means elected ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means, you do not need to filter out particles, to increase the ore grade again.
29、 根据权利要求24—种磁铁矿的超高磁选矿组合装置, 其特征还在于一种强风吹矿砂式选磁铁矿组合装置, 包括: 一种强风吹矿砂式选磁铁矿装置、 漏槽(12) 、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种强风吹矿砂式选磁铁矿装置, 由吹风口(2) 、 方向校正器(3) 、 超声波轰击装置(9) 、 超高磁电磁线圈(4) 组成; 所述漏槽(12) , 是由两个隔板(7) 组成, 呈上宽下窄状, 位于超高磁电磁线圈(4) 的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流(1) 在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 29, claimed 24- kinds of ultra-high magnetic beneficiation of magnetite composite apparatus claims, further characterized by a potent combination of wind and magnetite ore formula selected device comprising: a strong wind election magnetite ore type device, sink (12), ultra-high magnetic field of magnetite apparatus further characterized by a combination of means including beneficiation order; strong wind and the one type of magnetite ore means the air outlet (2), the direction corrector ( 3), the ultrasonic bombardment device (9), ultra-high magnetic solenoid (4) the composition; the drain groove (12), by two baffles (7), with the narrow width goes like, located ultrahigh magnetic the following electromagnetic coil (4); and the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow (1) in free fall in the process, with ultra-high magnetic mineral processing means; said dressing device combination sequence, is a the latter belt ultra-high magnetic field of magnetite beneficiation equipment, followed by the ultra-high magnetic field of magnetite means;
磁铁矿沙经过一种强风吹矿砂式选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 After magnetite sand blown through a potent type of magnetite ore means elected ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means, you do not need to filter out particles, to increase the ore grade again.
30、 根据权利要求24—种磁铁矿的超高磁选矿组合装置, 其特征还在于一种喷嘴式超高磁选矿的组合装置, 包括: 一种喷嘴式超高磁选矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种喷嘴式超高磁选矿装置, 由强风管(1) 、 喷风嘴 30. The 24- kinds of ultra-high magnetic beneficiation of magnetite composite apparatus of claim further characterized by a combination of an apparatus for ultra-high magnetic beneficiation nozzle comprising: a nozzle ultra-high magnetic beneficiation equipment, sink, ultra-high magnetic field of magnetite apparatus further characterized by a combination of means including beneficiation order; the one nozzle ultra-high magnetic mineral processing equipment, strong winds from the tube (1), spray nozzle
(2) 、 混料仓(3) 、 喷管(4) 、 扇形喷嘴(5) 、 螺旋式给料装置(6) 、 超高磁电磁线圈(7) 、 磁铁矿沙(8) 、 尾矿(9) 、 隔板( 11) 、 料斗(15) 、 超声波轰击装置组成(12) ; 所述漏槽(10) , 是由两个隔板(11) 组成, 呈上宽下窄状, 位于超高磁电磁线圈(7 ) 的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种喷嘴式超高磁选矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 通过一种喷嘴式超高磁选矿装置选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 (2), mixing bin (3), the nozzle (4), fan nozzle (5), screw feeding device (6), ultra-high magnetic solenoid (7), magnetite sand (8), the tail mine (9), the spacer (11), the hopper (15), an ultrasonic bombardment device component (12); the drain groove (10), by two baffles (11), with the narrow width goes like, located below the ultra-high magnetic solenoid (7); and the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow in free fall in the process, with ultra-high magnetic mineral processing means; said dressing device combination sequence is one kind of ultra-high magnetic nozzle device beneficiated beneficiation, followed by ultra-high magnetic field of magnetite means; elected by means of a nozzle type ultrahigh magnetic ore beneficiation equipment, magnetite sand flow through the formation of sink, again by ultra high magnetic field of magnetite means to filter out particles do not need to increase the ore grade again.
Beschreibung  übersetzt aus folgender Sprache: Chinesisch  (OCR-Text kann Fehler enthalten)

一种磁铁矿的超高磁选矿装置 Ultrahigh magnetic beneficiation of magnetite apparatus

技术领域 TECHNICAL FIELD

[0001] 本发明涉及选矿领域, 特别是涉及一种磁铁矿的超高磁选矿装置。 [0001] The present invention relates to the field of mineral processing, in particular to a ultra-high magnetic magnetite beneficiation equipment.

背景技术 Background technique

[0002] 现在的铁矿石选矿, 一般是让铁矿石沙从高处下落, 在中间位置安磁性线圈, 用磁性改变铁矿石的下落方向, 落入选矿池, 不受影响的直接下落, 为废沙, 完成选矿。 [0002] Now iron ore beneficiation, iron ore sand generally let fall from a height, in the middle of Ann magnetic coil, magnetic change the direction of falling iron ore beneficiation fall into the pool, will not be affected directly whereabouts , the waste sand finish dressing. 缺点是落入选矿池的矿, 废澄多, 品位不高, 还得继续再经过几次选矿。 The disadvantage is falling ore beneficiation pool, Cheng spent more, not high grade, have to continue to go through several dressing.

技术问题 technical problem

[0003] 本发明要解决的问题是, 提供一种超高磁磁场作用于磁铁矿沙, 使磁铁矿沙受超高磁磁场影响, 横向移动的距离比以前大大增加, 造成跑得越远的, 矿砂的品位越高。 [0003] The present invention is to solve the problem is to provide an ultra-high magnetic field acts on the magnetite sand, magnetite sand that make ultra-high magnetic field influence greatly increased lateral movement distance than before, resulting in the more run far, the higher the grade of ore.

问题的解决方案 Solution to Problem

技术解决方案 Technology Solutions

[0004] 为实现所述目的, 本发明磁铁矿的超高磁选矿装置, 包括: 磁铁矿沙流、 分隔板、 料斗, 其特征还在于包括超高磁电磁线圈和其所产生的磁场使矿沙横向移动的距离; 所述磁铁矿沙流, 是众多的磁铁矿沙组成的向下移动的流体; 所述分隔板, 位于磁铁矿沙流的最下部, 通过矿砂移动距离的长短, 来分不同品位的矿砂; 所述料斗, 是装通过分隔板选的不同品位的矿砂; 所述超高磁电磁线圈, 所产生的磁场, 是普通电磁线圈所产生磁场的几十上百倍以上, 安装在磁铁矿沙流的下落过程中的中间位置, 超高磁电磁线圈导电后发出的超高磁场, 作用于磁铁矿沙流; 所述矿沙横向移动的距离, 是本发明的关键, 在超高磁电磁线圈的作用下, 矿砂里的铁越多, 横向移动的距离就越大; 本发明的有益效果: 加大了磁场的吸力, 更容易让磁铁矿沙和尾矿分幵; 加大了磁铁矿沙的横向移动距离, 能选出不同含量的多规格矿砂, 方便再次选矿; 直接选出合格的矿砂、 选出能再次精选的矿砂、 选出鸡肋式矿砂、 选出尾矿; 鸡肋式矿砂, 这种矿砂可储存, 等待市场变好, 也不会浪费资源。 [0004] To achieve this object, the present invention ultrahigh magnetic magnetite mineral processing apparatus comprising: a magnetite sand flow, partition plates, hoppers, further characterized in that it comprises an electromagnetic coil and ultrahigh magnetic field it produces so that lateral movement of sand from the mine; the magnetite sand flow, the fluid is moving down many of the magnetite sand composition; the partition plate, located in the lower part of the magnetite sand flow through the ore movement distance length to distinguish different grade ore; the hopper is loaded by the partition plate chosen a different grade of ore; the ultrahigh magnetic solenoid coil, the magnetic field generated by the dozens on the generated magnetic field of the electromagnetic coil common a hundred times or more, install an intermediate position in a fall in the flow of magnetite sand, high magnetic field, the role of ultra-high magnetic solenoid conductive issued after magnetite sand flow; the mineral sands from the lateral movement of the present invention is the key, in the ultra-high magnetic solenoid role of iron ore in the more lateral movement, the greater the distance; the beneficial effects of the present invention are: to increase the magnetic field of attraction, make it easier for magnetite sand and tailings sub-Jian; increased lateral movement from the magnetite sand, can choose different levels of multi-standard ore, convenient dressing again; directly elected qualified ore, ore selection can be elected again to elect tasteless type ores elect tailings; tasteless type ore, ore this store, waiting for the market changed for the better, is not a waste of resources.

[0005] 磁铁矿的多次超高磁选矿装置, 包括: 磁铁矿沙流, 超高电磁线圈, 隔板, 漏槽, 其特征还在于进行粗分后的矿砂形成新矿砂流; 所述磁铁矿沙流, 超高电磁线圈, 隔板组成超高磁选铁矿石装置; 所述漏槽, 是由两个分隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈下面; 所述新矿砂流, 从漏槽里漏出的矿砂流; 本发明的有益效果: 进行一次选矿后, 把选出来的矿砂马上形成了新矿砂流, 此新矿砂流, 立刻就可以再进行新的选矿工序, 进行再次选矿; 在一道工序中, 可以进行几次选矿, 从而节约了能耗, 降低了成本。 [0005] multiple ultra-high magnetic magnetite ore dressing equipment, comprising: magnetite sand flow, high electromagnetic coil, partitions, sink, further characterized in that the coarse ore division performed after the formation of a new ore flow; the magnetite sand flow, high electromagnetic coil, a separator composed of ultra-high magnetic iron ore means; the sink is determined by two separate panels, goes wide and narrow shape, located below ultrahigh magnetic solenoid ; the new ore flow, leakage from the drain trough ore flow; the beneficial effects of the present invention are: to conduct a dressing, put the election out of the ore immediately formed a new ore flow, this new ore flow, can immediately be new beneficiation process again beneficiation; in one step, the dressing can be carried out several times, thus saving energy, reducing costs.

[0006] 磁铁矿的超高磁选矿装置, 其特征还在于磁铁矿沙的高速运动; 所述磁铁矿沙的高速运动, 就是磁铁矿沙流的高速流动; 有益效果: 在有限的距离里, 让磁铁矿沙达到需要的速度, 在超高磁选矿中, 有用矿砂和无用矿砂分得更干净, 提高了选出来的矿沙品位, 节约成本, 增加效益。 [0006] The ultra-high magnetic magnetite beneficiation equipment, further characterized in that magnetite sand speed sport; high-speed movement of the magnetite sand, magnetite sand is high-speed flow stream; beneficial effects: limited distance, let Sada magnetite to the required speed, ultra-high magnetic beneficiation useful and useless ore ore points more clean and improve the elected ore grade sand, save costs and increase efficiency.

[0007] 优选的: 所述磁铁矿沙的高速运动, 其特征还在于传送带式超高磁场选磁铁矿装置, 包括: 磁铁矿沙流、 皮带轮、 皮带、 超高电磁线圈、 隔板、 料斗, 其特征还在于其组合; 所述磁铁矿沙流, 是众多的磁铁矿沙组成的运动体; 所述皮带轮, 是皮带循环转动的动力源; 所述皮带, 在皮带轮的带动下, 于两皮带轮间循环转动, 把落在上面的磁铁矿沙流加速; 所述超高电磁线圈, 安装在磁铁矿沙流的运动过程中, 超高电磁线圈导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流; 所述分隔板, 位于铁矿沙的最下部, 通过距离的长短, 来分不同品位的矿砂; 所述料斗, 是装通过分隔板选的不同品位的矿砂。 [0007] Advantageously: the magnetite sand speed movement, further characterized in that the belt-type ultrahigh magnetic field of magnetite apparatus comprising: magnetite sand flow, pulleys, belts, high electromagnetic coil, a separator, hopper, further characterized by a combination; the magnetite sand stream, the moving body is composed of a large number of magnetite sand; the pulley is the belt loop rotating power source; the belt driven pulley, in the rotation cycle between the two pulleys, the falls above magnetite sand flow acceleration; the ultrahigh electromagnetic coil mounted on movement of magnetite sand stream, ultra-ultra-high magnetic field emitted electromagnetic coil after the conductive, high magnetic field acts on the magnetite sand flow; the partition plate, the lowermost iron sand by the length of the distance to the different sub-grade ore; the hopper is loaded with different grade of ore selected partition plate .

[0008] 5、 优选的: 所述磁铁矿沙的高速运动, 其特征还在于有小分格的皮带选磁铁矿装置来实现; 所述有小分格的皮带选磁铁矿装置, 包括: 有小分格的皮带、 电动机、 皮带轮、 超高磁电磁线圈, 其特征还在于包括小隔板; 所述电动机, 是本系统的动力装置, 带动皮带轮转动; 所述皮带轮, 带动有小分格的皮带循环转动; 所述有小分格的皮带, 安装在两皮带轮上, 并在皮带上安装有小隔板; 所述小隔板, 呈薄、 矮长方体, 横向固定在皮带上; 所述电磁线圈, 安装在磁铁矿沙喷射的过程中。 [0008] 5, preferred: the magnetite sand speed movement, further characterized in that a small sub-grid belt of magnetite means to achieve; the small sub-grid belt of magnetite means comprising: a small sub-grid belts, motors, pulleys, ultra-high magnetic solenoid, further characterized in that it comprises a small spacer; the motor is the power plant of the present system, driven pulley rotation; said pulley, drive a small ruled belt rotation cycle; the small sub-grid belt mounted on two pulleys and a belt mounted on a small clapboard; the small clapboard, was thin, short rectangular, laterally fixed on the belt; the solenoid is mounted magnetite sand ejection process.

[0009] 优选的: 所述磁铁矿沙的高速运动, 其特征还在于水车式履带刮矿砂选磁铁矿装置来实现; 所述水车式履带刮矿砂选磁铁矿装置, 包括: 工作平台槽、 水车式履带、 皮带轮、 超高磁电磁线圈, 其特征还在于包括水车式隔板; 所述工作平台槽, 呈槽状, 槽的大小和水车式隔板相对应, 安装在水车式履带对面; 所述水车式履带, 安装在两皮带轮上, 在皮带轮带动下循环转动; 所述水车式隔板, 呈薄、 矮长方体, 横向固定在水车式履带上; 所述电磁线圈, 安装在磁铁矿沙喷射的过程中。 [0009] Advantageously: the magnetite sand speed movement, further characterized paddlewheel track of magnetite ore scraping means to achieve; the paddlewheel track of magnetite ore scraping device, comprising: work platform trough, water tankers track, pulleys, ultra-high magnetic solenoid, further characterized in that it comprises paddlewheel separator; the working platform groove, groove-like form, size and paddlewheel groove corresponding to the separator, mounted on opposite paddlewheel track; the paddlewheel track, mounted on the two pulleys, pulley driven by the rotation cycle; the paddlewheel separator, was thin, short rectangular, laterally fixed paddlewheel on track ; said electromagnetic coil, mounted on magnetite sand ejection process.

[0010] 优选的: 所述磁铁矿沙的高速运动, 其特征还在于抛物面击矿砂式选磁铁矿装置来实现; 所述抛物面击矿砂式选磁铁矿装置, 包括: 电动机、 抛物面轮、 方向校正器、 超高磁电磁线圈, 其特征还在于包括抛物面齿; 所述电动机, 是本系统的动力装置, 带抛物面轮转动; 所述抛物面轮, 在圆柱上安装带抛物面的齿; 所述方向校正器, 呈梯形筒, 空心宽的一面对准抛物面轮, 窄的一面对准超高磁线圈, 宽的一面的长度大于矿砂流宽度, 窄的一面长度等于矿砂流宽度; 所述超高磁电磁线圈, 安装在方向校正器后面, 磁铁矿沙流快速运动的过程中; 所述抛物面齿, 把齿轮的齿, 其中一侧不变, 另外一侧改成抛物面, 即从底部到顶部改成呈抛物线的面。 [0010] Advantageously: the magnetite sand speed movement, further characterized in that the parabolic type of magnetite ore strike means to achieve; hit the parabolic type of magnetite ore, comprising: a motor, parabolic round , the direction of correction, ultrahigh magnetic solenoid, further characterized in that comprises a parabolic tooth; the motor is a power unit of the system, with parabolic wheel rotation; said paraboloid wheel mounted on the teeth with a parabolic cylinder; the said direction correction, trapezoidal cylinder, hollow wide side aligned parabolic round, narrow side aligned with ultrahigh magnetic coil, wide side of a length greater than the width of the ore stream, the narrow side of a length equal to the width of the ore stream; the said ultra-high magnetic solenoid mounted at the rear direction corrector, magnetite sand flow process in fast motion; the parabolic teeth, the gears, wherein the same side, the other side into a parabola, from the bottom to the top into a parabolic surface.

[0011] 优选的: 所述磁铁矿沙的高速运动, 其特征还在于强风吹矿砂式选磁铁矿装置来实现; 所述强风吹矿砂式选磁铁矿装置, 包括: 吹风口、 方向校正器、 超高磁电磁线圈, 其特征还在于强风带着磁铁矿砂流快速从超高磁电磁线圈上面穿过; 所述吹风口, 呈扁的长方形, 吹出扁平的强风, 强风宽度大于等于磁铁矿沙流宽度; 所述方向校正器, 呈梯形筒, 空心宽的一面对吹风口, 窄的一面对准超高磁电磁线圈上面, 窄的一面的宽度也等于磁铁矿砂流的宽度; 所述超高磁电磁线圈, 安装在强风带着磁铁矿沙流快速运动的过程中; 所述强风带着矿砂流快速从超高磁电磁线圈上面穿过, 下落的磁铁矿砂流到吹风口后, 在强风的带动下改变成水平运动, 也用新速度穿过超高磁电磁线圈的上面。 [0011] Advantageously: the magnetite sand speed movement, further characterized by strong winds formula selected from magnetite ore means to achieve; the strong winds of magnetite ore type device comprising: air outlet direction corrector, ultra-high magnetic solenoid, further characterized by a strong wind with magnetic iron ore flow through from ultra-fast magnetic solenoid above; the air outlet, Chengbian rectangular, flat, strong winds blow strong winds width greater than or equal magnetism iron sand flow width; the direction of the correction, trapezoidal cylinder, a hollow face hair mouth wide, narrow side aligned with ultrahigh magnetic solenoid above, one side of the narrow width of the magnetic iron ore is also equal to the width of the stream; after the ore with a strong wind flow through from ultra-fast magnetic solenoid above, magnetic iron ore falling flowing air outlet; the ultrahigh magnetic solenoid mounted on the strong wind with magnetite sand flow process in fast motion , driven by strong winds of change into a horizontal movement, but also through the above ultrahigh magnetic solenoid with the new speed.

[0012] 优选的: 所述磁铁矿沙的高速运动, 其特征还在于喷嘴式超高磁选矿装置(图8 ) , 包括: 强风管、 喷风嘴、 混料仓、 喷管、 扇形喷嘴、 螺旋式给料装置、 超高磁电磁线圈、 磁铁矿沙、 尾矿、 隔板、 料斗, 其特征还在于喷风嘴的强气流带着矿砂快速由喷嘴从超高磁电磁线圈上面穿过; 所述强风管, 连接喷风嘴, 强风的入口; 所述喷风嘴, 喷风嘴处在混料仓内, 并和其一起运用文丘里原理带动螺旋式给料装置提供的矿砂作高速运动; 所述混料仓, 上面连接螺旋式给料装置, 让喷风嘴处在内部, 喷风的方向连接喷管; 所述喷管, 连接混料仓和扇形喷嘴; 所述扇形喷嘴, 呈扇形, 连接喷管, 扇形喷嘴前方是超高磁电磁线圈, 该扇形喷嘴能将矿砂均匀的、 分散的、 快速的喷射过超高磁电磁线圈; 所述超高磁电磁线圈, 产生超高磁磁场; 所述螺旋式给料装置, 一种连续、 均匀的给料装置。 [0012] Advantageously: the magnetite sand speed movement, further characterized in that the nozzle ultra-high magnetic beneficiation unit (Fig. 8), comprising: a strong wind pipe, spray nozzle, mixing compartment, nozzle, fan nozzle, screw feeding device, ultra-high magnetic solenoids, magnetite sand, tailings, separators, hoppers, further characterized in that the spray nozzle with a strong air flow from the nozzle above ore quickly from ultra-high magnetic solenoid through; the strong wind pipe connecting the spray nozzle, the inlet and strong winds; the spray nozzle, spray nozzle is within the mixing bin, and use and which together drive the venturi principle screw feeder apparatus provided ore to make high-speed motion; the mixing bin, the above connecting screw feeder device so that the spray nozzle is in the interior of the spray nozzle connected to the direction of the wind; the nozzle connected to the mixing vessel and fan nozzles; the fan nozzle, fan-shaped connecting nozzle, fan nozzle in front of ultra-high magnetic solenoid, the fan-shaped nozzles can uniformly ore, decentralized, fast ultra-high magnetic solenoid injection too; the ultrahigh magnetic solenoids, produce ultra-high magnetic field; the spiral feeding device, a continuous, uniform feeding device.

[0013] [0013]优选的: 所述磁铁矿沙的高速运动, 其特征还在于水中磁铁矿的旋转流灌式超高磁选矿装置(图9 ) , 包括: 入料管、 动力系统、 轴、 旋转扇叶、 选矿灌、 尾澄出口、 水中超高磁选机、 精矿出口, 其特征还在于它们组合; 所述入料管, 位于选矿灌底部旋转扇叶的上面, 灌外接挖沙、 抽沙的管, 灌内喷出的矿砂流和选矿灌内的流动方向一致; 所述动力系统, 处于选矿灌外, 和轴的顶部连接; 所述轴, 选矿灌的中心, 顶部贯穿选矿灌顶部, 并和动力系统连接; 所述旋转扇叶, 位于选矿灌的下部, 固定在轴的底端; 所述选矿灌, 呈圆柱形, 选矿设备的主体; 所述尾澄出口, 位于选矿灌顶端, 其同选矿灌连接部分的方向为选矿灌圆周的切线; 所述水中超高磁选机, 位于选矿灌中段, 能在水中工作的具有超高磁场的磁选机, 含有精矿选出、 收集、 并排到选矿灌外的装置; 所述精矿出口, 位置和水中超高磁选机相配, 形状、 大小也和其把选出的精矿排到选矿灌外的装置相配。 [0013] [0013] Advantageously: the magnetite sand speed movement, further characterized in that the water-fill rotating flow magnetite beneficiation ultrahigh magnetic device (Fig. 9), comprising: a feeding tube, the power system shaft, rotating blades, mineral filling, tail Cheng export, water ultrahigh magnetic separator, ore exports, further characterized by a combination thereof; the feeding tube, filling the bottom of the rotating blades located beneficiation above, external irrigation dredging, pumping sand tube irrigation discharge within the consistent flow and flow direction of the ore beneficiation within the filling; the power system, filling in dressing outside, and the top of the shaft; said shaft, mineral filling in the center, top top dressing through irrigation, and power systems and connections; the rotating blades, lower part of the beneficiation irrigation, fixed at the bottom of the shaft; the irrigation dressing, was a cylindrical body, mineral processing equipment; Cheng said outlet end, located filling top dressing, dressing it with irrigation connection direction portion of the circumference of the tangent dressing filling; the ultra-high-water separator located in the middle of dressing irrigation, with ultra-high magnetic field can work in the water separator containing fine mine elect, collection, side by side to the outside of the dressing filling means; the concentrate outlet, location, and ultra-high-water separator to match, shape, size and also elected to concentrate its beneficiation discharged outside the filling means Matches .

[0014] [0014]更优选的: 所述水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加排出大颗粒物体的倒仓装置(图10) , 包括: 倒仓、 倒仓转动体、 密闭体、 容器底斜面、 容器、 排大颗粒缺口, 其特征还在于它们的组合成球阀式架构; 所述组合球阀式架构, 是倒仓转动体和密闭体形成一个倒仓转动体可以转动的密封结构; 所述倒仓, 位于倒仓转动体内, 呈矩形槽, 宽度和排大颗粒缺口相对应, 长度、 深度和倒仓转动体匹配; 所述倒仓转动体, 呈圆柱体, 和密闭体匹配, 在密封情况下可转动; 所述密闭体, 凹园弧形, 和倒仓转动体匹配; 所述容器底斜面, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口连接, 其余与容器壁连接; 所述容器, 容纳物体的器物; 所述排大颗粒缺口, 呈长方形, 其长宽与倒仓的长宽对应; 有益效果: 容器里质量大的大颗粒, 一直积累填满容器, 造成整个拥堵, 把它们排出容器外, 让容器内畅通。 [0014] [0014] More preferably: the flow of irrigation water magnetite rotating ultra-high magnetic mineral processing apparatus further characterized in that the cartridge device to increase the discharge down large particles of the object (10), comprising: inverted positions, Turning and rotating body, closed body, the container bottom slope, container, row of large particle gap, further characterized in that they are combined into a ball architecture; the combination valve architecture, is inverted and closed positions rotator formed an inverted positions rotator rotatable seal structure; the inverted positions, located down the vessel to rotate the body, rectangular groove, and the width of the gap corresponding row of large particles, length, depth and inverted positions rotator match; the inverted positions rotary body, was cylinder, and sealing body matched rotatable in a sealed case; the confined body, concave circular arc, and inverted positions rotator match; the container bottom bevel bottom of the container was inclined plane, and the discharge side of the plane large particles notch connection, connected to the rest of the container wall; the container to accommodate objects of the object; the row of large particles notch, rectangular, its length and width corresponding to length and width of the inverted positions; beneficial effects: large container large mass particles has been accumulated to fill the container, causing the entire congestion, put them outside the discharge vessel, so that the container flow.

[0015] 更优选的: 所述水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加倒仓自动排出大颗粒矿砂的装置, 包括: 倒仓、 倒仓转动体、 密闭体、 容器底斜面、 容器、 排大颗粒缺口、 传动结构、 控制器, 其特征还在于增加重量检测器、 重量监测条; 所述重量检测器, 安装在倒仓底部, 采集的信号连接控制器; 所述重量监测条, 安装在倒仓底部, 重量监测条是由一个一个的重量检测器排列组成; 所述倒仓, 位于倒仓转动体内, 呈矩形槽, 宽度和排大颗粒缺口相对应, 长度、 深度和倒仓转动体匹配; 所述倒仓转动体, 呈圆柱体, 和密闭体匹配, 在密封情况下可转动; 所述密闭体, 凹园弧形, 和倒仓转动体匹配; 所述容器底斜面, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口连接, 其余与容器壁连接; 所述容器, 容纳物体的器物; 所述容器底斜面, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口连接, 其余与容器壁连接; 所述容器, 容纳物体的器物; 所述排大颗粒缺口, 呈长方形, 其长宽与倒仓的长宽对应; 所述传动结构, 和倒仓转动体连接, 接受控制器指挥; 所述控制器, 安装在容器外,连接重量检测器采集的信号, 在判断闭合的倒仓已经装满吋, 指挥传动结构工作, 传动结构使倒仓转动体转动; 有益效果: 倒仓能感应到将大颗粒矿砂装满, 就自动排出, 达到了最大的工作效率。 [0015] More preferably: the flow of irrigation water magnetite rotating ultra-high magnetic mineral processing apparatus further characterized in that warehouse down automatically increase the discharge of large particles of ore, comprising: down warehouse, warehouse down the rotary body, sealed body, the container bottom slope, container, row of large particle gap, transmission structure, controller, further characterized by an increase in weight detectors, weight monitoring strips; the weight detector installed at the bottom of the bin down, connect the controller signal acquisition ; the weight of the monitor strip, mounted on the bottom of the inverted positions, monitoring the weight bar by a weight of a detector array consisting of; the inverted positions, located down the vessel to rotate the body, rectangular groove, and the width of the gap corresponding to the row of large particles , length, depth and inverted positions rotator match; the inverted positions rotating body was cylindrical, and confined matching body rotatable in a sealed case; the confined body, concave circular arc, and inverted positions rotator match ; the container bottom bevel bottom container inclined plane, the plane with the discharge side of the connection gap of large particles, remaining connected to the wall of the container; the container to accommodate objects of the object; the bottom of the container ramp, inclined bottom of the container plane, while the large particles and the discharge gap plane connections, remaining connected to the wall of the container; the container to accommodate objects of the object; the row of large particles notch, rectangular, its length and width corresponding to length and width of the inverted positions; the transmission structure, and inverted positions rotary body connection, to accept command of the controller; the controller installed in the outer container, the weight of the detector signal acquisition is connected, it is determined that the closed-inch inverted positions have been filled, the command structure of the drive to work, drive down bin structure allows the rotating body is rotated; beneficial effects: inverted positions can sense large particles filled with ore, automatically discharged, to achieve maximum efficiency.

[0016] 更优选的: 所述水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加水中控制大颗粒物体下落幵关的装置(图12) , 包括: 倒仓、 倒仓转动体、 密闭体、 容器底斜面、 容器、 排大颗粒缺口, 其特征还在于增加导矿壁、 幵关门板、 幵关门轴、 转动结构、 齿状杆、 转动结构8、 控制器、 斜隔板; 所述导矿壁, 上面连接容器底斜面, 下面连接密闭体, 两导矿壁的距离, 大于排大颗粒缺口的宽度, 多出的空间好安装幵关门、 齿状杆、 转动结构、 转动结构B ; 所述幵关门板, 固定在幵关门轴上; 所述幵关门轴, 安装在容器底斜面和导矿壁之间, 轴杆上固定幵关门板, 轴和转动结构A连接; 所述转动结构A, 和幵关门轴连接, 接受控制器指挥, 产生动力, 让幵关门板抬起、 放下; 所述齿状杆, 形状为齿状杆那么粗的齿轮加厚到齿状杆那么长, 安装在幵关门轴对面的容器底斜面和导矿壁之间, 并和转动结构B连接; 所述转动结构B, 和齿状杆一端连接, 接受控制器指挥, 当幵关门板和自己要闭合吋, 产生动力, 使齿状杆逆吋针旋转, 闭合后停下; 所述斜隔板, 上端位于齿状杆和导矿壁之间, 下端和密闭体上端的位置一致, 对面幵关门板下一样可以安装; 所述控制器, 安装在容器外, 当倒仓工作吋, 指挥转动结构A、 转动结构B工作, 让幵关门板和齿状杆闭合; 所述倒仓, 位于倒仓转动体内, 呈矩形槽, 宽度和排大颗粒缺口相对应, 长度、 深度和倒仓转动体匹配; 所述倒仓转动体, 呈圆柱体, 和密闭体匹配, 在密封情况下可转动; 所述密闭体, 凹园弧形, 和倒仓转动体匹配; 所述容器底斜面, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口连接, 其余与容器壁连接; 所述容器, 容纳物体的器物; 所述排大颗粒缺口, 呈长方形, 其长宽与倒仓的长宽对应; 有益效果: 当倒仓把大颗粒物体倒出容器外吋, 幵关门板和齿状杆的闭合, 避免了大颗粒物体的继续下落, 造成把物体卡碎、 可能损坏机器, 或卡住了倒仓, 让其不能完全进入密闭体, 停止倒仓工作 [0016] More preferably: the flow of irrigation water magnetite rotating ultra-high magnetic mineral processing apparatus further characterized in that the increase in water control large granular objects fall off Jian apparatus (12), comprising: a warehouse down, down positions rotary body, closed body, the container bottom slope, container, row of large particle gap, further characterized by an increase in on mine walls, Jian closing plate, Jian closed shaft rotating structure, toothed rod, rotating structure 8, controllers, ramp separator; the lead mine walls, ramps connecting the above vessel bottom, the following connections sealed body, lead ore from the two walls, rows of large particles greater than the gap width, the extra space to install Jian closed, toothed rod, rotating structure rotating structure B; Jian said closing plate fixed to the shaft Jian closed; Jian closed the shaft is installed between the container bottom bevel and lead mine walls, on the shaft fixing plate Jian closed, and the rotational axis a connecting structure ; the rotational structure a, and Jian closed shaft to accept command of the controller, to generate power, so Jian closing plate up, down; the toothed rod shape toothed gear lever so thick thickened to dentate between the rod so long, mounted on the shaft opposite Jian closed container bottom bevel and lead mine walls, and B and the rotating structure; said rotating structure B, and toothed rod connected at one end to accept the command of the controller, when Jian closed board and we have to close inches, generating power, so that the rotating toothed rod reverse-inch needle, after closing stop; the oblique separator located between the upper end of the guide rod and the toothed mine walls, consistent with the lower end position and the closed upper end of the body, Jian closed lower across the board can be installed exactly; the controller is mounted outside the container when poured warehouse job inch rotating command structure a, B rotating structure work, so Jian closing plate and toothed rings are closed; the inverted positions, located down the vessel to rotate the body, rectangular groove, and the width of the gap corresponding row of large particles, length, depth and inverted positions rotator match; the inverted positions rotating body was cylindrical, and confined body matching, in the case under seal rotation; the sealed body, concave circular arc, and inverted positions rotator match; the container bottom bevel bottom of the container was inclined plane, while the large particles and the discharge gap plane connections, remaining connected to the container wall; the container to accommodate objects of the object; the row of large particles notch, rectangular, its length and width corresponding to length and width of the inverted positions; beneficial effects: when the large particles fall warehouse objects pour inch outer container, Jian closing plate and dentate closing lever, avoiding large particles continue falling object, causing the object card broken, the machine may be damaged or stuck down warehouse, not allowed to enter fully enclosed body, stop down warehouse work

[0017]更优选的: 所述水中磁铁矿的旋转流灌式超高磁选矿装置, 其特征还在于增加预留一次倒仓大颗粒物体容量的装置(图13) , 包括: 倒仓、 倒仓转动体、 密闭体、 容器底斜面、 容器、 排大颗粒缺口、 导矿壁、 幵关门板A, 幵关门轴A, 转动结构A, 齿状杆B, 转动结构B, 控制器、 斜隔板、 幵关门板^ 幵关门轴C,转动结构C,齿状杆D,转动结构D, 重量检测器、 重量监测条、 横隔板, 其特征还在于判定幵关门已积累了一倒仓容量的大颗粒后, 停止大颗粒继续添加; 所述倒仓, 位于倒仓转动体内, 呈矩形槽, 宽度和排大颗粒缺口相对应, 长度、 深度和倒仓转动体匹配; 所述倒仓转动体, 呈圆柱体, 和密闭体匹配, 在密封情况下可转动; 所述密闭体, 凹园弧形, 和倒仓转动体匹配; 所述容器底斜面, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口连接, 其余与容器壁连接; 所述容器, 容纳物体的器物; 所述排大颗粒缺口, 呈长方形, 其长宽与倒仓的长宽对应; 所述导矿壁, 上面连接容器底斜面, 下面连接密闭体, 两导矿壁的距离, 大于排大颗粒缺口的宽度; 所述幵关门板A, 固定在幵关门轴A上; 所述幵关门轴A, 安装在容器底斜面和导矿壁之间, 轴杆上固定幵关门板A, 幵关门轴A和转动结构A连接; 所述转动结构A, 和幵关门轴A连接, 接受控制器指挥, 让幵关门板A抬起、 放下; 所述齿状杆B, 形状为齿状杆那么粗的齿轮加厚到齿状杆那么长, 安装在幵关门轴A对面的容器底斜面和导矿壁之间, 并和转动结构B连接; 所述转动结构B, 和齿状杆B—端连接, 接受控制器指挥, 当幵关门板A和齿状杆B要闭合吋, 带动齿状杆B作逆吋针旋转, 闭合后停下; 所述控制器, 安装在容器外,连接重量检测器采集的信号, 在判断闭合的幵关门板C已经装满倒仓的容量吋, 指挥幵关门板A闭合; 所述斜隔板, 斜隔板的上端位于齿状杆和导矿壁之间, 下端不超出密闭体上端的位置, 对面幵关门板下一样可以安装; 所述横隔板, 呈长方体, 一端和导矿壁连接并处在导矿壁的中部; 另一端不超过排大颗粒缺口, 其下面连接幵关门轴C; 所述幵关门板C、 固定在幵关门轴C上; 所述幵关门轴C,安装在横隔板的下面、 导矿壁的中部, 和转动结构C 连接; 所述转动结构C,和幵关门轴C连接, 接受控制器指挥, 让幵关门板C抬起、 放下; 所述齿状杆D,形状、 大小和所述齿状杆B—样, 安装在横隔板下面, 与对面的幵关门板。 [0017] More preferably: the flow of irrigation water magnetite rotating ultra-high magnetic mineral processing apparatus further characterized to increase the reserve warehouse means a large particles fall object capacity (Fig. 13), comprising: inverted positions, Turning and rotating body, closed body, the container bottom slope, container, row gap large particles, lead mine walls, Jian closing plate A, Jian closed axis A, rotating structure A, toothed rod B, rotating structure B, controllers, ramp separator plate ^ Jian Jian closed closed axis C, rotating structure C, toothed rod D, rotating structure D, weight detectors, weight monitoring strips, the crossbeam, further characterized by determination Jian closed down has accumulated a warehouse after large particles capacity to stop large particles continue to add; the inverted positions, located down the vessel to rotate the body, rectangular groove, and the width of the gap corresponding row of large particles, length, depth and inverted positions rotator match; the inverted positions rotating body was cylindrical, and confined matching body rotatable in a sealed case; the confined body, concave circular arc, and inverted positions rotator match; the container bottom bevel bottom of the container was inclined plane, plane connection with the discharge side of the large particle gap, remaining connected to the wall of the container; the container to accommodate objects utensils; the large particles discharge gap, rectangular, its length and width corresponding to length and width of the inverted positions; the lead mine walls connecting ramp above the bottom of the container, the following connections sealed body, lead ore from the two walls, rows of large particles greater than the gap width; Jian closed the plate a, fixed Jian closed shaft a; Jian closed the axis a, installation between the container bottom bevel and lead mine walls, on the shaft fixing plate a close Jian, Jian closed rotational axis a and a connecting structure; the rotating structure a, and Jian axis a close connection, to accept command of the controller, so Jian a closing plate up, down; the toothed rod B, the shape of a toothed gear lever so thick thickened to toothed rod so long, mounted between the shaft opposite a Jian closed container bottom bevel and lead mine walls and B and the rotating structure; said rotating structure B, and B- toothed rod end, to accept command of the controller, when Jian closed panels a and B to be closed inch toothed rod, toothed rod drive for inverse-inch B needle rotation, after closing stop; the controller is mounted outside the container, the weight of the detector signal acquisition is connected, it is determined that a closed Jian closing plate C has full capacity down bin inch plate a command Jian closed closed; the oblique separator separator located between the upper end of the ramp and the guide rod toothed mine walls, the bottom does not exceed the upper end of the closed position, closing down across the board can be installed exactly Jian; the transverse bulkhead, rectangular shape at one end and lead mine walls is connected and is in the middle of the guide wall of the mine; the other end does not exceed the discharge gap of large particles, which is connected beneath Jian closed axis C; C board closed the Jian, Jian closed fixed axis C; the Jian closed C axis, is mounted below the crossbeam, middle lead mine walls, and rotational structure C; said rotating structure C, C axis and Jian close connection, to accept command of the controller, so Jian C board closed up, down ; the toothed rod D, shape, size and the toothed rod B- sample mounted on the crossbeam below, and opposite Jian closed board. 、 幵关门轴C相对应; 所述转动结构D, 和齿状杆D—端连接, 接受控制器指挥, 当幵关门板C和齿状杆D要闭合吋, 带动齿状杆D作逆吋针旋转, 闭合后停下; 所述重量检测器, 安装在幵关门板C上, 采集的信号连接控制器; 所述重量监测条, 安装在幵关门板C上, 重量监测条是由一个一个的重量检测器排列组成; 有益效果: 解决了如果大颗粒物体多, 需要加快倒仓工作的速度, 但大颗粒物体装满倒仓是需要吋间的, 同吋还不能装得过多, 预存一倒仓也就解决了这个问题。 , Jian closed axis C corresponds; the rotating structure D, D- and toothed rod end, to accept command of the controller, when Jian closed panels C and D to a closed-inch toothed rod, toothed rod drive for inverse-inch D needle rotation, after closing stop; the weight detector installed in Jian closing plate C, the connection controller signal acquisition; the weight of the monitor strip mounted Jian closing plate C, the weight is monitored by an article a the weight detector array consisting of; beneficial effects: solved if large particles more objects need to accelerate the speed of work down the warehouse, but objects filled with large particles fall warehouse is needed, not fitted with inch inch too much between the stored an inverted positions would resolve this problem.

[0018]优选的: 所述磁铁矿沙的高速运动, 其特征还在于增加人工智能的水中磁铁矿旋转流罐式超高磁选矿装置, 包括: 水中磁铁矿螺旋式超高磁选矿装置、 倒仓自动工作装置、 矿砂下落幵关装置、 预留一次倒仓大颗粒矿砂容量装置、 粉碎装置、 磨粉装置、 传动矿砂流装置, 其特征还在于增加人工智能; 所述增加人工智能, 就是由增加的人工智能来控制、 监督、 处理各设备自己的工作状态, 以及设备之间的配合状态, 达到整体设备的平稳高效运转; 所述水中磁铁矿螺旋式超高磁选矿装置, 是一种利用重力原理, 灌内失速的磁铁矿沙往下降, 刚抽入的海沙流呈螺旋式上升, 相互作用, 不含磁铁的海沙由于比较轻, 被上升到选矿灌的顶部, 从尾矿口排出, 比较重的磁铁矿沙大致停滞在选矿灌中部, 由超高磁选矿机选矿的装置; 所述倒仓自动工作装置, 在水中磁铁矿螺旋式超高磁选矿的过程中, 颗粒大了, 螺旋式上升流和旋转扇叶扇不起来, 大颗粒海沙会下沉到灌底, 把它们自动排出到灌外的装置; 所述矿砂下落幵关装置, 控制大颗粒海沙下落和不下落到倒仓内的装置; 所述预留一次倒仓大颗粒矿砂容量装置, 预留一次倒仓容量的大颗粒海沙, 便于倒仓加快工作速度; 所述粉碎装置, 把大颗粒海沙粉碎成选矿用大小规格的装置; 所述磨粉装置, 把选出来的磁铁矿沙, 磨成100目大小, 好进入高品位精选装置; 所述传动矿砂流装置, 增加动力, 保持矿砂流、 海沙流流速的装置; 有益效果: 在填礁的过程中, 利用挖沙、 抽沙的动能, 只增加简单的设备和少量能源, 把部分海沙中富含磁铁矿的磁铁矿精矿选出, 一来节约资源, 二来也能够产生经济效益; 并且这个过程还是全自动的。 [0018] Advantageously: the magnetite sand speed movement, further characterized by increased artificial water tank ultrahigh magnetic magnetite beneficiation flow rotary device, comprising: a water spiral ultrahigh magnetic magnetite beneficiation means down warehouse work automatically means ore fall Jian closing means, once reserved for large particles fall warehouse capacity means ore crushing equipment, milling equipment, ore stream transmission apparatus further characterized artificial increase; the increase in artificial intelligence It is controlled by an increase in artificial intelligence, surveillance, treatment status of each device with its own operating condition, and between devices, to achieve smooth and efficient operation of the overall device; the water spiral ultrahigh magnetic magnetite ore dressing equipment, is a use of gravity theory, the inner filling stall magnetite sand going down, just drawn in the sand spiraling flow, interaction, free of sand due to the relatively light magnet is raised to the top of the dressing irrigation, tailings discharged from the mouth, heavier magnetite beneficiation filling sand roughly stagnated in the middle, from ultra-high magnetic concentrator beneficiation equipment; warehouse work automatically means the fall in the water spiral ultrahigh magnetic magnetite beneficiation process, large particles, the spiral flow and the rotating fan blades up, large sand particles will sink to the bottom filling, filling them automatically discharged to the outside of the device; the ore whereabouts Jian Guan means for controlling large sand particles falling down and no less means fall within the warehouse; the reserved time positions down large particles of ore capacity means the capacity reserved for a warehouse down large particles sand, easy to pour warehouse work faster; the pulverizing means , the large particles pulverized into sand beneficiation by means of sizes; the milling apparatus, the elected magnetite sand, ground into 100 mesh size, good access to high-grade selection means; said transmission means ore stream , increase power to maintain the flow of ore, sand flow velocity means; beneficial effects: in the process of filling the reef, using dredging, pumping sand kinetic energy, increased only simple equipment and a small amount of energy, the magnetic-rich portion of the sand magnetite iron ore concentrate elect one to save resources, and secondly, it is possible to generate economic benefits; and the process is fully automated.

[0019] 一种磁铁矿的超高磁选矿装置, 其特征还在于增加超声波; 所述超声波, 安装在矿砂的运动过程中, 其波作用于超高磁选矿结束之前; 有益效果: 在一道工序中, 增加一种选矿方式, 再次提高矿砂品位, 节约了能耗, 降低了成本。 [0019] A ultra-high magnetic magnetite beneficiation equipment, further characterized in that the increase of ultrasonic; the ultrasonic mounted ore movement, before the wave action on the ultra-high magnetic beneficiation end; beneficial effects: In a step, add a beneficiation methods, improving ore grade again, saving energy, reducing costs.

[0020] 优选的: 所述增加超声波, 其特征还在于一种传送带式超高磁场选磁铁矿装置来实现的, 包括: 磁铁矿沙流、 皮带、 皮带轮、 超高电磁线圈, 其特征还在于增加了超声波; 所述磁铁矿沙流, 是众多的磁铁矿沙组成的运动体; 所述皮带, 在皮带轮的带动下, 于两皮带轮间循环转动, 把落在上面的磁铁矿沙流加速; 所述皮带轮, 是皮带循环转动的动力源; 所述超高电磁线圈, 安装在磁铁矿沙流的运动过程中, 超高电磁线圈导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流; 所述增加超声波, 安装在矿砂流的运动过程中, 在超高磁选矿结束之前对被选的矿砂流轰击; 有益效果: 在一道工序中, 增加一种选矿方式, 再次提高矿砂品位, 节约了能耗, 降低了成本。 [0020] Advantageously: the increase in ultrasound, further characterized in that A conveyor belt ultra-high magnetic field of magnetite means to achieve, including: magnetite sand flow, belts, pulleys, high electromagnetic coil, further characterized is the addition of ultrasound; the magnetite sand stream, the moving body is composed of a large number of magnetite sand; the belt driven pulley, the pulley rotation cycle in between the two, the falls above magnetite sand flow acceleration; the pulley, belt loop is rotating power source; the ultrahigh electromagnetic coil mounted on movement of magnetite sand stream, high magnetic field, the magnetic field ultrahigh ultrahigh electromagnetic coil magnetic conductive issued after iron sand flow; increase the ultrasound, the installation process in motion ore stream, before the end of the ultra-high magnetic beneficiation of ores are selected flow bombardment; beneficial effects: in one step, to add a beneficiation methods, improving ore again grade, saving energy, reducing costs.

[0021] 优选的: 所述增加超声波, 其特征还在于一种有小分格的皮带选磁铁矿装置来实现的, 包括: 有小分格的皮带选磁铁矿装置, 其特征还在于包括增加了超声波; 所述有小分格的皮带选磁铁矿装置, 是由有小分格的皮带、 电动机、 皮带轮、 超高磁电磁线圈组成的; 所述超声波, 安装在矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击; [0022] 优选的: 所述增加超声波, 其特征还在于一种水车式履带刮矿砂选磁铁矿装置来实现的, 包括: 水车式履带刮矿砂选磁铁矿装置, 其特征还在于增加了超声波; 所述水车式履带刮矿砂选磁铁矿装置, 由工作平台槽、 水车式履带、 电动机、 皮带轮、 超高磁电磁线圈组成; 所述超声波, 安装在矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击; [0021] Advantageously: the increase in ultrasound, further characterized by a kind of sub-grid small belt of magnetite means to achieve, comprising: a belt of magnetite means there is a small sub-grid, further characterized including the addition of ultrasound; the small sub-grid belt of magnetite means ruled by a small belt, motor pulley, high magnetic electromagnetic coils; said ultrasonic installation in ore movement , before the end of the ultra-high magnetic beneficiation of ores are selected bombardment; [0022] Advantageously: the increase of ultrasonic, characterized by further resides in a paddlewheel track of magnetite ore scraping device to achieve, including: waterwheel crawler scraping election magnetite ore apparatus further characterized in that the ultrasound increased; the paddlewheel track scraping device magnetite ore selected by the working platform trough, water tankers crawler, motors, pulleys, high magnetic electromagnetic coils; the ultrasonic mounted ore movement, before the end of the ultra-high magnetic beneficiation of ores are selected bombardment;

[0023] 优选的: 所述增加超声波, 其特征还在于一种抛物面击矿砂式选磁铁矿装置来实现的, 包括: 抛物面击矿砂式选磁铁矿装置, 其特征还在于增加了超声波; 所述抛物面击矿砂式选磁铁矿装置, 由电动机、 抛物面轮、 抛物面、 抛物面齿、 方向校正器、 超高磁电磁线圈组成; 所述超声波, 安装在磁铁矿砂流的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流轰击; [0023] Advantageously: the increase of ultrasonic, characterized by further lies in a parabolic type of magnetite ore strike means to achieve, comprising: a parabolic type of magnetite ore blow means, further characterized in that the ultrasound increased; the parabolic type of magnetite ore blow means, by the motor, round paraboloid, parabolic, parabolic tooth, the direction of correction, ultrahigh magnetic solenoid coils; the ultrasound, magnetic iron ore installed during the movement of the stream, in the super flow bombardment of magnetic iron ore was selected before the end of high magnetic beneficiation;

[0024] 优选的: 所述增加超声波, 其特征还在于一种强风吹矿砂式选磁铁矿装置来实现的, 包括: 强风吹矿砂式选磁铁矿装置, 其特征还在于包括增加了超声波; 所述强风吹矿砂式选磁铁矿装置, 由吹风口、 方向校正器、 超高磁电磁线圈组成; 所述超声波, 安装在磁铁矿砂流的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流轰击; 有益效果: 在一道工序中, 增加一种选矿方式, 再次提高矿砂品位, 节约了能耗, 降低了成本。 [0024] Advantageously: the increase in ultrasound, further characterized by a potent type of magnetite ore wind means to achieve, including: strong winds of magnetite ore type apparatus further characterized by an increase of ultrasound ; the strong winds of magnetite ore type device consisting of air outlet direction corrector, ultra-high magnetic electromagnetic coils; the ultrasound, the installation process in motion magnetic iron ore stream, before the end of the ultra-high magnetic beneficiation magnetic iron ore was selected stream bombardment; beneficial effects: in one step, to add a beneficiation methods, improving ore grade again, saving energy, reducing costs.

[0025] 优选的: 所述增加超声波, 其特征还在于一种喷嘴式超高磁选矿装置来实现的, 包括: 喷嘴式超高磁选矿装置, 其特征还在于增加了超声波; 所述喷嘴式超高磁选矿装置, 由强风管、 喷风嘴、 混料仓、 喷管、 扇形喷嘴、 螺旋式给料装置、 超高磁电磁线圈、 磁铁矿沙、 尾矿、 隔板、 料斗组成; 所述超声波, 安装在磁铁矿砂流的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流轰击 [0025] Advantageously: the increase of ultrasonic, characterized by further resides in a nozzle ultra-high magnetic beneficiation means to achieve, comprising: a nozzle ultra-high magnetic mineral processing apparatus further characterized in that the ultrasound increased; the nozzle type ultra-high magnetic mineral processing equipment, strong winds from the tube, spray nozzle, mixing compartment, nozzle, fan nozzle, screw feeding device, ultra-high magnetic solenoids, magnetite sand, tailings, separators, hoppers ; the ultrasound, the installation process in motion magnetic iron ore stream, before the end of the ultra-high magnetic magnetic iron ore beneficiation flow is selected bombardment

[0026] 优选的: 所述增加超声波, 其特征还在于本发明一种水中磁铁矿的旋转流灌式超高磁选矿装置来实现的, 包括: 水中磁铁矿的选矿装置, 其特征还在于增加了超声波; 所述水中磁铁矿的选矿装置, 由入料管、 动力系统、 轴、 旋转扇叶、 选矿灌、 尾澄出口、 水中磁选机、 精矿出口组成; 所述超声波, 安装在选矿灌外矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击; 有益效果: 在一道选矿工序中, 又增加超声波的轰击, 加剧了有用矿砂和无用矿砂的分离, 再次提高矿砂品位, 节约了能耗, 降低了成本, 增加效益。 [0026] Advantageously: the increase in ultrasound, further characterized in that the present invention is one kind of swirling flow of irrigation water, ultra-high magnetic magnetite beneficiation means to achieve, including: water magnetite beneficiation equipment, further characterized It is the addition of ultrasound; the water magnetite beneficiation equipment, the feeding tube, power systems, shaft, rotating blades, mineral filling, tail Cheng export, water separator, concentrate export composition; the ultrasound, ore beneficiation irrigation installed outside the course of the campaign, before the end of the ultra-high magnetic beneficiation of ores are selected bombardment; beneficial effects: in a beneficiation process, increased ultrasonic bombardment, exacerbated by the separation of useful and useless ore ore, again increased ore grade, saving energy consumption, reduce costs and increase efficiency.

[0027] [0027]一种磁铁矿的超高磁选矿装置, 其特征还在于选矿装置组合顺序; 所述选矿装置组合顺序, 是一种抛物面击矿砂式选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 有益效果: 把误落入选矿池中的非需要矿砂, 再通过超高磁场选磁铁矿装置选出来, 使矿砂品位提高 [0027] [0027] A ultra-high magnetic magnetite beneficiation equipment, further characterized in that means dressing combination sequence; the dressing apparatus combination sequence, the latter hit a parabolic type of magnetite ore beneficiation equipment, then ultra-high magnetic field of magnetite means; beneficial effects: fall into the mistake of dressing in the pool of non-ore needs, through ultra-high magnetic field of magnetite means elected, so that the ore grade increased

[0028] 优选的: 所述选矿装置组合顺序, 其特征还在于一种传送带式超高磁场选磁铁矿组合装置来实现的, 包括: 一种传送带式超高磁场选磁铁矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种传送带式超高磁场选磁铁矿装置, 由皮带、 皮带轮、 超高电磁线圈, 超声波组成; 所述漏槽, 是由两个隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈上的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; 有益效果: 把误落入选矿池中的非需要矿砂, 再通过超高磁场选磁铁矿装置选出来, 使矿砂品位提高。 [0028] Advantageously: the beneficiation unit combination sequence, further characterized in that A conveyor belt ultra-high magnetic field of magnetite combining means to achieve comprising: a conveyor-type ultra-high magnetic field of magnetite device leakage slots, ultra-high magnetic field of magnetite apparatus further characterized dressing means comprises combination sequence; ultra-high magnetic field of said one conveyor means of magnetite, the belts, pulleys, high electromagnetic coil, ultrasonic wave composition; the said sink, is composed of two separators, goes wide and narrow shape, located below the ultra-high magnetic solenoid coil; the ultra-high magnetic field apparatus selected from magnetite, magnetite sand in the process of free fall with ultra-high magnetic beneficiation means; the combination sequence dressing means is a conveyor-type ultra-high magnetic field of magnetite beneficiation equipment, the magnetite election followed by the ultra-high magnetic field device; a beneficial effect: the error falls non-ore beneficiation pool needs, through ultra-high magnetic field of magnetite means elected, so that ore grade increased.

[0029] 优选的: 所述选矿装置组合顺序, 其特征还在于一种有小分格的皮带选磁铁矿组合装置来实现的, 包括: 一种有小分格的皮带选磁铁矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种有小分格的皮带选磁铁矿装置, 是由有小分格的皮带、 电动机、 皮带轮、 超声波轰击装置、 超高磁电磁线圈组成的; 所述漏槽, 是由两个隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈上的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0029] Advantageously: the beneficiation unit combination sequence, further characterized by a kind of small belt of magnetite combining means to achieve sub-grid comprising: a sub-grid small belt of magnetite means , sink, ultra-high magnetic field of magnetite apparatus further characterized by a combination of means including beneficiation order; the one small sub-grid belt of magnetite means ruled by a small belt, motor, pulleys, ultrasonic bombardment apparatus, ultra-high magnetic electromagnetic coil consisting of; the sink, is composed of two separators, goes wide and narrow shape, located below the ultra-high magnetic solenoid coil; the ultra-high magnetic field is selected magnetite means magnetite sand in free fall in the process, with ultra-high magnetic beneficiation means; the combination sequence dressing means is a conveyor-type ultra-high magnetic field of magnetite beneficiation equipment after, followed by ultra high magnetic field of magnetite devices.

[0030] 优选的: 所述选矿装置组合顺序, 其特征还在于一种水车式履带刮矿砂选磁铁矿组合装置来实现的, 包括: 一种水车式履带刮矿砂选磁铁矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种水车式履带刮矿砂选磁铁矿装置, 由工作平台槽、 水车式履带、 电动机、 皮带轮、 超声波轰击装置、 超高磁电磁线圈组成; 所述漏槽, 是由两个分隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈上的下面; 所述超高磁场选磁铁矿装置, 由分隔板、 料斗、 超高电磁线圈组成, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种水车式履带刮矿砂选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置; [0030] Advantageously: the beneficiation unit combination sequence, characterized by further resides in a paddlewheel track of magnetite ore scraping device combination achieved comprising: a paddlewheel track of magnetite ore scraping device , sink, ultra-high magnetic field of magnetite apparatus further characterized by a combination of means including beneficiation order; the one paddlewheel track scraping device magnetite ore selected by the working platform trough, water tankers crawler motor , pulleys, ultrasonic bombardment apparatus, ultra-high magnetic electromagnetic coils; the sink, is composed of two separate plates, goes wide and narrow shape, located below the ultra-high magnetic solenoid coil; the ultra-high magnetic field election magnetite means by the partition plate, hopper, high electromagnetic coils, magnetite sand in free fall in the process, with ultra-high magnetic mineral processing means; said dressing device combination sequence, a waterwheel after scraping crawler election magnetite ore beneficiation equipment, followed by the ultra-high magnetic field of magnetite means;

[0031] 优选的: 所述选矿装置组合顺序, 其特征还在于一种抛物面击矿砂式选磁铁矿组合装置来实现的, 包括: 一种抛物面击矿砂式选磁铁矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种抛物面击矿砂式选磁铁矿装置, 由电动机、 抛物面轮、 抛物面齿、 抛物面、 方向校正器、 超声波轰击装置、 超高磁电磁线圈组成; 所述漏槽, 是由两个隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种抛物面击矿砂式选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0031] Advantageously: the beneficiation unit combination sequence, characterized by further lies in a parabolic blow magnetite ore formula selected from the combining means to achieve comprising: a parabolic type of magnetite ore blow means, sink, ultra-high magnetic field of magnetite apparatus further characterized dressing means comprises combination sequence; paraboloid of said one type of magnetite ore blow means, by the motor, round paraboloid, parabolic tooth, parabolic, the direction of correction, ultrasonic bombardment unit, ultra-high magnetic electromagnetic coils; the sink, is composed of two separators, goes wide and narrow shape, located below the ultra-high magnetic solenoid; the ultra-high magnetic field apparatus selected from magnetite, magnetic iron sand flow in free fall in the process, with ultra-high magnetic mineral processing apparatus; apparatus combination sequence after the dressing is a hit parabolic type ore beneficiation of magnetite device, followed by the ultra-high magnetic field of magnetite means .

[0032] 优选的: 所述选矿装置组合顺序, 其特征还在于一种强风吹矿砂式选磁铁矿组合装置来实现的, 包括: 一种强风吹矿砂式选磁铁矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种强风吹矿砂式选磁铁矿装置, 由吹风口、 方向校正器、 超声波轰击装置、 超高磁电磁线圈组成; 所述漏槽, 是由两个隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0032] Advantageously: the beneficiation unit combination sequence, further characterized by a strongly wind magnetite ore formula selected from the combining means to achieve comprising: a strong wind of magnetite ore type device, sink, ultra-high magnetic field of magnetite apparatus further characterized dressing means comprises combination sequence; strong wind said one type of magnetite ore apparatus, the air outlet, the direction of correction, ultrasonic bombardment apparatus, ultra-high magnetic solenoid composition; the sink, is composed of two separators, goes wide and narrow shape, located below the ultra-high magnetic solenoid; the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow in a free fall process, ultra-high magnetic beneficiation means; the combination sequence dressing means is a conveyor-type ultra-high magnetic field of magnetite beneficiation equipment, the magnetite election followed by the ultra-high magnetic field devices.

[0033] 优选的: 所述选矿装置组合顺序, 其特征还在于一种喷嘴式超高磁选矿的组合装置来实现的, 包括: 一种喷嘴式超高磁选矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序; 所述一种喷嘴式超高磁选矿装置, 由强风管、 喷风嘴、 混料仓、 喷管、 扇形喷嘴、 螺旋式给料装置、 超高磁电磁线圈、 磁铁矿沙、 尾矿、 隔板、 料斗、 超声波轰击装置组成; 所述漏槽, 是由两个隔板组成, 呈上宽下窄状, 位于超高磁电磁线圈的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种喷嘴式超高磁选矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0033] Advantageously: the beneficiation unit combination sequence, further characterized by a combination of a device nozzle ultra-high magnetic beneficiation achieved comprising: a nozzle ultra-high magnetic beneficiation equipment, sink, ultra-high magnetic field election magnetite apparatus further characterized by a combination of means including beneficiation order; the one nozzle ultra-high magnetic mineral processing equipment, strong winds from the tube, spray nozzle, mixing compartment, nozzle, fan nozzle, to spiral feeding device, ultra-high magnetic solenoids, magnetite sand, tailings, separators, hoppers, ultrasonic bombardment device component; the sink, is composed of two separators, goes wide and narrow shape, is located in the ultra-high the following magnetic solenoid; the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow in free fall in the process, with ultra-high magnetic beneficiation means; the combination sequence dressing means is a nozzle type ultrahigh after magnetic beneficiation beneficiation equipment, followed by the ultra-high magnetic field of magnetite devices. 发明的有益效果 Advantageous Effects of Invention

有益效果 Advantageous Effects

[0034] 在此处键入有益效果描述段落。 [0034] Type beneficial effect described here paragraph.

对附图的简要说明 BRIEF DESCRIPTION OF THE DRAWINGS

附图说明 BRIEF DESCRIPTION

[0035] 图1是本发明超高磁场选铁矿石装置结构示意图。 [0035] FIG. 1 is a schematic view of the structure of ultra-high magnetic field selected from iron ore apparatus of the present invention.

[0036] 图中: 磁铁矿沙流1, 超高磁电磁线圈2, 分隔板3, 料斗4。 [0036] FIG: 1 magnetite sand flow, high magnetic solenoid 2, the partition plate 3, the hopper 4.

[0037] 图2是本发明多次超高磁场选铁矿石装置结构示意图。 [0037] FIG. 2 is a multiple of the present invention is selected ultrahigh magnetic field structure diagram iron ore unit.

[0038] 图中: 磁铁矿沙流1, 超高电磁线圈3, 隔板4, 新矿砂流2, 漏槽5, 料斗6, 新矿沙流7。 [0038] FIG: 1 magnetite sand flow, high electromagnetic coil 3, a separator 4, the new ore flow 2, sink 5, the hopper 6, 7 sand flow of new mines.

[0039] 图3是本发明传送带式超高磁场选磁铁矿装置结构示意图。 [0039] FIG. 3 is a belt type ultra-high magnetic field of magnetite schematic structural view of apparatus of the present invention.

[0040] 图中: 磁铁矿沙1、 皮带轮2、 皮带3、 超高电磁线圈4, 隔板5, 料斗6. [0040] FIG: magnetite sand 1, 2 pulleys, belts 3, high electromagnetic coil 4, the separator 5, the hopper 6.

[0041] 图4是本发明有小分格的皮带选磁铁矿装置结构位置示意图。 [0041] FIG. 4, the present invention has a belt structure of magnetite device Diagram of small sub-grid.

[0042] 图中: 磁铁矿沙流1, 皮带轮2, 有小分格的皮带3, 电磁线圈4, 小隔板5, 选出来的矿砂6, 尾矿7, 隔板8, 料斗9。 [0042] FIG: magnetite sand flow 1, 2 pulleys, a small sub-grid belt 3, the electromagnetic coil 4, a small clapboard 5, 6 elected ore, tailings 7, separator 8, 9 hopper.

[0043] 图5是本发明水车式履带刮矿砂选磁铁矿装置构位置示意图。 [0043] FIG. 5 is a waterwheel present invention crawler scraping device configuration of magnetite ore position Fig.

[0044] 图中: 磁铁矿沙流1、 选出来的矿6、 尾矿7、 工作平台槽2、 水车式履带3、 皮带轮4、 超高磁电磁线圈5, 水车式隔板8, 隔板9, 料斗10。 [0044] FIG: magnetite sand flow 1, 6 elected ore, tailings 7, the working platform grooves 2, 3 paddlewheel track, pulleys 4, high magnetic solenoid 5 paddlewheel separator 8, separator 9, the hopper 10.

[0045] 图6是本发明抛物面击矿砂式选磁铁矿装置结构位置示意图。 [0045] FIG. 6 of the present invention is selected from the parabolic type magnetite ore strike position schematic device structure.

[0046] 图中: 磁铁矿沙流1、 抛物面2、 抛物面齿3、 抛物面轮4、 方向校正器5、 超高磁电磁线圈6、 选出来的磁铁矿砂7、 尾矿8、 隔板9、 料斗10。 [0046] FIG: magnetite sand flow 1, 2 parabolic, parabolic tooth 3, 4 round paraboloid, direction corrector 5, ultra-high magnetic solenoid 6, 7 elected magnetic iron ore, tailings 8, the separator 9, hopper 10.

[0047] 图7是本发明强风吹矿砂式选磁铁矿装置结构位置示意图。 [0047] FIG. 7 of the present invention is selected from strong winds magnetite ore type device structure position Fig.

[0048] 图中: 磁铁矿砂流1、 : 吹风口2、 方向校正器3、 超高磁电磁线圈4、 选出来的磁铁矿沙5、 尾矿6、 隔板7、 料斗8。 [0048] FIG: magnetic iron ore flow 1: 2 air outlet direction corrector 3, ultra-high magnetic solenoid 4, 5 elected magnetite sand, tailings 6, a separator 7, 8 hopper.

[0049] 图8喷嘴式超高磁选矿装置结构位置示意图。 [0049] FIG. 8 nozzle ultra-high magnetic beneficiation schematic device structure position.

[0050] 图中: 强风管1、 喷风嘴2、 混料仓3、 喷管4、 扇形喷嘴5、 螺旋式给料装置6、 超高磁电磁线圈7、 磁铁矿沙8、 尾矿9、 隔板10、 料斗11 . [0050] FIG: Strong duct 1, spray nozzle 2, mixing positions 3, 4 nozzle, fan nozzle 5, the screw feeder device 6, high magnetic solenoid 7, 8 magnetite sand, tail mining 9, the separator 10, the hopper 11.

[0051] 图9是本发明水中磁铁矿的旋转流灌式超高磁选矿装置结构位置示意图。 [0051] FIG. 9 is a rotating flow-fill device ultrahigh magnetic beneficiation of magnetite structure Diagram of the water of the present invention. [0052] 图中: 入料管1、 动力系统2、 轴3、 旋转扇叶4、 选矿灌5、 尾澄出口6、 水中磁选机7、 精矿出口8。 [0052] in which: feeding tube 1, the power system 2, 3-axis rotation of the blade 4, mineral filling 5, Cheng Mei outlet 6, the water separator 7, 8 ore exports.

[0053] 图10是本发明排出大颗粒物体的倒仓装置结构位置示意图。 [0053] FIG. 10 is a schematic view of the structure of the cartridge device location down large particles of the present invention is discharged objects.

[0054] 图中: 倒仓1、 倒仓转动体2、 密闭体3、 容器底4、 容器5、 排大颗粒缺口6。 [0054] FIG: down bin 1, down 2 positions rotary body, sealing body 3, the container bottom 4, the container 5, 6 rows of large particle gap.

[0055] 图11是本发明倒仓自动排出大颗粒矿砂的装置结构位置示意图。 [0055] FIG. 11 is a schematic view of the structure of the device of the present invention the position of the warehouse down automatically discharged large particles of ore.

[0056] 图中: 倒仓1、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器底斜面4、 容器5、 排大颗粒缺口6、 重量监测条7、 重量检测器8、 传动结构9、 控制器10。 [0056] in which: Turning and a pour vessel to rotate member 2, sealing body 3, the container bottom ramp 4, the container bottom ramp 4, the container 5, rows of large particles gap 6, the weight monitoring strip 7, weight detector 8, the drive structure 9, the controller 10.

[0057] 图12是本发明水中控制大颗粒物体下落幵关的装置结构位置示意图。 [0057] FIG. 12 is a schematic view of the structure of the position control apparatus of the present invention the water granular objects fall off Jian.

[0058] 图中: 倒仓1、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器5、 排大颗粒缺口6 [0058] FIG: down bin 1, down 2 positions rotary body, sealing body 3, the container bottom bevel 4, 5 containers, large particles discharge gap 6

、 导矿壁7、 幵关门板8、 幵关门轴9、 转动结构A10、 齿状杆11、 转动结构B12、 控制器13、 斜隔板14。 I. mine wall 7, Jian closing plate 8, Jian closed shaft 9 rotating structure A10, toothed rod 11, rotating structure B12, controller 13, inclined separator 14.

[0059] 图13是本发明预留一次倒仓大颗粒物体容量的装置结构位置示意图。 [0059] FIG. 13 is a schematic view of the present invention means a position reserved for construction of large particles fall warehouse objects capacity.

[0060] [0060]图中: 倒仓1、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器5、 排大颗粒缺口6、 导矿壁7、 幵关门板A8, 幵关门轴A9, 转动结构A10, 齿状杆Bl l, 转动结构B12, 控制器13、 斜隔板14、 幵关门板C15、 幵关门轴C16,转动结构C17, 齿状杆D18,转动结构D19, 重量检测器20、 重量监测条21、 横隔板22。 [0060] [0060] FIG: down bin 1, down warehouse rotator 2, sealed body 3, bottom of the container ramp 4, the container 5, rows of large particle gap 6, guide mine wall 7, Jian closing plate A8, Jian closed shaft A9, rotational structure A10, toothed rod Bl l, rotating structure B12, controller 13, inclined baffle 14, Jian closing plate C15, Jian closed shaft C16, rotating structure C17, toothed rod D18, rotating structure D19, weight detection 20, weight monitoring Article 21, the crossbeam 22.

[0061] [0061]图14是本发明一种传送带式超高磁场选磁铁矿装置结构示意图。 [0061] [0061] FIG. 14 is the present invention A conveyor belt ultra-high magnetic field of magnetite structure diagram means.

[0062] [0062]图中: 磁铁矿沙1、 皮带3、 皮带轮2、 超高电磁线圈4, 超声波5. [0062] [0062] FIG: magnetite sand 1, 3 belts, pulleys 2, high electromagnetic coils 4, 5 ultrasound.

[0063] 图15是本发明一种有小分格的皮带选磁铁矿装置结构位置示意图。 [0063] FIG. 15 is a belt of magnetite present invent a device structure Diagram of small separate compartments.

[0064] 图中: : 磁铁矿沙流1, 皮带轮2, 有小分格的皮带3, 电磁线圈4, 小隔板5, 选出来的矿砂6, 尾矿7, 隔板8, 料斗9, 超声波10。 [0064] FIG.:: Magnetite sand flow 1, 2 pulleys, a small sub-grid belt 3, the electromagnetic coil 4, a small clapboard 5, 6 elected ore, tailings 7, separator 8, the hopper 9, ultrasonic 10.

[0065] 图16是本发明一种水车式履带刮矿砂选磁铁矿装置结构位置示意图。 [0065] FIG. 16 is a waterwheel crawler scraping device structure of magnetite ore Diagram of the present invention.

[0066] 图中: 磁铁矿沙流1、 选出来的矿6、 尾矿7、 工作平台槽2、 水车式履带3、 皮带轮4、 超高磁电磁线圈5, 水车式隔板8, 隔板9, 料斗10, 超声波11。 [0066] FIG: magnetite sand flow 1, 6 elected ore, tailings 7, the working platform grooves 2, 3 paddlewheel track, pulleys 4, high magnetic solenoid 5 paddlewheel separator 8, separator 9, the hopper 10, ultrasonic 11.

[0067] 图17是本发明一种抛物面击矿砂式选磁铁矿装置结构位置示意图。 [0067] FIG. 17 is present invent a formula selected from magnetite ore parabolic blow device schematic structure position.

[0068] 图中: 磁铁矿沙流1、 抛物面2、 抛物面齿3、 抛物面轮4、 方向校正器5、 超高磁电磁线圈6、 选出来的磁铁矿砂7、 尾矿8、 隔板9、 料斗10、 超声波11。 [0068] FIG: magnetite sand flow 1, 2 parabolic, parabolic tooth 3, 4 round paraboloid, direction corrector 5, ultra-high magnetic solenoid 6, 7 elected magnetic iron ore, tailings 8, the separator 9, hopper 10, ultrasonic 11.

[0069] 图18是本发明一种强风吹矿砂式选磁铁矿装置结构位置示意图。 [0069] FIG. 18 is the present invention is a potent formula selected from magnetite ore wind location device configuration schematic. [0070] 图中: 磁铁矿砂流1、 : 吹风口2、 方向校正器3、 超高磁电磁线圈4、 选出来的磁铁矿沙5、 尾矿6、 隔板7、 料斗8、 超声波9。 [0070] FIG: magnetic iron ore flow 1: 2 air outlet direction corrector 3, ultra-high magnetic solenoid 4, 5 elected magnetite sand, tailings 6, a separator 7, 8 hopper, ultrasonic 9 .

[0071] 图19、 一种喷嘴式超高磁选矿装置, 是本发明一种喷嘴式超高磁选矿装置结构位置示意图。 [0071] FIG. 19 An ultra-high magnetic beneficiation nozzle means is present invent a nozzle ultra-high magnetic beneficiation schematic device structure position.

[0072] [0072]图中: 强风管1、 喷风嘴2、 混料仓3、 喷管4、 扇形喷嘴5、 螺旋式给料装置6、 超高磁电磁线圈7、 磁铁矿沙8、 尾矿9、 隔板10、 料斗11、 超声波12 [0073] [0073]图20、 是本发明一种水中磁铁矿的旋转流灌式超高磁选矿装置结构位置示意图。 [0072] [0072] FIG: Strong duct 1, spray nozzle 2, mixing positions 3, 4 nozzle, fan nozzle 5, the screw feeder device 6, high magnetic solenoid 7, magnetite sand 8, 9 tailings, a separator 10, a hopper 11, ultrasonic 12 [0073] [0073] FIG. 20 is a rotating flow irrigation ultra-high magnetic beneficiation device configuration the invention provides a schematic view of the position of the water magnetite.

[0074] [0074]图中: 入料管1、 动力系统2、 轴3、 旋转扇叶4、 选矿灌5、 尾澄出口6、 水中磁选机7、 精矿出口8、 超声波9。 [0074] [0074] in which: feeding tube 1, the power system 2, 3-axis rotation of the blade 4, mineral filling 5, Cheng Mei outlet 6, the water separator 7, concentrate outlet 8, 9 ultrasound.

[0075] 图21、 是本发明一种传送带式超高磁场选磁铁矿组合装置结构示意图。 [0075] FIG. 21, the present invention is A conveyor belt ultra-high magnetic field of magnetite composite structure schematic device.

[0076] [0076]图中: 矿砂流1、 皮带轮2、 皮带3、 电磁线圈4、 漏槽5、 料斗6、 初选的矿砂7、 尾矿8和9、 选出来的铁矿砂10、 隔板11、 超声波12。 [0076] [0076] FIG: ore stream 1, 2 pulleys, belts 3, 4 electromagnetic coil, sink 5, the hopper 6, 7 primary ore, tailings 8 and 9, selected 10 out of iron ore, the spacers 11, 12 ultrasound.

[0077] 图22是本发明一种有小分格的皮带选磁铁矿组合装置结构示意图。 [0077] FIG. 22 is a small sub-grid belt of magnetite composite structure schematic apparatus of the present invention.

[0078] 图中: : 磁铁矿沙流1, 皮带轮2, 有小分格的皮带3, 电磁线圈4, 小隔板5, 选出来的矿砂6, 尾矿7和12, 隔板8, 料斗9, 超声波10, 漏槽11, 最终选出来的矿13。 [0078] FIG.:: Magnetite sand flow 1, 2 pulleys, a small sub-grid belt 3, the electromagnetic coil 4, a small clapboard 5, 6 elected ore, tailings 7 and 12, the spacer 8, a hopper 9, ultrasonic 10, sink 11, 13 mine eventually elected.

[0079] 图23是本发明一种水车式履带刮矿砂选磁铁矿组合装置结构位意图。 [0079] FIG. 23 is present invent a paddlewheel track scraping magnetite ore selected combination device configuration bits intentions.

[0080] 图中: 磁铁矿沙流1、 工作平台槽2、 水车式履带3、 皮带轮4、 超高磁电磁线圈5、 初选出来的矿砂形成新矿砂流6、 尾矿7和13、 水车式隔板8、 隔板9、 料斗10 、 超声波11、 漏槽12、 选出来的矿砂13。 [0080] FIG: 1 magnetite sand flow, grooves work platform 2, track 3 water tankers, pulleys 4, high magnetic electromagnetic coil 5 primaries out of the ore formation of new ore stream 6, 7 and 13 tailings, paddlewheel separator 8, the separator 9, the hopper 10, ultrasonic 11, sink 12, elected 13 ore. 图24是本发明一种抛物面击矿砂式选磁铁矿组合装置结构示意图。 FIG. 24 is present invent a parabolic blow structural formula selected from magnetite ore combination schematic device.

[0081] 图中: 磁铁矿沙流1、 抛物面2、 抛物面齿3、 抛物面轮4、 方向校正器5、 超高磁电磁线圈6、 初选出来的矿砂7、 尾矿8和12、 隔板9、 料斗10、 超声波11、 最终选出来的矿砂13。 [0081] FIG: magnetite sand flow 1, 2 parabolic, parabolic tooth 3, 4 round paraboloid, direction corrector 5, ultra-high magnetic solenoid 6, 7 primaries out of the ore, tailings 8 and 12, the separator 9, the hopper 10, ultrasonic 11, 13 ore eventually elected. 图14是本发明超高磁场选铁矿石装置结构示意图。 FIG. 14 is a schematic view of the structure of ultra-high magnetic field selected iron ore apparatus of the present invention.

[0082] 图25是本发明一种强风吹矿砂式选磁铁矿组合装置结构示意图。 [0082] FIG. 25 is the present invention is a potent formula selected from magnetite ore wind structure schematic combination devices.

[0083] 图中: 磁铁矿砂流1、 : 吹风口2、 方向校正器3、 超高磁电磁线圈4、 初选出来的矿砂5、 尾矿6和10、 隔板7、 料斗8、 超声波轰击装置9、 最终选出来的矿砂11 、 漏槽12。 [0083] FIG: magnetic iron ore flow 1: 2 air outlet direction corrector 3, ultra-high magnetic solenoid 4, 5 primaries out of the ore, tailings 6 and 10, the separator 7, 8 hopper, ultrasonic bombardment means 9, the final elected ore 11, sink 12.

[0084] 图26、 是本发明一种喷嘴式超高磁选矿的组合装置结构位置示意图。 [0084] FIG. 26 is a composition of the present invention, the position of the device structure schematic view of the nozzle ultra-high magnetic beneficiation.

[0085] [0085]图中: 强风管1、 喷风嘴2、 混料仓3、 喷管4、 扇形喷嘴5、 螺旋式给料装置6、 超高磁电磁线圈7、 磁铁矿沙8、 尾矿9、 隔板11、 料斗15、 超声波轰击装置12、 最终选出来的矿砂13、 漏槽10、 尾矿14。 [0085] [0085] FIG: Strong duct 1, spray nozzle 2, mixing positions 3, 4 nozzle, fan nozzle 5, the screw feeder device 6, high magnetic solenoid 7, magnetite sand 8, 9 tailings, the spacer 11, a hopper 15, ultrasonic bombardment device 12, eventually elected ore 13, sink 10, 14 tailings.

实施该发明的最佳实施例 The implementation of the preferred embodiment of the invention.

本发明的最佳实施方式 The preferred embodiment of the present invention.

[0086] 下面将结合图1到图14对本发明进行详细说明, 对本发明实施例中的技术方案进行清楚、 完整地描述, 显然, 所描述的实施例仅仅是本发明一部分实施例, 而不是全部的实施例。 [0086] below in conjunction with FIG. 1 through 14 of the present invention will be described in detail, for example in the technical solutions of the present invention clearly and completely described, it is clear that the described embodiments are merely part of the embodiments of the present invention, but not all Example. 基于本发明中的实施例, 本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例, 都属于本发明保护的范围。 Based on the embodiments of the present invention, all other embodiments of the ordinary skill in the creative work did not make the premise obtained, are within the scope of the present invention is protected.

[0087] 实施例1: 本发明超高磁选铁矿石装置(图1) , 包括: 磁铁矿沙流1、 分隔板3 、 料斗4, 其特征还在于包括超高磁电磁线圈2和其所产生的磁场使矿沙横向移动的距离。 [0087] Example 1: ultrahigh magnetic iron ore apparatus of the present invention (FIG. 1), comprising: magnetite sand flow 1, the partition plate 3, the hopper 4, further characterized in that it comprises ultrahigh magnetic and electromagnetic coil 2 it generates a magnetic field so that the distance of the lateral movement of mineral sands.

[0088] 本实施例进一步设置为: 所述磁铁矿沙流1, 是众多的铁矿沙组成的向下移动的流体; 所述分隔板3, 位于铁矿沙的最下部, 通过距离的长短, 来分不同品位的矿砂; 所述料斗4, 是装通过分隔板选的不同品位的矿砂; 所述超高磁电磁线圈2, 所产生的磁场, 是普通电磁线圈所产生磁场的几十上百倍以上, 安装在磁铁矿沙流1的下落过程中的中间位置, 超高磁电磁线圈2导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流1 ; 所述矿沙横向移动的距离, 是本发明的关键, 在超高磁电磁线圈2的作用下, 矿砂里的铁越多, 横向移动的距离就越大。 [0088] The present embodiment is further configured to: 1 the magnetite sand flow, the fluid is moving down a large number of iron ore sand composition; the partition plate 3, the lowermost iron sand by distance length to distinguish different grade ore; the hopper 4 is mounted through the partition plate choose different grade ore; the ultrahigh magnetic electromagnetic coil 2, the generated magnetic field is generated by the magnetic field of a few ordinary electromagnetic coil ten more than a hundred times, magnetite sand in the middle of the installation process stream falling 1 in the ultra-high magnetic field ultrahigh magnetic solenoid second conductive issued after ultra-high magnetic field flow in the magnetite sand 1; the mineral sands transverse distance traveled, is the key to the present invention, under the action of ultra-high magnetic electromagnetic coil 2, where the iron ore more lateral movement, the greater the distance.

[0089] 工作原理: 矿砂在自由下落中, 形成铁矿沙流, 比普通电磁线圈所产生磁场高几十上百倍以上的超高磁场作用于铁矿沙流, 使含铁的铁矿沙发生横向移动; 不发生移动或移动距离特别短的, 代表不含铁或含铁少, 是杂质; 移动越远, 含量越高; 不同距离安装分隔板, 就能得到不同品位的矿砂; 料斗接住不同品位的矿砂; 矿砂移动的距离越大, 越可以多细分几个不同品位的矿砂。 [0089] Principle: Ore in free fall, the formation of iron ore sand flow, generated by the electromagnetic coil magnetic field than conventional ultra-high magnetic field tens of times more than in the iron ore sand flow, so that the iron ore lateral shifting sand ; no movement or move very short distances, representatives of non-ferrous or ferrous fewer impurities; move farther, the higher the content; different from the partition plate is installed, you can get different grade ores; hopper catch different grade ore; ore distance traveled, the more can be more subdivided several different grade ore.

[0090] 实施例2: 本发明多次超高磁选铁矿石装置(图2) , 包括: 磁铁矿沙流1, 超高电磁线圈3, 隔板4, 漏槽5, 其特征还在于包括进行粗分后的矿砂形成新矿砂[0091] 本实施例进一步设置为: 所述磁铁矿沙流1, 超高电磁线圈3, 隔板4组成超高磁选铁矿石装置; 所述漏槽5, 是由两个分隔板4组成, 呈上宽下窄状, 位于超高磁电磁线圈3下面; 所述新矿砂流2, 从漏槽5里漏出的矿砂流。 [0090] Example 2: The present invention repeatedly ultrahigh magnetic iron ore unit (Fig. 2), including: 1 magnetite sand flow, high electromagnetic coil 3, a separator 4, sink 5, further characterized including crude ore division after the formation of a new ore [0091] the present embodiment is further configured to: 1 the magnetite sand flow, high electromagnetic coil 3, a separator 4 composed of ultra-high magnetic iron ore means; said drain slot 5, is composed of two separate plate 4, goes wide and narrow shape, is located in ultrahigh magnetic solenoid coil 3 below; the new ore flow 2, 5 miles from the sink leaked ore flow.

[0092] 工作原理: 矿砂在自由下落中, 当超高磁磁场作用于铁矿沙, 使铁矿沙发生横向移动, 但由于超高磁电磁线圈制作的局限性, 不能生产出达到想要的磁场强度的成熟产品, 矿砂移动的距离自然也达不到细微分隔的要求, 就只有采取缩短矿砂流和电磁线圈的距离, 进行粗分; 粗分后获得了需要的矿砂, 落入漏槽里, 通过漏槽形成新矿砂流; 再次采用一个超高磁磁场作用于铁矿沙, 使铁矿沙受超高磁磁场影响, 发生横向移动; 多次粗分, 多次分隔, 就形成了细分, 也达到了细微分隔的目的。 [0092] Principle: Ore in free fall, when the ultra-high magnetic field acting on the sand iron ore, iron ore sand so that the occurrence of lateral movement, but due to the limitations of ultra-high magnetic solenoid made, reach the desired not produce the magnetic field strength of mature products, ore moving distance separating naturally reach the subtle requirements, only to take ore flow and shorten the distance between the electromagnetic coil, coarse points; points gained after crude ore needs, fall into the drain trough the formation of new ore traffic through the sink; using an ultra high magnetic field effect on iron again, sand, iron ore sand so that the ultra-high magnetic field effects occur lateral movement; roughly divided many times, many times separated to form a fine points, also reached the purpose of separating fine.

[0093] 实施例3: 磁铁矿的超高磁选矿装置, 其特征还在于磁铁矿沙的高速运动。 [0093] Example 3: ultrahigh magnetic magnetite beneficiation equipment, further characterized in that magnetite sand high-speed motion.

[0094] 本实施例进一步设置为: 所述磁铁矿沙的高速运动, 就是磁铁矿沙流的高速流动。 [0094] The present embodiment is further configured to: high-speed movement of the magnetite sand, magnetite is the high-speed flow of sand flow.

[0095] 工作原理: 添加外力, 让磁铁矿沙在有限的距离里加速, 使磁铁矿沙用很强的惯性力穿过超高磁电磁线圈, 把磁铁矿沙中的磁铁矿和尾矿分得更彻底, 提高选矿的矿砂品位。 [0095] Principle: Adding an external force, so that acceleration magnetite sand in a limited distance, the magnetite sand used to make a very strong ultra-high magnetic inertial force through the electromagnetic coil, the magnetite sand magnetite and tailings points more thoroughly and improve the beneficiation of ore grade.

[0096] 实施例4: (图3) 本发明传送带式超高磁场选磁铁矿装置, 包括: 磁铁矿沙1 、 皮带3、 皮带轮2、 超高电磁线圈4, 隔板5, 料斗6, 其特征还在于其组合。 [0096] Example 4: (FIG. 3) of the present invention, ultra-high magnetic field of magnetite belt apparatus comprising: magnetite sand 1, 3 belts, pulleys 2, high electromagnetic coil 4, the separator 5, the hopper 6 , further characterized by a combination thereof.

[0097] [0097]本实施例进一步设置为: 所述磁铁矿沙流(1) , 是众多的磁铁矿沙组成的运动体; 所述皮带轮(2) , 是皮带(3) 循环转动的动力源; 所述皮带(3 ) , 在皮带轮(2) 的带动下, 于两皮带轮(2) 间循环转动, 把落在上面的磁铁矿沙流(1) 加速; 所述超高电磁线圈(4) , 安装在磁铁矿沙流(1) 的运动过程中, 超高电磁线圈(4) 导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流(1) ; 所述分隔板(5) , 位于铁矿沙的最下部, 通过距离的长短, 来分不同品位的矿砂; 所述料斗(6) , 是装通过分隔板选的不同品位的矿砂。 [0097] [0097] The present embodiment is further configured to: the magnetite sand flow (1), the moving body is composed of a large number of magnetite sand; the pulley (2), the belt (3) rotation cycle a power source; said belt (3) at the pulley (2), driven by two pulleys in rotation cycle (2) Room to fall on top of magnetite sand flow (1) to accelerate; the ultrahigh electromagnetic coil ( 4) mounted on magnetite sand flow (1) of the movement, the ultra-high magnetic field ultrahigh electromagnetic coil (4) conducting issued after ultra-high magnetic field acts on the magnetite sand flow (1); the partition plate (5), located in the lower part of iron ore sand, through the length of the distance to the different sub-grade ore; the hopper (6), is mounted through the partition plate choose different grade of ore.

[0098] [0098]工作原理: 磁铁矿沙均匀地落到皮带上, 皮带在皮带轮的带动下高速循环运动, 皮带的高速循环运动, 带动磁铁矿沙高速移动, 磁铁矿沙的高速移动, 惯性穿过超高磁场, 形成选矿。 [0098] [0098] Principle: magnetite sand evenly fall on the belt, the belt driven pulley speed circular motion, circular motion of the belt speed, drive speed mobile magnetite sand, magnetite sand speed move, inertia through ultra-high magnetic field, forming a dressing.

[0099] 实施例5: 有小分格的皮带选磁铁矿装置(图4) , 包括: 有小分格的皮带3、 电动机、 皮带轮2、 超高磁电磁线圈4, 其特征还在于包括小隔板5。 Belt of magnetite means a small sub-lattice (Fig. 4), comprising: a: [0099] Example 5 with a small sub-grid belt 3, motors, pulleys 2, ultra-high magnetic solenoid 4, further characterized in that it comprises small separator 5.

[0100] 本实施例进一步设置为: 所述电动机, 是本系统的动力装置, 带动皮带轮2转动; 所述皮带轮2, 带动有小分格的皮带3循环转动; 所述有小分格的皮带3, 安装在两皮带轮2上, 并在皮带上安装有小隔板5 ; 所述小隔板5, 呈薄、 矮长方体, 横向固定在皮带上; 所述超高磁电磁线圈4, 安装在磁铁矿沙喷射的过程中。 The belt has a small separate compartments; the motor is the power plant of the present system, drive pulley 2 is rotated; the pulley 2, driven by a small sub-grid belt 3 rotation cycle: [0100] This example further set 3, mounted on the two pulleys 2 and the belt is installed with a small spacer 5; the small separator 5, was thin, short rectangular, laterally fixed to the belt; the ultrahigh magnetic electromagnetic coil 4 is mounted magnetite sand injection process.

[0101] 工作原理: 磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 电动机带动皮带轮, 有小分格的皮带在两皮带轮间循环转动, 铺在有小分格的皮带上的矿砂在皮带转弯吋会惯性地射向前方, 穿过超高磁场, 完成选矿; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的初始速度, 取决于有小分格的皮带的循环转动速度; 小隔板推动矿砂, 才能让矿砂在有限的距离里, 达到皮带的运转速度; 皮带和超高磁电磁线圈之间的距离, 是回收没有达到要求速度的矿砂。 [0101] Principle: magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful to useless ore and ore division Jian the greater the force, the more likely to be useful ore elected; motor driven pulley, a small sub-grid belt between the two pulleys rotation cycle, there is a small shop in the sub-grid belt ore belt will habitually turn inch exit forward, through ultra-high magnetic field, complete beneficiation; there are means to pull away from the field on magnetite ultrahigh magnetic solenoid will be attracted to the ultra-high magnetic solenoid magnetite sand away, taken away from the field until magnetite sand mineral processing will free fall to the pool; initial velocity ore depends on a small sub-grid belt loop rotational speed; small clapboard push ore, ore in order for a limited distance, the reach of the belt running speed; distance and ultra-high magnetic belt between the electromagnetic coil is not meet the requirements of the recovery rate of ore.

[0102] 实施例6: 水车式履带刮矿砂选磁铁矿装置(图5) , 包括: 工作平台槽2、 水车式履带3、 皮带轮4、 超高磁电磁线圈5, 其特征还在于包括水车式隔板8。 [0102] Example 6: waterwheel crawler scraping magnetite ore selected device (Fig. 5), comprising: a working platform grooves 2, 3 paddlewheel track, pulleys 4, high magnetic electromagnetic coil 5, further characterized including paddlewheel separator 8.

[0103] 本实施例进一步设置为: 所述工作平台槽2, 呈槽状, 槽的大小和水车式隔板相对应, 安装在水车式履带3对面; 所述水车式履带3, 安装在两皮带轮4上, 在皮带轮4带动下循环转动; 所述水车式隔板8, 呈薄、 矮长方体, 横向固定在水车式履带3上; 所述电磁线圈5, 安装在磁铁矿沙喷射的过程中。 [0103] The present embodiment is further configured to: the working platform slot 2, slot-like form, size and groove corresponding paddlewheel separator mounted paddlewheel Track 3 opposite; the paddlewheel track 3, mounted on the two pulleys 4, at 4 driven pulley rotation cycle; the paddlewheel separator 8, was thin, short rectangular, laterally fixed on the paddlewheel track 3; the electromagnetic coil 5 mounted magnet mineral sands injection process.

[0104] 工作原理: 磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 电动机带动水车式履带, 水车式履带在两皮带轮间循环转动, 旋转式的给料装置将矿砂匀速在工作平台槽上冒出; 水车式隔板刮着矿砂向前运动, 矿砂在水车式履带转弯吋会惯性地射向前方, 穿过超高磁场, 完成选矿; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的初始速度, 取决于水车式履带的循环转动速度; 水车式隔板刮着矿砂, 才能让矿砂在有限的距离里, 达到水车式履带的运转速度; 工作平台槽, 校正了矿砂的运动方向; 水车式履带和超高磁电磁线圈之间的距离, 是回收没有达到要求速度和运动方向不正确的矿砂。 [0104] Principle: magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful to useless ore and ore division Jian the greater the force, the more likely to be useful ore elected; motor driven paddlewheel track paddlewheel track rotation cycle between the two pulleys, rotary feeding means uniform ore out on a working platform trough; water car moves forward bulkhead blowing ore, ore in water tankers track will habitually turn inch toward the front, through the ultra-high magnetic field, complete beneficiation; there ultrahigh magnetic solenoid will pull away from the field of magnetite means will be attracted to the ultra-high magnetic solenoid magnetite sand away until the magnetic field away from the magnetite sand mineral processing will free fall to the pool; initial velocity ore, depending on the paddlewheel rotation cycle track speed; paddlewheel separator blowing ore, ore in order for a limited distance, the reaches operating speed paddlewheel track; working platform trough, corrected the direction of movement of ore; paddlewheel track and ultra-high magnetic solenoid the distance between the recovery did not meet the requirements of speed and direction of movement incorrect ore.

[0105] 实施例7: 抛物面击矿砂式选磁铁矿装置(图6) , 包括: 电动机、 抛物面轮4 、 方向校正器5、 超高磁电磁线圈6, 其特征还在于包括抛物面齿3。 [0105] Example 7: parabolic type of magnetite ore blow means (6), comprising: a motor, parabolic wheel 4, the direction of corrector 5, ultrahigh magnetic solenoid 6, further characterized by comprising three teeth parabola.

[0106] 本实施例进一步设置为: 所述电动机, 是本系统的动力装置, 带抛物面轮4转动; 所述抛物面轮4, 在圆柱上安装带抛物面2的齿; 所述方向校正器5, 呈梯形筒, 空心宽的一面对准抛物面轮4, 窄的一面对准超高磁线圈6, 宽的一面的长度大于矿砂流宽度, 窄的一面长度等于矿砂流宽度; 所述超高磁电磁线圈6, 安装在方向校正器5后面, 磁铁矿沙流1快速运动的过程中; 所述抛物面齿3, 把齿轮的齿, 其中一侧不变, 另外一侧改成抛物面2, 即从底部到顶部改成呈抛物线的面。 [0106] The present embodiment is further configured to: the motor is a power unit of the system, with parabolic wheel 4; said paraboloid wheel 4 mounted on a cylindrical parabolic toothed belt 2; said direction corrector 5, trapezoidal cylindrical, hollow wide side aligned parabolic round 4, the narrow side of the alignment of ultrahigh magnetic coil 6, wide side of a length greater than the width of the ore stream, the narrow side of a length equal to the width of the ore flow; the ultrahigh magnetic electromagnetic coil 6, mounted at the rear direction corrector 5, magnetite sand process flow 1 fast movement; the parabolic 3, the gear teeth, the same one side, the other side into a parabolic 2, namely from bottom to top into a parabolic surface.

[0107] 工作原理: 磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 旋转式的给料装置将矿砂匀速地在抛物面轮上落下, 电动机带动下的抛物面轮的旋转过程中, 抛物面把下落的矿砂碰撞、 击打后, 改变矿砂呈水平方向运动, 矿砂也用新速度穿过超高磁磁场, 完成选矿; 矿砂的下降速度和抛物面轮的旋转速度匹配后, 达到超高磁选矿和选矿效率的要求; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的初始速度, 取决于抛物面轮的转动速度; 方向校正器, 校正了矿砂的运动方向。 [0107] Principle: magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful to useless ore and ore division Jian the greater the force, the more likely to be useful ore elected; rotary feed means uniform ore to fall on paraboloid wheel rotation paraboloid wheel driven by the electric motor, the parabolic falling ore collision, hit after changing the direction of the horizontal movement of ore, ore also passes through the magnetic field with the new ultra-high speed, complete dressing; after the rotational speed of the rate of decline in ore and parabolic round match, ultrahigh magnetic mineral processing and beneficiation efficiency requirements; ultrahigh there magnetite magnetic solenoid will pull away from the field device will be attracted to the ultra-high magnetic solenoid magnetite sand away until the magnetic field away from the magnetite sand mineral processing will free fall to the pool; ore initial speed, depending on the speed of rotation paraboloid wheel; direction corrector, corrected the direction of movement of ore.

[0108] 实施例8: 强风吹矿砂式选磁铁矿装置(图7) , 包括: 吹风口2、 方向校正器3 、 超高磁电磁线圈4, 其特征还在于强风带着磁铁矿砂流1快速从超高磁电磁线圈4上面穿过。 [0108] Example 8: strong wind magnetite ore type selected device (Fig. 7), comprising: a blowout port 2, direction corrector 3, ultra-high magnetic solenoid 4, further characterized by a strong wind with magnetic iron ore stream 1 from ultra-fast magnetic solenoid through 4 above.

[0109] 本实施例进一步设置为: 所述吹风口2, 呈扁的长方形, 吹出扁平的强风, 强风宽度大于等于磁铁矿沙流1宽度; 所述方向校正器3, 呈梯形筒, 空心宽的一面对吹风口2, 窄的一面对准超高磁电磁线圈4上面, 窄的一面的宽度也等于磁铁矿砂流的宽度; 所述超高磁电磁线圈4, 安装在强风带着磁铁矿沙流1快速运动的过程中; 所述强风带着矿砂流1快速从超高磁电磁线圈4上面穿过, 下落的磁铁矿砂流1到吹风口后, 在强风的带动下改变成水平运动, 也用新速度穿过超高磁电磁线圈4的上面。 [0109] The present embodiment is further configured to: the air outlet 2, Chengbian rectangular, flat, strong winds blow strong winds greater than a width equal to the width of magnetite sand flow 1; the direction corrector 3, trapezoidal cylinder, hollow wide a face air outlet 2, the narrower side of the magnetic alignment of the ultra-high above the electromagnetic coil 4, the width of the narrow side is also equal to the width of the flow of magnetic iron ore; the ultrahigh magnetic solenoid coil 4, installed in strong winds with magnetic sand iron ore process flow 1 fast movement; after the strong wind with a fast flow of ore from the ultra-high magnetic solenoid through 4 above, magnetic iron ore falling stream 1 to the air outlet, driven by the strong winds of change into a horizontal motion also through ultra-high magnetic solenoid 4 above with the new speed.

[0110] 工作原理: 磁铁矿沙流的速度越大, 矿砂的惯性就越大, 在超高磁中, 有用矿砂会改变惯性运动轨迹, 朝磁场方向大力移动, 这样有用矿砂和无用矿砂分幵的力就越大, 更容易把有用矿砂选出来; 旋转式的给料装置将矿砂匀速落在吹风口上, 吹风口的扁平强风吹动下落的矿砂, 改变矿砂呈水平方向运动, 经过方向校正器筛选, 矿砂用新速度穿过超高磁电磁线圈的上面, 完成选矿, 未通过方向校正器筛选的矿砂和没有达到要求速度和运动方向不正确的的矿砂, 重新通过系列设备回收, 又匀速落在吹风口上; 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 直到带离磁场, 磁铁矿沙就会自由下落到选矿池; 矿砂的新运动速度, 取决于吹风口风的强度。 [0110] Principle: magnetite sand flow velocity greater, the greater the inertia of ore in ultrahigh magnetic, the ore will be useful to change the trajectory of inertia toward the direction of the magnetic field to move vigorously, so useful to useless ore and ore division Jian the greater the force, the more likely to be useful ore elected; rotary feeding device will fall on the air outlet ore uniform, flat hair mouth of the strong wind and falling ore, ore horizontally to change the direction of movement, passing direction corrector screening, ore through the use of new ultra-high speed above the magnetic solenoid finish dressing, not direction corrector screening ore and did not meet the requirements of speed and direction of movement of ore through incorrect, through a series of re-recycling equipment, and uniform drop on the air outlet; have pulled away from the magnetite magnetic means, suction on the ultra-high magnetic solenoid magnetite sand away on ultrahigh magnetic solenoid away from the field until the magnetite sand will be free fall to the beneficiation pool; new ore velocity, air outlet depends on the strength of the wind.

[0111] 实施例9: 本发明喷嘴式超高磁选矿装置(图8 ) , 包括: 强风管1、 喷风嘴2 、 混料仓3、 喷管4、 扇形喷嘴5、 螺旋式给料装置6、 超高磁电磁线圈7、 磁铁矿沙8、 尾矿9、 隔板10、 料斗11, 其特征还在于喷风嘴2的强气流带着矿砂快速由扇形喷嘴5从超高磁电磁线圈7上面穿过。 [0111] Example 9: The present invention nozzle ultra-high magnetic beneficiation unit (Fig. 8), comprising: a strong wind pipe 1, spray nozzle 2, mixing positions 3, 4 nozzle, fan nozzle 5, the screw feeder means 6, high magnetic solenoid 7, 8 magnetite sand, tailings 9, separator 10, a hopper 11, further characterized by strong air jet nozzle 2 with ore from the fast fan nozzle 5 from ultrahigh magnetic 7 through the electromagnetic coil above.

[0112] [0112]本实施例进一步设置为: 所述强风管1, 连接喷风嘴2, 强风的入口; 所述喷风嘴2, 处在混料仓3内, 并和其一起运用文丘里原理带动螺旋式给料装置6 提供的矿砂作高速运动; 所述混料仓3, 上面连接螺旋式给料装置6, 让喷风嘴2 处在内部, 喷风的方向连接喷管4; 所述喷管4, 连接混料仓3和扇形喷嘴5; 所述扇形喷嘴5, 呈扇形, 连接喷管4, 扇形喷嘴5前方是超高磁电磁线圈7, 该扇形喷嘴5能将矿砂均匀的、 分散的、 快速的喷射过超高磁电磁线圈7; 所述超高磁电磁线圈7, 产生超高磁磁场; 所述螺旋式给料装置6, 一种连续、 均匀的给料装置。 [0112] [0112] The present embodiment is further configured to: the strong wind pipe 1 connected to the spray nozzle 2, the inlet strong wind; the spray nozzle 2, mixing in compartment 3, and together with its use venturi principle led to a spiral of ore feeding device 6 provides a high speed motion; direction of the mixing compartment 3, the above connecting screw feeder device 6, so that the spray nozzle 2 in the interior of the spray nozzle 4 connected to the wind ; the nozzle 4, 3 and connected to the mixing compartment fan nozzle 5; the fan nozzle 5, fan-shaped connecting nozzle 4, 5 in front of a fan nozzle ultrahigh magnetic solenoid 7, the fan nozzle 5 can ore uniform, decentralized, fast ultra-high magnetic solenoid injection through 7; the ultrahigh magnetic electromagnetic coil 7 to produce ultra-high magnetic field; the screw feeder device 6, a continuous, uniform feeding device .

[0113] [0113]工作原理: 强风通过强风管1从喷风嘴2喷出, 在混料仓3里运用文丘里原理, 和螺旋式给料装置6给的矿砂, 形成一个高速的矿砂流, 并顺着喷管4高速由扇形喷嘴6从超高磁电磁线圈7上面穿过, 完成选矿。 [0113] [0113] Principle: strong winds by strong winds Line 1 from the spray nozzle 2 is ejected in the mixing compartment 3 years using venturi principle, and screw feed device 6 for the ore to form a high-speed ore stream and down the nozzle 4 from the 6-speed ultra-high magnetic solenoid through the fan nozzle 7 above to complete the dressing.

[0114] [0114]实施例10: 本发明水中磁铁矿的旋转流灌式超高磁选矿装置(图9) , 包括: 入料管1、 动力系统2、 轴3、 旋转扇叶4、 选矿灌5、 尾澄出口6、 水中磁选机7、 精矿出口8, 其特征还在于它们组合。 [0114] [0114] Example 10: Water magnetite present invention, the rotary flow-fill ultrahigh magnetic mineral processing apparatus (Fig. 9), comprising: a feeding tube 1, the power system 2, 3-axis rotation of the blade 4, dressing filling 5, Cheng Mei outlet 6, the water separator 7, concentrate outlet 8, further characterized by a combination thereof.

[0115] [0115]本实施例进一步设置为: 所述入料管1, 位于选矿灌5底部旋转扇叶4的上面, 灌外接挖沙、 抽沙的管, 灌内喷出的矿砂流和选矿灌5内的流动方向一致; 所述动力系统2, 处于选矿灌5外, 和轴3的顶部连接; 所述轴3, 选矿灌5的中心, 顶部贯穿选矿灌5顶部, 并和动力系统2连接; 所述旋转扇叶4, 位于选矿灌5的下部, 固定在轴3的底端; 所述选矿灌5, 呈圆柱形, 选矿设备的主体; 所述尾澄出口6, 位于选矿灌5顶端, 其同选矿灌5连接部分的方向为选矿灌5圆周的切线; 所述水中超高磁选机7, 位于选矿灌5中段, 能在水中工作的具有超高磁场的磁选机, 含有精矿选出、 收集、 并排到选矿灌外的装置; 所述精矿出口8, 位置和水中超高磁选机7相配, 形状、 大小也和其把选出的精矿排到选矿灌5外的装置相配。 [0115] [0115] The present embodiment is further configured to: the feeding tube 1, located at the bottom of the rotating blades 5 beneficiation filling above 4 dredging external irrigation, pumping sand tube, filling and discharge of ore stream consistent with the direction of flow within the dressing filling 5; the power system 2, in the outer dressing filling 5, and the top of the shaft 3 is connected; the shaft 3, 5 dressing filling center, top, top 5 throughout the beneficiation irrigation and power systems and 2 connection; the rotating blades 4, located in the lower part 5 of irrigation dressing, fixed at the bottom end of the shaft 3; pour the dressing 5, form a cylindrical body, mineral processing equipment; the tail Cheng outlet 6, located beneficiation irrigation 5 top, filling it with the dressing direction connecting portion 5 of 5 beneficiation irrigation circumferential tangent; the ultra-high-water separator 7 is located in the middle of dressing filling 5, capable of operating in water with ultra-high magnetic separator, containing concentrate elect, collection, side by side to the outside of the dressing filling means; the concentrate outlet 8, location, and ultra-high-water separator 7 match, shape, size and also elected to concentrate its beneficiation discharged irrigation 5 external device match.

[0116] [0116]工作原理: 水中的磁铁矿沙流通过挖沙、 抽沙的管, 经过入料管喷入选矿灌内, 喷出的矿砂流和旋转扇叶转动融合形成新的旋转向上的矿砂流, 此吋选矿灌内的矿砂流产生一个旋转的向上推力, 含铁的矿砂重会往下坠, 不含铁的或者含铁少的矿砂就被推到顶部, 在旋转中进入到尾澄出口被排除; 推和坠在选矿灌的中部的某个位置形成一个相对平衡, 水中超高磁选机就安装在这个位置, 用自己含有的精矿选出、 收集、 并排到选矿灌外的装置, 进行选矿; 一次没有被水中超高磁选机选中, 只要磁铁矿砂还是在这个范围的灌边转动, 一次次经常水中超高磁选机就肯定会被选中; 磁铁矿沙没有在灌边, 会从灌的中间层落下, 落入灌的下层, 又会被旋转扇叶推上来到灌边上, 又会在中层这个范围的灌边转动, 再次给被水中超高磁选机选中的机会。 [0116] [0116] Principle: magnetite water flow through the sand dredging, pumping sand tubes, feeding tubes through spray irrigation in the selected mining, ore ejected stream and the rotating blades rotating fuse to form a new rotated upward ore flow, this ore beneficiation inch irrigation produces a rotational flow within the upward thrust, the iron ore will be heavy to fall, non-ferrous or less iron ore was pushed to the top, in the rotation into the end Cheng exports are excluded; pushed and fall in the middle of the dressing filling a position to form a relatively balanced, the water on the installation of ultra-high magnetic separator in this position, with their own elected concentrate containing collected, filling the outer side to beneficiation means beneficiation; once the water has not been selected ultra-high magnetic separator, magnetic iron ore or as long as the rotation in the range of irrigation side, again often ultra-high magnetic separator water will certainly be selected; no magnetite sand in irrigation side, will be filling the intermediate layer from falling, falling into the lower irrigation, will be rotating fan came onto the edge of the filling, will rotate in the middle of this range irrigation side, again to be ultra-high water separator select the opportunity.

[0117] [0117]实施例11 : 本发明排出大颗粒物体的倒仓装置(图10) , 包括: 倒仓1 、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器5、 排大颗粒缺口6, 其特征还在于它们的组合成球阀式架构。 [0117] [0117] Example 11: The present invention discharging large particles objects down the cartridge device (10), comprising: down bin 1, down warehouse rotator 2, sealed body 3, bottom of the container ramp 4, the container 5, row large particles gap 6, further characterized in that they are combined into a ball architecture. [0118] [0118]本实施例进一步设置为: 所述组合球阀式架构, 是倒仓转动体2和密闭体3形成一个倒仓转动体2可以转动的密封结构; 所述倒仓1, 位于倒仓转动体2 内, 呈矩形槽, 宽度和排大颗粒缺口6相对应, 长度、 深度和倒仓转动体2匹配; 所述倒仓转动体2, 呈圆柱体, 和密闭体3匹配, 在密封情况下可转动; 所述密闭体3, 凹园弧形, 和倒仓转动体2匹配; 所述容器底斜面4, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口6连接, 其余与容器壁连接; 所述容器5, 呈圆柱体; 所述排大颗粒缺口6, 呈长方形, 其长宽与倒仓1的长宽对应。 [0118] [0118] The present embodiment is further configured to: the combination valve-type structure, the rotary body 2 is inverted and the cartridge body 3 are formed hermetic seal structure 2 can be rotated back a body vessel to rotate; down the cartridge 1, is located Turning and rotating body 2, rectangular groove width and row of large particles corresponding notch 6, length, depth and inverted positions rotator 2 match; the inverted positions rotator 2, was cylindrical, and sealing body 3 matches in the case of a rotatable seal; the sealing body 3, concave circular arc, and inverted positions rotator 2 match; the bottom of the container ramp 4, bottom of the container was inclined plane, while the large particles and the discharge gap 6 is connected to the plane , connected to the rest of the container wall; the container 5, showing the cylinder; the large particles discharge gap 6, rectangular, its length and width corresponding to length and width of the inverted positions 1.

[0119] [0119]工作原理: 进入容器内的大颗粒, 由于太重, 容器内的质量大的大颗粒持续下落, 通过排大颗粒缺口落入倒仓内, 倒仓转动体转动180度, 将大颗粒排出在容器外, 完成作业; 倒仓转动体转回, 使倒仓对准排大颗粒缺口, 新的作业幵始。 [0119] [0119] Principle: large particles into the vessel, due to the heavy, massive large particles within the vessel continued to fall, by rows of large particles fall within the gap down warehouse, warehouse down the rotating body is rotated 180 degrees, the large particles discharged outside the container, to complete the job; inverted positions rotating body back so that inverted positions aligned row of large particle gap, starting a new job Jian.

[0120] [0120]实施例12: 本发明一种倒仓自动排出大颗粒矿砂的装置(图11) , 包括: 倒仓1、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器5、 排大颗粒缺口6、 传动结构9、 控制器10, 其特征还在于增加重量检测器8、 重量监测条7。 [0120] [0120] Example 12: The present invention is an inverted cartridge automatic discharge device large particles of ore (11), comprising: a warehouse down 1, down 2 positions rotary body, sealing body 3, the container bottom bevel 4, container 5, 6 rows of large particle gap, transmission structure 9, the controller 10, further characterized by an increase in weight detector 8, Article 7 weight monitoring.

[0121] 本实施例进一步设置为: 所述重量检测器8, 安装在重量监测条7上, 采集的信号连接控制器10; 所述重量监测条7, 安装在倒仓1底部, 重量监测条是由一个一个的重量检测器8排列组成; 所述倒仓1, 位于倒仓转动体2内, 呈矩形槽, 宽度和排大颗粒缺口6相对应, 长度、 深度和倒仓转动体2匹配; 所述倒仓转动体2 , 呈圆柱体, 和密闭体3匹配, 在密封情况下可转动; 所述密闭体3, 凹园弧形, 和倒仓转动体2匹配; 所述容器底斜面4, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口6连接, 其余与容器壁连接; 所述容器5, 容纳物体的器物; 所述传动结构9, 和倒仓转动体2连接, 接受控制器10指挥。 [0121] The present embodiment is further configured to: the weight detector 8 mounted on Article 7 weight monitoring, acquisition controller signal connection 10; Article 7 of the weight of the monitor, mounted on a bottom of the inverted positions, weight monitoring Article a it is a weight detector 8 arranged composition; the inverted bin 1, located in the inner vessel to rotate back 2, a rectangular groove, and the width of the discharge gap 6 corresponding to the large particles, the length, depth, and the rotation member 2 matches Turning and the bottom of the container ramp;; the inverted positions rotator 2, was cylindrical, sealing body 3 and matching rotatable in a sealed case; the sealing body 3, concave circular arc, and inverted positions rotator 2 matches 4, the bottom of the container was inclined plane, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, to accommodate objects of the object; the transmission structure 9, and inverted positions rotary body 2 is connected, the controller 10 accepts the command. 所述控制器10, 安装在容器5外,连接重量检测器8采集的信号, 在判断闭合的倒仓1已经装满吋, 指挥传动结构9工作, 传动结构9使倒仓转动体2转动。 The controller 10 is mounted outside the container 5, the detector 8 connected to the signal collected by weight, in determining the closed compartment 1 have been filled inverted inch, 9 work command transmission structure, so that the transmission structure 9 2 Turning and rotating the rotating body.

[0122] [0122]工作原理: 控制器10在接收重量检测条7采集的信号并判定大颗粒矿砂已经装满倒仓1吋, 指挥传动结构9工作, 带动倒仓转动体2转动, 从而倒仓1工作; 倒仓1倒去大颗粒矿砂后, 控制器10指挥传动结构9工作, 带动倒仓转动体2 转动, 从而倒仓1回位; 倒仓1回位后, 控制器10接收重量检测器8信号, 判断大颗粒矿砂的装填情况。 [0122] [0122] Principle: weight controller 10 receives the detection signal and Article 7 Acquisition of determination of large particles of ore have been filled positions down 1 inch, 9 command transmission structure work, driving down the vessel to rotate the rotary body 2, thereby down 1 warehouse work; and pour 1 warehouse Daoqu large particles of ore, the controller 10 drives the command structure 9 work to drive down warehouse rotator 2 is rotated, thereby down bin 1 return; return after the inversion warehouse 1, the controller 10 receives weight 8 signal detector determines large particles of ore loading conditions.

[0123] [0123]实施例13: 本发明水中控制大颗粒物体下落幵关的装置(图12) , 包括: 倒仓1、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器5、 排大颗粒缺口6, 其特征还在于增加导矿壁7、 幵关门板8、 幵关门轴9、 转动结构A10、 齿状杆11、 转动结构B12、 控制器13、 斜隔板14。 [0123] [0123] Example 13: Water the present invention to control the big particles falling objects Jian off means (12), comprising: down bin 1, down warehouse rotator 2, sealed body 3, bottom of the container ramp 4, the container 5 , large particles discharge gap 6, further characterized by an increase in on mine walls 7, Jian closing plate 8, Jian closed shaft 9 rotating structure A10, toothed rod 11, rotating structure B12, controller 13, inclined separator 14.

[0124] [0124]本实施例进一步设置为: 所述导矿壁7, 上面连接容器底斜面4, 下面连接密闭体3, 两导矿壁7的距离, 大于排大颗粒缺口6的宽度, 多出的空间好安装幵关门8、 齿状杆11、 转动结构A10、 转动结构B12; 所述幵关门板8, 固定在幵关门轴9上; 所述幵关门轴9, 安装在容器底斜面4和导矿壁7之间, 轴杆上固定幵关门板8, 轴9和转动结构A10连接; 所述转动结构A10, 和幵关门轴9连接, 接受控制器13指挥, 产生动力, 让幵关门板8抬起、 放下; 所述齿状杆11, 形状为齿状杆那么粗的齿轮加厚到齿状杆那么长, 安装在幵关门轴9对面的容器底斜面4和导矿壁7之间, 并和转动结构B12连接; 所述转动结构B12, 和齿状杆11一端连接, 接受控制器13指挥, 当幵关门板8和自己要闭合吋, 产生动力, 使齿状杆11逆吋针旋转, 闭合后停下; 所述斜隔板14, 上端位于齿状杆11和导矿壁7之间, 下端和密闭体3上端的位置一致, 对面幵关门板8下一样可以安装; 所述控制器13, 安装在容器5外, 当倒仓1工作吋, 指挥转动结构A10、 转动结构B12工作, 让幵关门板8和齿状杆11闭合; 所述倒仓1, 位于倒仓转动体2内, 呈矩形槽, 宽度和排大颗粒缺口6相对应, 长度、 深度和倒仓转动体2匹配; 所述倒仓转动体2, 呈圆柱体, 和密闭体3匹配, 在密封情况下可转动; 所述密闭体3, 凹园弧形, 和倒仓转动体2匹配; 所述容器底斜面4, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口6连接, 其余与容器壁连接; 所述容器5, 容纳物体的器物; 所述排大颗粒缺口6, 呈长方形, 其长宽与倒仓1的长宽对应。 [0124] [0124] The present embodiment is further configured to: the guide mine walls 7, inclined surface connecting the top end of the container 4, the following connection sealing body 3, the distance between the mine walls 7 of the guide, is larger than the width of the discharge gap 6 of the large particles, extra space to install Jian closed 8, 11, rotating structure A10, rotating structure toothed rod B12; Jian said closing plate 8 fixed Jian closed shaft 9; Jian closed the shaft 9 mounted in the container bottom bevel between 4 and 7 lead mine walls, on the shaft fixed Jian closing plate 8, and the rotating shaft 9 structures A10 connection; the rotating structure A10, and Jian closed shaft 9 is connected, the controller 13 accepts the command, to generate power, so Jian closing plate 8 up, down; the toothed rod 11, the shape of a toothed gear lever so thick thickened to toothed rod so long, mounted on the shaft 9 Jian closed across the bottom of the container and the guide ramp 4 mine walls 7 between, and B12 and the rotating structure; said rotating structure B12, and toothed rod 11 connected at one end to accept the command of the controller 13, when Jian closing plate 8 inches and they have to close, generating power, so that the lever 11 against the tooth inch needle rotation, after closing stop; the oblique baffle 14, located between the upper end 7 toothed rod 11 and the mine walls, and the lower end of the upper end of the sealing body 3 consistent position, opposite Jian closing plate 8 can be installed under the same; the controller 13 is mounted outside the container 5, when the work down bin 1 inch rotating command structure A10, B12 rotating structure work, so Jian closing plate 8 and the toothed rod 11 is closed; the inverted positions 1, located down warehouse rotating body 2, a rectangular groove, and the width of the discharge gap 6 corresponding to the large particles, the length, depth, and two matching Turning and rotator; inverted vessel to rotate the body 2 was cylindrical, and the matching sealing body 3, the sealing rotatable case; the sealing body 3, concave circular arc, and inverted positions rotator 2 match; the bottom of the container ramp 4, bottom of the container was inclined plane, while the large particles and the discharge gap plane 6 is connected, and the rest connected to the container wall; the container 5, to accommodate objects utensils; the large particles discharge gap 6, rectangular, its length and width corresponding to length and width of the inverted positions 1.

[0125] [0125]工作原理: 倒仓工作吋, 让控制器知道, 控制器指挥转动结构A、 转动结构B工作, 让幵关门板和齿状杆闭合; 当幵关门板快要和齿状杆闭合吋, 齿状杆呈逆吋针旋转, 推幵继续下落的大颗粒物体, 使闭合紧密, 完成闭合后停下; 当倒仓口全部进入密闭体吋, 指挥转动结构A、 转动结构B工作, 让幵关门板放下, 打幵闭合, 让大颗粒物体落下; 斜隔板起容器底斜面的作用, 让大颗粒物体顺利进入倒仓。 [0125] [0125] Principle: Working inch inverted cartridge, let the controller know that the command of the controller rotating structure A, B rotating structure work, so Jian closing plate and toothed rings are closed; when the plate is about to close and Jian toothed rod closed inch toothed rod an inverse-inch needle rotation, object push Jian large particles continue to fall, so tightly closed, after the completion of the closing stop; when the inverted positions in all entered the closed-inch body, rotating command structure a, B rotating structure work let Jian closed down the plate, hit Jian closed, so that large particles falling objects; the role of the container from the bottom bevel helical separator, so that large particles fall into the object smoothly warehouse.

[0126] [0126]实施例14: 本发明预留一次倒仓大颗粒物体容量的装置(图13) , 包括: 倒仓1、 倒仓转动体2、 密闭体3、 容器底斜面4、 容器5、 排大颗粒缺口6、 导矿壁7、 幵关门板A8, 幵关门轴A9, 转动结构A10, 齿状杆Bl l, 转动结构B12 , 控制器13、 斜隔板14、 幵关门板C15、 幵关门轴C16,转动结构C17,齿状杆D18, 转动结构D19, 重量监测条20、 重量检测器21、 横隔板22, 其特征还在于判定幵关门15已积累了一倒仓1容量的大颗粒后, 停止大颗粒继续添加。 [0126] [0126] Example 14: The present invention is a device down the reserve warehouse capacity of large particles object (Figure 13), comprising: a warehouse down 1, down 2 positions rotary body, sealing body 3, the container bottom bevel 4, container 5, 6 rows of large particle gap, guide mine wall 7, Jian closing plate A8, Jian closed axis A9, rotating structure A10, toothed rod Bl l, rotating structure B12, controller 13, inclined baffle 14, Jian closing plate C15 , Jian closed shaft C16, rotating structure C17, toothed rod D18, rotating structure D19, weight monitoring Article 20, the weight detector 21, the crossbeam 22, further characterized in that determination Jian closed down 15 has accumulated a warehouse capacity 1 after large particles, large particles continue to add stops.

[0127] [0127]本实施例进一步设置为: 所述倒仓1, 位于倒仓转动体2内, 呈矩形槽, 宽度和排大颗粒缺口6相对应, 长度、 深度和倒仓转动体2匹配; 所述倒仓转动体2, 呈圆柱体, 和密闭体3匹配, 在密封情况下可转动; 所述密闭体3, 凹园弧形, 和倒仓转动体2匹配; 所述容器底斜面4, 容器底呈倾斜的平面, 平面的一边与排大颗粒缺口6连接, 其余与容器壁连接; 所述容器5, 容纳物体的器物; 所述排大颗粒缺口6, 呈长方形, 其长宽与倒仓1的长宽对应; 所述导矿壁7, 上面连接容器底斜面4, 下面连接密闭体3, 两导矿壁7的距离, 大于排大颗粒缺口6的宽度; 所述幵关门板A8, 固定在幵关门轴A9上; 所述幵关门轴A9, 安装在容器底斜面4和导矿壁7之间, 轴杆上固定幵关门板A8, 幵关门轴A9和转动结构A10连接; 所述转动结构A10, 和幵关门轴A9连接, 接受控制器13指挥, 让幵关门板A8抬起、 放下; 所述齿状杆Bl l, 形状为齿状杆那么粗的齿轮加厚到齿状杆那么长, 安装在幵关门轴A9对面的容器底斜面4和导矿壁7之间, 并和转动结构B 12连接; 所述转动结构B12, 和齿状杆B11—端连接, 接受控制器13指挥, 当幵关门板A8和齿状杆B11要闭合吋, 带动齿状杆B11作逆吋针旋转, 闭合后停下; 所述控制器13, 安装在容器5外,连接重量检测器21采集的信号, 在判断闭合的幵关门板C15已经装满倒仓的容量吋, 指挥幵关门板A8闭合; 所述斜隔板14, 斜隔板的上端位于齿状杆和导矿壁7之间, 下端不超出密闭体3上端的位置, 对面幵关门板下一样可以安装; 所述横隔板22, 呈长方体, 一端和导矿壁7连接并处在导矿壁7的中部; 另一端不超过排大颗粒缺口6, 其下面连接幵关门轴C16; 所述幵关门板C15、 固定在幵关门轴C16上; 所述幵关门轴C16,安装在横隔板22的下面、 导矿壁7的中部, 和转动结构C17连接; 所述转动结构C17,和幵关门轴C16连接, 接受控制器13指挥, 让幵关门板C15抬起、 放下; 所述齿状杆D18,形状、 大小和所述齿状杆B11—样, 安装在横隔板22下面, 与对面的幵关门板C15、 幵关门轴C16相对应; 所述转动结构D19, 和齿状杆D18—端连接, 接受控制器13指挥, 当幵关门板C15和齿状杆D18要闭合吋, 带动齿状杆D18作逆吋针旋转, 闭合后停下所述重量检测器21, 安装在幵关门板C15上, 采集的信号连接控制器13 ; 所述重量监测条20, 安装在幵关门板C15上, 重量监测条20是由一个一个的重量检测器21排列组成。 [0127] [0127] The present embodiment is further configured to: the inverted positions 1, located down bin rotating body 2, rectangular groove width and row of large particles corresponding notch 6, length, depth and inverted positions rotator 2 match; the inverted positions rotator 2, was cylindrical, sealing body 3 and matching rotatable in a sealed case; the sealing body 3, concave circular arc, and inverted positions rotator 2 match; the container bottom ramp 4, bottom of the container was inclined plane, while the large particles and the discharge gap plane 6 is connected, is connected to the rest of the container wall; the container 5, to accommodate objects of the object; the discharge gap 6 large particles, rectangular, its length down bin width and length and width corresponding to 1; the lead mine walls 7, connecting ramps above the container bottom 4, the following connection sealing body 3, the distance between two lead mine wall 7 is greater than the gap width of the discharge of large particles 6; said Jian closing plate A8, fixed Jian closed shaft A9; Jian closed the A9 axis, is mounted between the bottom of the container and the guide ramp 4 mine wall 7, on the shaft fixed Jian closing plate A8, A9 and Jian closed axis rotating structure A10 ; said rotating structure A10, A9 and Jian closed shaft connected to the controller 13 accepts the command, let Jian closing plate A8 up, down; the toothed rod Bl l, the shape of a toothed gear lever so thick thickening between 7 and B 12 and the rotary structure connected to the toothed rod so long, mounted on the opposite axis A9 Jian closed container bottom 4 and a guide ramp mine walls; the rotating structure B12, B11- and toothed rod end, accept the command controller 13, when Jian closed toothed bar plate A8 and B11 to close the inch drive toothed rod B11 for reverse-inch needle rotation, after closing stop; the controller 13 mounted on the container 5, the connection weight acquisition signal detector 21, it is determined that a closed plate C15 Jian closed down warehouse capacity has been filled with inch plate A8 command Jian closed closed; the slant separator 14, the upper end of the separator located obliquely toothed rod and lead mine between the wall 7, the lower end of the closed position does not exceed the upper end of the body 3, Jian closed lower across the board as can be installed; the transverse bulkhead 22, was rectangular, one end of the mine and the guide wall 7 is connected and is in the middle of the guide mine walls 7 ; the other end of the row of large particles does not exceed 6 notches, following its close connection Jian axis C16; Jian said closing plate C15, fixed Jian closed shaft C16; Jian closed the shaft C16, mounted beneath the crossbeam 22, central lead mine walls 7, and rotational structure C17 connector; the rotating structure C17, C16 and Jian closed shaft connected to the controller 13 accepts the command, let Jian closing plate C15 up, down; the toothed rod D18, shape size and the toothed rod B11- sample mounted on the crossbeam 22 below, and opposite Jian closing plate C15, C16 corresponding axis Jian closed; the rotating structure D19, and D18- toothed rod end, accept the command controller 13, when Jian closed toothed bar plate C15 and D18 to be closed inch drive toothed rod D18 for reverse-inch needle rotation stopped after the closing of the weight detector 21, mounted on the closing plate C15 Jian, the controller 13 connected to the signal acquisition; monitoring the weight bar 20, mounted on the closing plate Jian C15, strip 20 is monitored by the weight of a a weight sensor 21 arranged components.

[0128] [0128] [0128] [0128]

工作原理: 控制器在接收重量检测条采集的信号并判断闭合的幵关门板C的上面已经装满倒仓的容量吋, 指挥转动结构A工作, 带动幵关门轴A转动, 从而让幵关门板A和齿状杆B闭合, 当幵关门板A和齿状杆B要闭合吋, 控制器指挥转动结构B带动齿状杆B作逆吋针旋转, 闭合后停下, 控制器指挥转动结构C工作, 带动幵关门轴C转动, 从而放下幵关门板C, 幵关门板C上预存的大颗粒物体, 落入导矿壁内, 便于倒仓回位吋, 马上就能落入, 倒仓也立刻可以工作; How it works: The above controller receives signals collected weight of test strips and determine closed Jian closing plate C has full capacity down bin inch rotating command structure A work, led Jian closed rotation axis A, so that the closing plate Jian A and B closed toothed rod, when Jian closed panels A and B to be closed inch toothed rod controller command structure B driven toothed rotating lever B as reverse-inch needle rotation stopped after the closure, the controller command rotating structure C work, led Jian closed shaft C is rotated so that plates C closed down Jian, Jian granular objects stored on the closing plate C, falls within the guide mine wall to facilitate the return-inch inverted cartridge immediately be able to fall, down warehouse also It can immediately work;

[0129] [0129]倒完幵关门板C上的大颗粒物体, 控制器指挥转动结构C工作, 带动幵关门轴C转动, 从而让幵关门板C和齿状杆D闭合, 当幵关门板C和齿状杆D要闭合吋, 控制器指挥转动结构D带动齿状杆D作逆吋针旋转, 闭合后停下; 控制器指挥转动结构A工作, 带动幵关门轴A转动, 从而放下幵关门板A,让大颗粒物体落下; 当控制器在接收重量检测条采集的信号并判断闭合的幵关门板C的上面已经装满倒仓的容量吋, 指挥幵关门板A和齿状杆B闭合, 当幵关门板A和齿状杆B要闭合吋, 控制器指挥转动结构B带动齿状杆B作逆吋针旋转, 闭合后停下; 斜隔板起容器底斜面的作用, 让大颗粒物体顺利进入导矿壁和倒仓。 [0129] [0129] emptied large particle object Jian closing plate C on the command of the controller work rotating structure C, C drive Jian closed shaft is rotated, so that the closing plate Jian C and D closed toothed rod, when Jian closed board C and D to a closed-inch toothed rod, rotating command of the controller structure D driven toothed rod D for reverse-inch needle rotation, after the closing stop; command of the controller work A rotating structure, led Jian closed axis of rotation A, which lay down Jian a closing panel, so that large particles falling objects; when the controller receives the above signals collected by weight of the test strip and judges closed Jian closing plate C has full capacity down bin inch, commanding Jian closed toothed plate a and lever B closed, when Jian closed toothed plate and rod B to close the inch, the controller command structure B driven toothed rotating lever B as reverse-inch needle rotation, after closing stop a; oblique bottom of the container ramps from the separator, so big particles object smoothly into the lead mine walls and inverted positions.

[0130] [0130]实施例15: 本发明一种增加人工智能的水中磁铁矿超高磁选矿装置, 包括: 水中磁铁矿螺旋式超高磁选矿装置、 倒仓自动工作装置、 矿砂下落幵关装置、 预留一次倒仓大颗粒矿砂容量装置、 粉碎装置、 磨粉装置、 传动矿砂流装置, 其特征还在于增加人工智能。 [0130] [0130] Example 15: The present invention is a method for increasing artificial water ultrahigh magnetic magnetite beneficiation apparatus comprising: a water spiral ultrahigh magnetic magnetite beneficiation equipment, automatic warehouse down the work equipment, ore whereabouts Jian Guan means to reserve a warehouse down large particles of ore capacity means crushing device, milling device, transmission ore flow apparatus further characterized increased artificial intelligence.

[0131] [0131]本实施例进一步设置为: 所述增加人工智能, 就是由增加的人工智能来控制、 监督、 处理各设备自己的工作状态, 以及设备之间的配合状态, 达到整体设备的平稳高效运转; 所述水中磁铁矿螺旋式超高磁选矿装置, 是一种利用重力原理, 灌内失速的磁铁矿沙往下降, 刚抽入的海沙流呈螺旋式上升, 相互作用, 不含磁铁的海沙由于比较轻, 被上升到选矿灌的顶部, 从尾矿口排出, 比较重的磁铁矿沙大致停滞在选矿灌中部, 由超高磁选矿机选矿的装置; 所述倒仓自动工作装置, 在水中磁铁矿螺旋式超高磁选矿的过程中, 颗粒大了, 螺旋式上升流和旋转扇叶扇不起来, 大颗粒海沙会下沉到灌底, 把它们自动排出到灌外的装置; 所述矿砂下落幵关装置, 控制大颗粒海沙下落和不下落到倒仓内的装置; 所述预留一次倒仓大颗粒矿砂容量装置, 预留一次倒仓容量的大颗粒海沙, 便于倒仓加快工作速度; 所述粉碎装置, 把大颗粒海沙粉碎成选矿用大小规格的装置; 所述磨粉装置, 把选出来的磁铁矿沙, 磨成100目大小, 好进入高品位精选装置; 所述传动矿砂流装置, 增加动力, 保持矿砂流、 海沙流流速的装置。 [0131] [0131] The present embodiment is further configured to: the increase in artificial intelligence, is caused by increased artificial intelligence to control, supervise and coordinate the processing status of each device its own working conditions, as well as between devices, to achieve the overall device smooth and efficient operation; the water spiral ultrahigh magnetic magnetite beneficiation equipment, gravity is a principle, within the irrigation stall magnetite sand going down, just drawn in the sand spiraling flow, interaction, free of sand due to the relatively light magnet is raised to the top of the dressing irrigation, tailings discharged from the mouth, heavier magnetite beneficiation filling sand roughly stagnated in the middle, from ultra-high magnetic concentrator beneficiation means; the Turning and automatic working device, in the water spiral ultrahigh magnetic magnetite beneficiation process, large particles, the spiral flow and the rotating fan blades up, large particles will sink into the sand filling the bottom, put them automatically discharged to the outside of the filling means; the ore whereabouts Jian Guan means for controlling large particles and sand falling down means no less fall within the warehouse; the reserved time positions down large particles of ore capacity means inverted positions once reserved capacity of large particles of sand, easy to pour warehouse work faster; the pulverizing means, the large particles pulverized into sand beneficiation by means of sizes; the milling apparatus, the elected magnetite sand, ground 100 mesh size, good access to high-grade selection of equipment; ore flow means the transmission, increase power to maintain the flow of ore, sand flow velocity means.

[0132]工作原理: 第一个选矿工序: 海沙抽起来后, 进入水中磁铁矿螺旋式超高磁选矿装置, 喷出的海沙流和旋转扇叶转动融合形成新的旋转向上的矿砂流, 此吋选矿灌内的海沙流产生一个旋转的向上推力, 含铁的海沙重会往下坠, 不含铁的或者含铁少的海沙就被推到顶部, 在旋转中进入到尾澄出口被排除; 推和坠在选矿灌的中部的某个位置形成一个相对平衡, 水中超高磁选机就安装在这个位置, 用自己含有的磁铁矿选出、 收集、 并排到选矿灌外的装置, 进行选矿; 一次没有被水中超高磁选机选中, 只要海沙还是在这个范围的灌边转动, 一次次经常流到水中超高磁选机旁就肯定会被选中; 海沙没有在灌边, 会从灌的中间层落下, 落入灌的下层, 又会被旋转扇叶推上来到灌边上, 又会在中层这个范围的灌边转动, 再次给被水中超高磁选机选中的机会; 螺旋式上升流的快慢是有海沙的普片大小来决定的, 海沙大点就快些, 不然正常的铁矿砂流不到超高磁磁选机, 海沙小点就慢些, 不然正常的铁矿砂会从尾矿出口流走; 石头、 大颗粒海沙由于重, 选矿灌内的矿砂流产生一个旋转的向上推力把它推不到水中超高磁选机面前, 不能被选, 更不用说推到尾矿出料口被排出, 掉下后又不能被旋转扇叶扇起来, 继续下落, 通过排大颗粒缺口落入倒仓内, 控制器在接收重量检测条采集的信号并判定大颗粒矿砂已经装满倒仓吋, 指挥传动结构工作, 带动倒仓转动体转动, 从而倒仓工作; 倒仓倒去大颗粒矿砂后, 控制器指挥传动结构工作, 带动倒仓转动体转动, 从而倒仓回位; 倒仓回位后, 控制器接收重量检测器信号, 判断大颗粒矿砂的装填情况; 再运用预留一次倒仓大颗粒矿砂容量装置, 使倒仓工作吋已经又在积累, 回位后, 迅速将预留的一次倒仓容量的大颗粒矿砂, 倒入倒仓, 加快排出石头、 大颗粒海沙; [0132] How it works: The first beneficiation process: after pumping up the sand into the water spiral ultrahigh magnetic magnetite beneficiation equipment, blown sand flow and fuse to form a new rotation of the rotating fan rotation upward stream of ore , this flow of sand filling inch beneficiation production within a rotating upward thrust, weight sand iron will to fall, no iron or iron-containing less sand was pushed to the top, in the rotation into the tail Cheng exports are excluded; pushed and fall in the middle of the dressing filling a position to form a relatively balanced, the water on the installation of ultra-high magnetic separator in this position, with their own elected contain magnetite, collection, filling the outer side to beneficiation means beneficiation; once the water has not been ultra-high magnetic separator selected, as long as the rotation of the sand or in the range of irrigation side, next to the water flowing again often ultrahigh magnetic separator will certainly be selected; no sand in the filling side, will be filling the intermediate layer from falling, falling into the lower irrigation, will be rotating fan came onto the edge of the filling, will rotate in the middle of this range irrigation side, again to be ultra-high water separator machine selected opportunity; speed spiral stream of ordinary sand sheet is to determine the size of a large sand point faster, or less than the normal flow of iron ore ultra-high magnetic separator, sand dots slow down, or normal iron ore exports will flow away from the tailings; stone, sand particles due to the large heavy mineral sands, mineral filling inside a rotating flow generating upward thrust to push it in water less than ultrahigh magnetic separator before, it can not be selected, let alone push to tailings discharge port is discharged, after falling fan blades can not be rotated up and continue to fall through the discharge gap large particles fall within the inverted positions, the controller at the receiving weight detect acquisition of signal bars and determination of large particles of ore have been filled inverted positions inch drive command structure to work to drive down warehouse rotational body rotated so down warehouse work; and pour warehouse Daoqu large ore particles, the controller command transmission structure work, drive down bin rotating body is rotated so that the return inverted positions; inverted positions after the return, the controller receives the weight of the detector signals to determine the loading case of large particles of ore; then use inverted positions once reserved for large particles ore capacity means so down warehouse work in inches and has accumulation, return after a back warehouse capacity will be reserved for large particles of ore quickly, pour into the warehouse, speed up the discharge of stone, large particle sand;

[0133] [0133]第二个选矿工序: 从第一个选矿工序出来的, 有三样东西, 大颗粒、 磁铁矿沙、 尾矿; 大颗粒, 如果有选矿的必要就进行粉碎, 粉碎后通过传动矿砂流装置, 再进入第一个选矿工序, 进行选矿; 没有必要就进入装海沙的仓内填礁用; 磁铁矿沙, 半成品, 可以出售或运到磁铁矿精选厂精选; 马上精选就进入磨粉装置; 尾矿, 里面含有颗粒较小的磁铁矿沙, 需要选就再进入一个水中磁铁矿螺旋式超高磁选矿装置, 只是矿砂流的速度要慢些, 有利于选矿; 并且按海沙的大小规格, 进入不同矿砂流速度的水中磁铁矿螺旋式超高磁选矿装置; 针对规格越细的水中磁铁矿螺旋式超高磁选矿装置, 选出来的磁铁矿品位越高; 尾矿就进入装海沙的仓内填礁用; [0133] [0133] The second step of dressing: From the first step out of the dressing, there are three things, the large particles, magnetite sand, tailings; large particles, if necessary on beneficiation crushed, crushed ore flow via a transmission device, and then into the first step of beneficiation, beneficiation; fill reef within no need to enter the warehouse loaded with sand; magnetite sand, semi-finished products can be sold or shipped to magnetite fine selection of factory election; selection immediately entered milling apparatus; tailings, which contains smaller particles of magnetite sand, would no longer need to choose to enter a spiral water ultrahigh magnetic magnetite beneficiation equipment, ore flow velocity only slowly more conducive to beneficiation; and according to the size specifications of sand, into the water spiral ultrahigh magnetic magnetite beneficiation ore means different flow speeds; finer specifications for ultra-high magnetic spiral water magnetite beneficiation equipment, the election fill the inner reef sand tailings entered the warehouse loaded with; out of the higher grade magnetite;

[0134] [0134]第三个选矿工序是精选: 把第一个选矿工序、 第二个选矿工序中水中磁铁矿超高磁选矿机选出来的磁铁矿沙, 进入磨粉装置, 研磨成100目的矿粉, 再进入只针对100目的水中磁铁矿螺旋式超高磁选矿装置, 进行选矿, 出来的产品, 就应该是含量为60%以上的磁铁矿精粉了。 [0134] [0134] The third step is the selection of dressing: the first beneficiation process, the second step in water beneficiation of magnetite concentrator ultrahigh magnetic elected magnetite sand into the milling apparatus, slag ground to 100 mesh, 100 mesh and then into the water only for ultra-high magnetic beneficiation of magnetite spiral means beneficiation, out of the product, it should be an amount of 60% or more of the magnetite powder.

[0135] 实施例16: —种磁铁矿的超高磁选矿装置, 其特征还在于增加超声波。 [0135] Example 16: - kind of ultra-high magnetic magnetite beneficiation equipment, further characterized in that ultrasound increases.

[0136] 本实施例进一步设置为: 所述超声波, 安装在矿砂的运动过程中, 其波作用于超高磁选矿结束之前。 [0136] The present embodiment is further configured to: the ultrasonic mounted ore movement, its wave ultra-high magnetic beneficiation before the end.

[0137] 工作原理: 在超声波的轰击下, 小颗粒之间的粘连就要受到打击, 使其粘连受到不同程度的损伤甚至被打断, 那么利用超声波的这个特性来轰击磁铁矿沙, 尽量把磁铁矿沙间的粘连打断, 让超高磁最大限度的将磁铁矿沙中的非需要成分的颗粒和需要的矿砂颗粒分幵, 把非需要矿砂颗粒除去, 提高矿砂品位。 [0137] works: ultrasonic bombardment, adhesions between the small particles would hit so adhesions are subject to different degrees of damage or even be interrupted, then use this feature to ultrasonic bombardment magnetite sand, as far as possible the adhesion between magnetite sand interrupted, so that the ultra-high magnetic magnetite sand particles will maximize the non-required components and the required points Jian ore particles to remove undesired ore particles to improve the ore grade.

[0138] 实施例17: 本发明一种传送带式超高磁场选磁铁矿装置(图14) , 包括: 磁铁矿沙(1) 、 皮带(3) 、 皮带轮(2) 、 超高电磁线圈(4) , 其特征还在于增加了超声波(5) 。 [0138] Example 17: The invention provides a conveyor-type ultra-high magnetic field of magnetite means (14), comprising: magnetite sand (1), the belt (3), the pulley (2), high electromagnetic coil (4), further characterized in that the ultrasonic wave increases (5). [0139] [0139]本实施例进一步设置为: 所述磁铁矿沙流(1) , 是众多的磁铁矿沙组成的运动体; 所述皮带(3) , 在皮带轮(2) 的带动下, 于两皮带轮(2) 间循环转动, 把落在上面的磁铁矿沙流(1) 加速; 所述皮带轮(2) , 是皮带(3) 循环转动的动力源; 所述超高电磁线圈(4) , 安装在磁铁矿沙流(1) 的运动过程中, 超高电磁线圈(4) 导电后发出的超高磁场, 超高磁场作用于磁铁矿沙流(1) ; 所述增加超声波(5) , 安装在矿砂流(1) 的运动过程中, 在超高磁选矿结束之前对被选的矿砂流(1) 轰击。 [0139] [0139] The present embodiment is further configured to: the magnetite sand flow (1), the moving body is composed of a large number of magnetite sand; under the belt (3), driven pulley (2) , in the two pulleys (2) between the rotation cycle, the above magnetite sand falling stream (1) acceleration; the pulley (2), a belt (3) rotation cycle of the power source; the ultrahigh solenoid ( 4) mounted on magnetite sand flow (1) of the movement, the ultra-high magnetic field ultrahigh electromagnetic coil (4) conducting issued after ultra-high magnetic field acts on the magnetite sand flow (1); the increase of ultrasound ( 5), mounted on the ore flow (1) of the movement, before the end of the ultra-high magnetic beneficiation of the ore being selected flow (1) bombardment.

[0140] [0140]工作原理: 在传送带式超高磁场选磁铁矿装置的超高磁场选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连打断, 在超高磁场中, 不含磁铁的颗粒在惯性作用下, 顺利穿过磁场, 而含磁铁的矿沙会因为超高磁场的作用, 而被吸引改变运动轨迹, 从而达到把非需要成分的颗粒尽量除去, 提高矿砂品位。 [0140] [0140] How it works: Before the end of the conveyor-type ultra-high magnetic field apparatus selected magnetite beneficiation ultrahigh magnetic field, and then the magnetite sand bombardment by the ultrasound, the composition of the ore particles and non-required components needed particle adhesion interrupted in the ultra-high magnetic field, the particles contain magnets in the inertia smoothly through the magnetic field, and the magnet containing sand mining because of the role of ultra-high magnetic field, are attracted to change trajectory, so as to achieve the particles of non-required component removing as much as possible, to improve the ore grade.

[0141] [0141]实施例18: —种有小分格的皮带选磁铁矿装置(图15) , 包括: 有小分格的皮带选磁铁矿装置, 其特征还在于包括增加了超声波10。 [0141] [0141] Example 18: - kind of a small sub-grid belt of magnetite means (15), comprising: a small sub-grid belt of magnetite apparatus further characterized by an increase of ultrasound 10.

[0142] 本实施例进一步设置为: 所述有小分格的皮带选磁铁矿装置, 是由有小分格的皮带3、 电动机、 皮带轮2、 超高磁电磁线圈4组成的; 所述超声波10, 安装在矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击。 The small sub-grid belt of magnetite means ruled by a small belt 3, motors, pulleys 2, 4 ultra-high magnetic electromagnetic coil consisting of; a: [0142] This example further set ultrasonic 10, installed in the ore movement, before the end of the ultra-high magnetic beneficiation of the ore being selected bombardment.

[0143] 工作原理: 在有小分格的皮带选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 [0143] Principle: in a small dressing process selected magnetite ruled belt apparatus, the front end of its ultra-high magnetic beneficiation segment, and then the magnetite sand bombardment by the ultrasound, the component particles of the ore needs and non-required component particles blocking interrupted in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.

[0144] 实施例19: 一种水车式履带刮矿砂选磁铁矿装置(图16) , 包括: 水车式履带刮矿砂选磁铁矿装置, 其特征还在于增加了超声波11。 [0144] Example 19: one paddlewheel track selected magnetite ore scraping device (16), comprising: a waterwheel crawler scraping election magnetite ore apparatus further characterized in that the ultrasound increased 11.

[0145] 本实施例进一步设置为: 所述水车式履带刮矿砂选磁铁矿装置, 由工作平台槽 [0145] The present embodiment is further configured to: track the paddlewheel election magnetite ore scraping device, the working platform groove

2、 水车式履带3、 电动机、 皮带轮4、 超高磁电磁线圈5组成; 所述超声波11, 安装在矿砂流1的运动过程中, 在超高磁选矿结束之前对被选的矿砂流1轰击。 2, track 3 water tankers, motors, pulleys 4, 5 composed of ultra-high magnetic electromagnetic coil; the ultrasonic 11, installed in the ore flow movement 1, before the end of the ultra-high magnetic beneficiation of the ore stream 1 is selected bombardment.

[0146] 工作原理: 在水车式履带刮矿砂选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 [0146] How it works: Before beneficiation process water tankers crawler scraping magnetite ore selected device, with their ultra-high magnetic beneficiation segment ends, then by ultrasound on magnetite sand bombardment, the required ingredient particles in the ore and non-required component particle adhesion try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.

[0147] 实施例20: —种抛物面击矿砂式选磁铁矿装置(图17) , 包括: 抛物面击矿砂式选磁铁矿装置, 其特征还在于增加了超声波11。 [0147] Example 20: - kind of parabolic type of magnetite ore blow means (17), comprising: a parabolic type of magnetite ore blow means, further characterized in that the ultrasound increased 11.

[0148] 本实施例进一步设置为: 所述抛物面击矿砂式选磁铁矿装置, 由电动机、 抛物面轮4、 抛物面2、 抛物面齿3、 方向校正器5、 超高磁电磁线圈6组成; 所述超声波11, 安装在磁铁矿砂流1的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流1轰击。 [0148] The present embodiment is further configured to: type of magnetite ore strike the parabolic means, by the motor, a parabolic wheel 4, two parabolic, the parabolic tooth 3, the direction corrector 5, the electromagnetic coil 6 ultrahigh magnetic composition; the the ultrasound 11, installed in the magnetic iron ore flow during exercise 1, before the end of the ultra-high magnetic magnetic iron ore beneficiation flow 1 is selected bombardment.

[0149] 工作原理: 在抛物面击矿砂式选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 [0149] How it works: ore beneficiation process hit a parabolic type of magnetite apparatus, the front end of its ultra-high magnetic beneficiation segment, and then the magnetite sand bombardment by the ultrasound, the needs of the ore particles and non-required components particle adhesion ingredient try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.

[0150] 实施例21: —种强风吹矿砂式选磁铁矿装置(图18 ) , 包括: 强风吹矿砂式选磁铁矿装置, 其特征还在于包括增加了超声波9。 [0150] Example 21: - kind of strong winds formula selected from magnetite ore means (18), comprising: a strong wind of magnetite ore type apparatus further characterized by an increase of 9 ultrasound.

[0151] 本实施例进一步设置为: 所述强风吹矿砂式选磁铁矿装置, 由吹风口2、 方向校正器3、 超高磁电磁线圈4组成; 所述超声波9, 安装在磁铁矿砂流1的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流1轰击。 [0151] The present embodiment is further configured to: the strong wind of magnetite ore type apparatus, the air outlet 2, the direction corrector 3, 4 electromagnetic coil ultrahigh magnetic composition; the ultrasonic 9, installed in a magnetic iron ore flow movement 1, before the end of the ultra-high magnetic magnetic iron ore beneficiation flow 1 is selected bombardment.

[0152] 工作原理: 在强风吹矿砂式选磁铁矿装置的选矿过程里, 其超高磁场段选矿结束前抛物面击矿砂式选磁铁矿装置, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒除去, 提高矿砂品位。 [0152] How it works: In strong winds formula selected from magnetite ore beneficiation process in the apparatus, before the end of its ultra-high magnetic beneficiation segment hit parabolic type of magnetite ore unit, then by ultrasound on magnetite sand bombardment, the the ingredient particles ore needs and the needs of non-blocking component particles try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing and improve ore grade.

[0153] 实施例22、 一种喷嘴式超高磁选矿装置(图19) , 包括: 喷嘴式超高磁选矿装置, 其特征还在于增加了超声波。 [0153] Example 22 An ultra-high magnetic beneficiation nozzle means (19), comprising: a nozzle ultra-high magnetic beneficiation apparatus, further characterized in that the ultrasonic wave increases.

[0154] [0154]本实施例进一步设置为: 所述喷嘴式超高磁选矿装置, 由强风管、 喷风嘴、 混料仓、 喷管、 扇形喷嘴、 螺旋式给料装置、 超高磁电磁线圈、 磁铁矿沙 Spray nozzle, mixing compartment, nozzle, fan nozzle, screw feeding device type ultrahigh magnetic beneficiation said nozzle means from strong wind pipe, high: [0154] [0154] This example further set magnetic solenoid, magnetite sand

、 尾矿、 隔板、 料斗组成; 所述超声波, 安装在磁铁矿砂流的运动过程中, 在超高磁选矿结束之前对被选的磁铁矿砂流轰击。 Tailings, separators, hoppers; the ultrasound, the installation process in motion magnetic iron ore stream, before the end of the ultra-high magnetic magnetic iron ore beneficiation the selected flow bombardment.

[0155] [0155]工作原理: 在喷嘴式超高磁选矿装置中超高磁场选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒除去, 提高矿砂品位。 [0155] [0155] How it works: ultra-high magnetic beneficiation nozzle means dressing before the end of the ultra-high magnetic field, and then the magnetite sand bombardment by the ultrasound, the composition of the ore particles and non-required component required particle adhesion to play as much as possible off, in favor of ultra-high magnetic field, the particles are removed by a non-required component, improve ore grade.

[0156] [0156]实施例23: 本发明一种水中磁铁矿的旋转流灌式超高磁选矿装置(图20 ) , 包括: 水中磁铁矿的选矿装置, 其特征还在于增加了超声波9。 [0156] [0156] Example 23: rotation flow-fill water ultrahigh magnetic magnetite beneficiation apparatus of the present invention (FIG. 20), including: water magnetite beneficiation equipment, further characterized in that the ultrasound increased 9.

[0157] [0157]本实施例进一步设置为: 所述水中磁铁矿的选矿装置由入料管1、 动力系统2、 轴3、 旋转扇叶4、 选矿灌5、 尾澄出口6、 水中磁选机7、 精矿出口8组成; 所述超声波, 安装在选矿灌外矿砂的运动过程中, 在超高磁选矿结束之前对被选的矿砂轰击。 [0157] [0157] The present embodiment is further configured to: the water magnetite beneficiation feed pipe from the device 1, the power system 2, 3-axis rotation of the blade 4, mineral filling 5, Cheng Mei outlet 6, water separator 7, 8 ore export composition; the ultrasonic mounted outside ore beneficiation irrigation during exercise, before the end of the ultra-high magnetic beneficiation of the ore being selected bombardment.

[0158] [0158]工作原理: 在水中磁铁矿的旋转流灌式超高磁选矿装置中超高磁场选矿结束前, 再由超声波对磁铁矿沙轰击, 把矿砂中的需要成分颗粒和非需要成分的颗粒粘连尽量打断, 利于在超高磁场中, 把非需要成分的颗粒尽量除去, 提高矿砂品位。 [0158] [0158] Principle: rotating flow of water in irrigation ultra-high magnetic magnetite beneficiation means dressing before the end of the ultra-high magnetic field, and then the magnetite sand bombardment by the ultrasound, the component particles of ore and non-need required component particle adhesion try to interrupt, in favor of ultra-high magnetic field, the particles are non-required component removing as much as possible, to improve the ore grade.

[0159] [0159]实施例24: —种磁铁矿的超高磁选矿装置, 其特征还在于选矿装置组合 24 cases [0159] [0159] Implementation: - kind of ultra-high magnetic magnetite beneficiation equipment, further characterized in that means dressing combination

[0160] 本实施例进一步设置为: 所述选矿装置组合顺序, 是一种抛物面击矿砂式选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0160] The present embodiment is further configured to: the combination sequence dressing means, the latter type of magnetite ore parabolic blow device processing, followed by ultra-high magnetic field of magnetite means.

[0161] 工作原理: 通过一种磁铁矿的超高磁选矿装置选矿后, 有些非需要颗粒由于速度、 质量、 角度等原因, 会误落入选矿池中, 造成选矿的品位降低, 再通过一个超高磁电磁线圈, 把有用磁铁矿沙吸住, 超高磁电磁线圈上有将磁铁矿拉离磁场的装置, 将吸在超高磁电磁线圈上的磁铁矿沙带走, 带离磁场, 磁铁矿沙就会自由下落到选矿池。 [0161] works: through the ultrahigh magnetic magnetite beneficiation means one kind of dressing, some undesired particles due to the speed, quality, angle and other reasons, mistakenly fall into the pool dressing, resulting in lower grade beneficiation, and through an ultra high magnetic solenoid to be useful for magnetite sand suck, there are means of magnetite pull away from the field, will be attracted to the ultra-high magnetic solenoid magnetite sand away on ultrahigh magnetic solenoids, away from magnetic magnetite sand mineral processing will free fall to the pool.

[0162] 实施例25: 本发明一种传送带式超高磁场选磁铁矿组合装置(图21) , 包括: 一种传送带式超高磁场选磁铁矿装置、 漏槽(5) 、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序。 [0162] Example 25: The invention provides a conveyor-type ultra-high magnetic field of magnetite combining means (21) comprising: a conveyor-type ultra-high magnetic field of magnetite means sink (5), high magnetic field of magnetite apparatus further characterized dressing means comprises combination sequence.

[0163] [0163]本实施例进一步设置为: 所述一种传送带式超高磁场选磁铁矿装置, 由皮带(3) 、 皮带轮(2) 、 超高电磁线圈(4) , 超声波组成(12) ; 所述漏槽(5) , 是由两个隔板(11) 组成, 呈上宽下窄状, 位于超高磁电磁线圈上的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0163] [0163] The present embodiment is further provided: A conveyor belt of the ultra-high magnetic field of magnetite means, by the belt (3), the pulley (2), high electromagnetic coil (4), consisting of ultrasound ( 12); the drain groove (5), is composed of two separator (11), with wide and narrow shape goes, located under ultrahigh magnetic solenoid coil; the ultra-high magnetic field of magnetite means magnetite sand flow in free fall in the process, with ultra-high magnetic mineral processing apparatus; apparatus combination sequence after the dressing is a conveyor-type ultra-high magnetic field of magnetite beneficiation equipment, followed by ultra-high-field magnet election mine means.

[0164] [0164]工作原理: 通过一种传送带式超高磁场选磁铁矿装置选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 [0164] [0164] Principle: elected by means of a conveyor-type ultra-high magnetic field apparatus selected from magnetite ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means, do not need to particles screened to improve ore grade again.

[0165] 实施例26: —种有小分格的皮带选磁铁矿组合装置(图22) , 包括: 一种有小分格的皮带选磁铁矿装置、 漏槽11、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序。 [0165] Example 26: - kind of a belt of magnetite combination means a small sub-lattice (Fig. 22) comprising: a belt of magnetite has ruled the small device, the drain grooves 11, ultra-high magnetic field is selected magnetite apparatus, further characterized by comprising means beneficiation combination sequence.

[0166] 本实施例进一步设置为: 所述一种有小分格的皮带选磁铁矿装置, 是由有小分格的皮带3、 电动机、 皮带轮2、 超声波轰击装置10、 超高磁电磁线圈4组成的; 所述漏槽11, 是由两个隔板8组成, 呈上宽下窄状, 位于超高磁电磁线圈4上的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0166] The present embodiment is further configured to: the one ruled a small belt of magnetite means ruled by a small belt 10, 3 ultra-high magnetic electromagnetic motor, pulley 2, ultrasonic bombardment device coil 4 composed; the drain groove 11, is composed of two separators 8, goes wide and narrow shape, located below the ultra-high magnetic solenoid 4 on; the ultra-high magnetic field apparatus selected from magnetite, magnetic iron sand in free fall in the process, with ultra-high magnetic mineral processing apparatus; apparatus combination sequence after the dressing is a conveyor-type ultra-high magnetic field of magnetite beneficiation equipment, followed by the ultra-high magnetic field of magnetite means.

[0167] 工作原理: 磁铁矿沙经过一种有小分格的皮带选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 [0167] works: magnetite sand through a kind of sub-grid small belt of magnetite means elected ore, magnetite sand flow through the formation of sink, again by means ultrahigh magnetic field of magnetite to filter out the particles do not need to increase the ore grade again.

[0168] 实施例27: —种水车式履带刮矿砂选磁铁矿组合装置(图23) , 包括: 一种水车式履带刮矿砂选磁铁矿装置、 漏槽12 、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序。 27 [0168] Example: - kind of waterwheel crawler scraping magnetite ore selected combination means (23) comprising: a paddlewheel track of magnetite ore scraping device, sink 12, selected ultra-high magnetic field magnetite apparatus, further characterized by comprising means beneficiation combination sequence.

[0169] 本实施例进一步设置为: 所述一种水车式履带刮矿砂选磁铁矿装置, 由工作平台槽2、 水车式履带3、 电动机、 皮带轮4、 超声波轰击装置11、 超高磁电磁线圈组成5; 所述漏槽12, 是由两个隔板9组成, 呈上宽下窄状, 位于超高磁电磁线圈5上的下面; 所述超高磁场选磁铁矿装置, 由隔板9、 料斗10、 超高电磁线圈5 组成, 磁铁矿沙在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种水车式履带刮矿砂选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0169] The present embodiment is further configured to: the one paddlewheel track scraping device magnetite ore selected by the working platform grooves 2, 3 paddlewheel track, motors, pulleys 4, ultrasonic bombardment device 11, high magnetic electromagnetic coils 5; the drain groove 12, is composed of two separators 9, goes wide and narrow shape, located below the ultra-high magnetic solenoid 5 on; the ultra-high magnetic field of magnetite means by the partition 9, the hopper 10, high electromagnetic coil 5 composed of magnetite sand in free fall in the process, with ultra-high magnetic mineral processing means; said dressing device combination sequence, a waterwheel crawler scraping ore after the election magnetite beneficiation equipment, followed by the ultra-high magnetic field of magnetite devices.

[0170] 工作原理: 磁铁矿沙经过一种水车式履带刮矿砂选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 [0170] Principle: magnetite sand track after the latter paddlewheel election magnetite ore scraping device, elected ore, magnetite sand flow through the formation of sink, again by means ultrahigh magnetic field of magnetite to filter out the particles do not need to increase the ore grade again.

[0171] 实施例28: —种抛物面击矿砂式选磁铁矿组合装置(图24) , 包括: 一种抛物面击矿砂式选磁铁矿装置、 漏槽14、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序。 [0171] Example 28: - kind of parabolic type of magnetite ore strike combination means (24) comprising: a parabolic type of magnetite ore strike means sink 14, the ultra-high magnetic field of magnetite means characterized in that the dressing means comprises combination sequence.

[0172] 本实施例进一步设置为: 所述一种抛物面击矿砂式选磁铁矿装置, 由电动机、 抛物面轮4、 抛物面齿3、 抛物面2、 方向校正器5、 超声波轰击装置11、 超高磁电磁线圈6组成; 所述漏槽14, 是由两个隔板9组成, 呈上宽下窄状, 位于超高磁电磁线圈6的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种抛物面击矿砂式选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0172] The present embodiment is further configured to: the one type of magnetite ore parabolic blow means by a motor, wheels 4 parabolic, the parabolic tooth 3, 2 parabola, direction corrector 5, the ultrasonic means 11 bombardment, ultrahigh magnetic electromagnetic coil 6 is composed of; the drain groove 14 is composed of two separators 9, goes wide and narrow shape, located below the ultra-high magnetic electromagnetic coil 6; the ultra-high magnetic field apparatus selected from magnetite, magnetic iron sand flow in free fall in the process, with ultra-high magnetic mineral processing apparatus; apparatus combination sequence after the dressing is a hit parabolic type ore beneficiation of magnetite device, followed by the ultra-high magnetic field of magnetite means .

[0173] 工作原理: 磁铁矿沙经过一种抛物面击矿砂式选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 [0173] How it works: After one kind of parabolic sand magnetite strike after election magnetite ore type device, elected ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means the You do not need to filter out particles in order to improve ore grade again.

[0174] 实施例29: —种强风吹矿砂式选磁铁矿组合装置(图25 ) , 包括: 一种强风吹矿砂式选磁铁矿装置、 漏槽12、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序。 [0174] Example 29: - kind of strong winds formula selected from magnetite ore combining means (25) comprising: a strong wind of magnetite ore type device, sink 12, the ultra-high magnetic field of magnetite means characterized in that the dressing means comprises combination sequence.

[0175] 本实施例进一步设置为: 所述一种强风吹矿砂式选磁铁矿装置, 由吹风口2、 方向校正器3、 超声波轰击装置9、 超高磁电磁线圈4组成; 所述漏槽12, 是由两个隔板7组成, 呈上宽下窄状, 位于超高磁电磁线圈4的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流1在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种传送带式超高磁场选磁铁矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 [0175] The present embodiment is further configured to: the one type of magnetite ore gale means 2 from the air outlet, the direction corrector 3, an ultrasonic bombardment device 9, the electromagnetic coil 4 ultrahigh magnetic composition; said drain groove 12, is composed of two separators 7, goes wide and narrow shape, located below the ultra-high magnetic electromagnetic coil 4; the ultra-high magnetic field apparatus selected from magnetite, magnetite sand flow process 1 in free fall in ultrahigh magnetic beneficiation means; the combination sequence dressing means is a conveyor-type ultra-high magnetic field of magnetite beneficiation equipment, the magnetite election followed by the ultra-high magnetic field devices.

[0176] 工作原理: 磁铁矿沙经过一种强风吹矿砂式选磁铁矿装置后, 选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 [0176] works: magnetite sand blown through a potent type of magnetite ore means elected ore, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means the You do not need to filter out particles in order to improve ore grade again.

[0177] 实施例30: —种喷嘴式超高磁选矿的组合装置(图26) , 包括: 一种喷嘴式超高磁选矿装置、 漏槽、 超高磁场选磁铁矿装置, 其特征还在于包括选矿装置组合顺序。 [0177] Example 30: - kind of nozzle type ultrahigh magnetic beneficiation of combining means (26) comprising: a nozzle ultra-high magnetic beneficiation equipment, sink, ultra-high magnetic field of magnetite means, characterized comprising means dressing combination sequence.

[0178] [0178] [0178] [0178]

本实施例进一步设置为: 所述一种喷嘴式超高磁选矿装置, 由强风管(1) 、 喷风嘴(2) 、 混料仓(3) 、 喷管(4) 、 扇形喷嘴(5) 、 螺旋式给料装置(6) 、 超高磁电磁线圈(7) 、 磁铁矿沙(8) 、 尾矿(9) 、 隔板(11) 、 料斗(15 ) 、 超声波轰击装置组成(12) ; 所述漏槽(10) , 是由两个隔板(11) 组成, 呈上宽下窄状, 位于超高磁电磁线圈(7) 的下面; 所述超高磁场选磁铁矿装置, 磁铁矿沙流在自由下落的过程中, 用超高磁选矿的装置; 所述选矿装置组合顺序, 是一种喷嘴式超高磁选矿装置选矿后, 接着进行超高磁场选磁铁矿装置。 Said one nozzle ultra-high magnetic mineral processing equipment, strong winds from the tube (1), the spray nozzle (2), mixing bin (3), the nozzle (4), fan nozzle (: the present embodiment is further provided 5), screw feeding device (6), ultra-high magnetic solenoid (7), magnetite sand (8), tailings (9), the separator (11), the hopper (15), ultrasonic bombardment device component (12); the drain groove (10), by two baffles (11), with the narrow width goes like, is located below the ultrahigh magnetic solenoid (7); said selected ultrahigh magnetic field mine equipment, magnetite sand flow in free fall in the process, with ultra-high magnetic beneficiation means; the combination sequence dressing means is a nozzle type ultrahigh magnetic beneficiation beneficiation equipment, the election followed by the ultra-high magnetic field magnet mine means.

[0179] [0179]工作原理: 通过一种喷嘴式超高磁选矿装置选出来的矿, 通过漏槽形成磁铁矿沙流, 再次通过超高磁场选磁铁矿装置, 把不需要颗粒筛选出来, 以再次提高矿砂品位。 [0179] [0179] Principle: elected by means of a nozzle type ultrahigh magnetic ore beneficiation equipment, magnetite sand flow through the formation of sink, again by the ultra-high magnetic field of magnetite means, do not need to filter out particles , again in order to improve the grade of ore.

[0180] 对所公幵的实施例的上述说明, 使本领域专业技术人员能够实现或使用本发明。 [0180] the above description of the disclosed embodiments Jian, so that the skilled in the art to make or use the invention. 对这些实施例的多种修改对本领域的专业技术人员来说将是显而易见的, 本文中所定义的一般原理可以在不脱离本发明的精神或范围的情况下, 在其它实施例中实现。 These various modifications to the field of professional and technical personnel embodiments will be apparent, the general principles defined herein may be made without departing from the spirit or scope of the present invention, the realization in the other embodiments. 因此, 本发明将不会被限制于本文所示的这些实施例, 而是要符合与本文所公幵的原理和新颖特点相一致的最宽的范围。 Accordingly, the present invention will not be limited to these embodiments shown herein, but is to be accorded the consistent with the principles and novel features herein male Jian widest range.

本发明的实施方式 Embodiments of the present invention.

[0181] 在此处键入本发明的实施方式描述段落。 [0181] Type the embodiment of the present invention described herein paragraphs.

工业实用性 Industrial Applicability

[0182] 创造性的发明出8个方法的磁铁矿选矿设备 [0182] creatively invented magnetite beneficiation process equipment 8

[0183] 一种传送带式超高磁场选磁铁矿组合装置来实现的(图21) [0183] A conveyor belt ultra-high magnetic field of magnetite combining means to achieve (Figure 21)

[0184] 一种有小分格的皮带选磁铁矿组合装置来实现的(图22) [0184] A small sub-grid belt means selected to achieve a combination of magnetite (Fig. 22)

[0185] 一种水车式履带刮矿砂选磁铁矿组合装置来实现的(图23) [0185] A paddlewheel track of magnetite ore scraping device combination achieved (Fig. 23)

[0186] 一种抛物面击矿砂式选磁铁矿组合装置来实现的(图24) [0186] A parabolic hit formula selected from magnetite ore combining means to achieve (Figure 24)

[0187] 一种强风吹矿砂式选磁铁矿组合装置来实现的(图25) [0188] 一种喷嘴式超高磁选矿的组合装置来实现的(图26) [0187] A strong wind magnetite ore formula selected from the combining means to achieve (Figure 25) [0188] combination nozzle type apparatus for ultra-high magnetic beneficiation achieved (Fig. 26)

[0189] 水中磁铁矿的旋转流灌式超高磁选矿装置(图9) , 包括有排出大颗粒物体的倒仓装置(图10) ; 倒仓自动排出大颗粒矿砂的装置(图11) ; 水中控制大颗粒物体下落幵关的装置(图12) ; 预留一次倒仓大颗粒物体容量的装置(图13 [0189] rotating flow irrigation water magnetite mineral processing ultra-high magnetic device (Fig. 9), including large particles discharged objects down the cartridge device (Fig. 10); inverted cartridge automatic discharge of large particles of ore device (Fig. 11) ; water control apparatus Jian large particles fall off the object (Figure 12); reserve a warehouse down large particles object-capacity device (Fig. 13

[0190] 增加人工智能的水中磁铁矿旋转流罐式超高磁选矿装置。 [0190] AI increased water tank ultrahigh magnetic magnetite beneficiation rotational flow means.

序列表自由内容 Sequence Listing Free content

[0191] 在此处键入序列表自由内容描述段落。 [0191] Sequence Listing Free content type described here paragraph.

Patentzitate
Zitiertes PatentEingetragen Veröffentlichungsdatum Antragsteller Titel
CN103041921A *20. Dez. 201217. Apr. 2013山东科力华电磁设备有限公司Method for extracting iron ore concentrate under anhydrous condition
CN105562201A *24. März 201611. Mai 2016陈勇Waterwheel track type ore sand scraping and magnetite concentrating combined device
CN105562202A *24. März 201611. Mai 2016陈勇Conveyor belt type magnetite screening combined device for an ultrahigh magnetic field
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CN105618253A *24. März 20161. Juni 2016陈勇Device for magnetite separation by impacting ore sand through paraboloid
CN105618259A *24. März 20161. Juni 2016陈勇Combination device for magnetite separation by blowing ore sand through strong breeze
CN105618260A *24. März 20161. Juni 2016陈勇Device for magnetite separation by blowing ore sand through strong breeze
CN105618263A *24. März 20161. Juni 2016陈勇Repeated ultra-high-magnetic field ironstone beneficiation device
CN105689118A *24. März 201622. Juni 2016陈勇Belt magnetite separation combination device with small partition grids
CN105689120A *24. März 201622. Juni 2016陈勇Device used for pulling magnetite out of magnetic field
CN105689122A *24. März 201622. Juni 2016陈勇Paraboloidal magnetite sand bombarding type magnetite separation combination device
CN105728186A *24. März 20166. Juli 2016陈勇Magnetite beneficiation device with belt with small grids
CN204842218U *7. Juli 20159. Dez. 2015何征徽Choice equipment of magnetic iron ore
DE3413700A1 *11. Apr. 198424. Okt. 1985Krupp Polysius AgDry-operating strong-field magnetic separator
GB2174020A * Titel nicht verfügbar
JP2003103195A * Titel nicht verfügbar
JPH0994477A * Titel nicht verfügbar
JPH10128150A * Titel nicht verfügbar
US4743364 *16. März 198410. Mai 1988Kyrazis Demos TMagnetic separation of electrically conducting particles from non-conducting material
Klassifizierungen
Internationale KlassifikationB03C1/005, B65G15/42, B03C1/26, B03C1/22
UnternehmensklassifikationB65G15/42, B03C1/26, B03C1/22, B03C1/005
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