DE3635197C1 - Winding machine - Google Patents

Abstract

In this winding machine, the winding roller (5) receiving the package is arranged in a fixed winding station (4) and is provided with its own drive (8, 9). The contact roller (1) likewise provided with its own drive (2, 3) is assigned a changing device which possesses, in addition to a pivotable feed fork (12) for supplying a new winding shaft (6), a first cutting device (32) for severing a foil web obliquely in the vicinity of the new winding shaft (6) held in its upper supply position and which has a second cutting unit (55) for severing the foil web at right angles in the swung-down transfer position of the new winding shaft (6). At the same time, the new winding shaft (6) kept ready in the feed fork (12) also has its own drive here. The overall arrangement consisting of the contact roller (1), of the feed fork (12) and of the two cutting devices (32, 35), including an associated measuring roller (41), is arranged on a slide (39) which is movable relative to the winding roller (5) located in the fixed winding station (4). <IMAGE>

Description

The invention relates to a winding machine, in particular for Winding foils, according to the generic term of the patent claims 1. In winding machines of the type in question So far, a distinction has been made between two machine types, namely on the one hand contact winder and on the other hand turret winder. The contact winder has a driven contact roller provided, which is assigned a feed fork which for the automatic change of the winding roller the new winding Axis carries, on the at the contact winder for fixing a wrap prepared with adhesive strips at the beginning of the film sleeve is arranged. The changing device is one of them in addition to the fork, also a cutting device that includes a knife that can be moved across the film, with the taking into account the continuous run movement of the film web an oblique film cut in the Change phase takes place. With the contact winder lies Contact roller on the circumference of the building on the winding roller Film wrapping. The winding roller is only rotatable ge stores. For the relative movement between the contact roller and the winding roll with regard to the building up is with the known contact winders the winding roller movable, for example wise on a sled, stored. After completing the Bewick winding roller is removed from the machine,  while the feed fork with the new winding axis with the start winding on the prepared winding tube from the original Delivery position swiveled into a transfer position, in which then the takeover into the rotary bearing on the slide takes place.

A major disadvantage of such contact winder is that Diagonal cut when changing, but with this system is necessary because of a sudden, sudden and right angular film sheeting with this simple System apart from the risk of a film web jam too an untargeted movement of the new beginning of the film web would in particular not aim in the required manner would just be brought to the new prepared winding tube. With the bevel cut, on the other hand, can be made during cutting part of the film web width is continuously increasing the prepared sleeve can be pulled and wound. The area the bevel cut is to be regarded as waste. This is expensive, high quality films a significant disadvantage. Is annoying with the Contact winder also that sensible web tension control is practically not possible. It has been shown that one practically only for a sensible web tension control comes when you drive the winding roller yourself centrally and this Drive controls. Even if you did, you would get that Contact winder not to usable control results, because the System-driven contact roller with its influence on the Film web would disrupt the exact control.

Another problem is that some films due to their Properties for the one taking place here with the contact winder Circumferential winding, in contrast to central winding with one central winding axis drive of the winding roller or reel, little own.  

The advantage of the contact winder is that in particular in the Change phase relatively few masses are to be moved and the movement overall are relatively small, so that the winding of the Slides to relatively large rolls is possible.

After all, it is already the case with such contact winder known, the new winding axis located in the feed fork to drive yourself with the prepared winding sleeve, see above that for the initial phase of the new winding an additional so-called central wrapping with a correspondingly firm tension the starting area of the new winding around the winding tube around is possible. However, this is with the known Aus design still problematic in this respect, as for this drive phase a pressure relief is not possible, i.e. the new one Winding axis with the start of winding on the contact roller expresses, which adversely affects both the Contact roller as well as the new start of winding leads there with the latter, the new start of the path and if necessary also the adhesive strips on the prepared sleeve as markings push through.

Overall, it can be said that the known contact winder too relative for winding thicker, less expensive foils large rolls and without demands on good web tension control can be used, foils, which also the loss in the area of the bevel cut is not very Wear comes. For more sensitive thin foils are the like contact winder, however, due to the shown after parts not very suitable.

In the known turret winders, on the other hand, there are two armed swivel arm or a large turntable two or more winding stations are provided, initially in one first winding station the winding on a central itself driven winding roll takes place. The non-powered  The contact roller lies on the outside of the build-up of the winding and is relatively movable with respect to the winding roller continuous build-up of the wrapping kept. The turn winders have a special cutting device, which in the essentially from an abruptly drivable cutting knife for a right-angled film cut and from guide rollers consists. The device is overall on a swivel arm stored. In the change phase, with continuous Continuation of the film web from the almost full winding roller a front position in a rear removal position ver pivots, a new winding station then in the ent speaking front winding position and here a new one Winding roller with unprepared sleeve is provided. The cutting device described then also pivots into the film web. Their wrapping rollers give the Film web then has such a course that it wraps Wrap around the sleeve on the new winding axis to a large extent can. At the same time, the cutting knife suddenly cuts the Foil web through, so that the new Bewick can build up.

The advantages of the turret winder lie in the rectangular film cut so that there is practically no waste. The central winding by the central drive of the winding roller is for some foils are an advantage and also possible with one measuring roll a good web tension control, as they pay require rich quality foils for wrapping.

A significant disadvantage of the turret winder is the Erfor dernis, in the final phase of the winding, when changing, completely to have to move considerable masses, which are almost full wraps roller must be pivoted.  

There are also significant path changes in this phase, already by the large swivel radius when swiveling the almost full winding roller. Strain-sensitive films can do damage. It is basically a relative only with regard to this problem low winding strength possible.

This means that the turret winder can in turn cover a certain area especially of relatively thin quality films with good web winding up tension control, practically waste-free, however, this only at a relatively low winding strength. For stretch-sensitive thin, high-quality films is also the Known turret winder is unsuitable because in the turning phase of Winding roller does not make sense to keep the web tension constant is fully possible.

The invention is therefore based on the object to create a winding machine of the generic type that practically universal for the whole broad spectrum of foils can be used well.

The solution according to the invention results from the characterizing part of claim 1. In this embodiment, the contact known drivable contact roller with its change system additionally known in principle from the changer Assigned cutting device for right-angled film cutting. Fundamentally new compared to the previous winder types, that a stationary winding station is provided, in which the winding roller is held and in turn driven itself is, with the contact roller now including the fork and velvet two cutting devices relative to the winding roller, for example by arranging the entire assembly on a slide, relocated is cash.  

With this new winding machine concept, not only that previously known advantages of the contact winder and Turret winder avoiding the main disadvantages of these known winding machine types, which invented According to the winding machine also offers advantages on rewinding options for foils used in the previous known winding machine types were not available.

Due to the drivable contact rollers with assigned contact fork and cutting device for the diagonal cut can the machine works in the sense of the usual contact winder, but compared to this with very considerable advantages, because through the existing drive both for those located in the system fork new winding axis and the existing drive for the winding roller located in the stationary winding station, the winding force ratios depending on the size and weight of the film and can be divided much better according to the size of the wrapping can, for example, in terms of drive, a division on the contact roller on the one hand and the new winding axis on the other can split with a small initial winding and one later considerable winding forces on the one hand on the contact roller and on the other hand on the then in the fixed wrap station can lay winding roller. It is under Maintaining the principle of circumferential winding also possible, short switch off the contact roller at an early stage in critical phases or disengage and a perfect web tension control, the then on the central winding switched on in this phase axis drive acts. In contrast to the usual The contact winder does not move the wraps here now roll away from the contact roll, but according to the increase the contact roller with the changing and cutting systems from the fixedly arranged and drivable winding roller, whereby  even fewer masses are to be moved and the influence of the movement on the film web becomes even smaller.

The machine according to the invention also allows very advantageous the loss-free known from the turret winder right-angled film cut for processing high-quality, expensive quality foils and enables, if the Contact roller drive, also a very good web tension control with central axis drive of the winding roller in the location fixed station, but avoids the disadvantages of the known Wendewicklers in that the turning of the almost full wrap roller is omitted here. In contrast to the well-known turret winder can thereby be carried out with a minimum of movement influence the film web in the change phase also thin quality films, which are very sensitive to stretch, wind up easily. The new winding axis with winding tube and initial winding can immediately after changing the reel into the fixed reel station, in which they are then also immovable remains, which is a winding of the material web with the best Winding quality down to the last meter. Due to the Relationships created here are also significantly shorter times to achieve than with the known turret winder. By beson whose advantage is also that due to the fixed winding station controlled friction winding shafts easily used can be special for numerous use cases are suitable. Also due to the fixed wrap station for the central winding roller drive the well-known quill drives work with which particularly high torques can be generated and transmitted.

Overall, the new winding machine is therefore suitable for Rewinding of practically the entire available spectrum different foils each with optimal adaptation of the Control ranges not only on the type of film but also on  the individual phases of the winding including the changes phase.

Finally, it should be emphasized that due to the existence of the central winding axis or winding roller drive in each Winding phase with the contact roller drive switched off too a so-called gap winding can easily be carried out, as it is useful for some foils, and where the contact do not roll against the build-up of the wrapping but instead is kept at a small gap distance from it.

Preferred further configurations are in the subclaims featured. The drive system is particularly noteworthy here for the new winding roller with pressure in the feed fork Relief option, so that no longer in this winding phase the new winding roller with the one in the initial phase Winding structure presses on the contact roller.

An embodiment of a winding machine according to the invention will be described below with reference to the drawing. It shows

Fig. 1 shows a winding machine according to the invention in a highly schematic side view illustration of tisierter change phase at a winding after the Kontaktwicklerprinzip,

Fig. 2, the winding machine of FIG. 1 cut with illustration of the change of phase with the aid of the Wechselwickler be forth known cutter having rectangular foils,

Fig. 3 is a partially schematic sectional view of the drive system for the contact roller, the winding axis located in the feed fork and for the pivoting movement of the feed fork of a winding machine according to the invention.

The winding machine contains a contact roller 1 , which can be driven in rotation by means of its own drive, in the exemplary embodiment shown consisting of a motor 2 and a toothed belt drive 3 . It also includes a stationary winding station 4 , in which by appropriate holder and bearing (not shown) during the predominant part of the winding phase, a winding roller 5 , on which the winding builds up, is arranged, which has a winding axis 6 , on which one Depending on the mode of operation, there is a winding sleeve 7 prepared or strip-coated with adhesive strips. The winding roller 5 has its own drive assigned to the stationary winding station 4 , which in turn can consist, for example, of a motor 8 with toothed belt drive 9 , as shown in FIGS. 2 and 3, but here the arrangement of the winding roller 5 in a stationary winding station also favors the use of a so-called quill drive, as indicated in Fig. 1, only for illustration, in connection with the winding axis 6 shown there. Such a quill drive engages with a motor-driven chuck 10 with a toothed inner cone on the correspondingly conically toothed end of the winding axis 6 at the outer end. If necessary, this can easily be done on both sides of the winding axis 6 . There is a very large power transmission and the possibility of transmitting very high torques to the winding roller 5 in this way if necessary, which in this way enables a so-called central winding by its central drive going on the axis.

The winding axis of the winding roller 5 can, if necessary, also be designed as a friction winding shaft, which is equipped with expandable friction sleeves, which in turn enables the winding to be separated into sub-widths on the friction winding shaft, since the lateral air loading required for friction winding shafts is possible in the stationary winding station can be carried out conveniently and easily.

The stationary winding station 4 is finally assigned a swivel bar driven removal fork 11 , with which the fully wound winding roller 5 can be quickly guided out of the stationary winding station 4 in the changing phase.

The winding machine also includes a changeover device assigned to the contact roller 1 for the automatic replacement of a new winding axis 6 equipped with a winding tube 7 including the severing of the film web and attachment of the new film web start piece on the winding tube 7 of the new winding axis 6 . The winding machine has a functionally on the same axis as the contact roller 1 rotatably gela gerte, two-part and the two ends of the new winding axis 6 accommodating fork 12 which, in a first, upper pivot position, the winding axis 6 to be replaced above the contact holds roller 1 ready, outside the changeover phase with a small distance from it and which can be pivoted into a second transfer position, in which it is then located approximately to the side of the contact roller, on the side facing the winding roller 5 . For this purpose, a positioning drive is provided which, in the exemplary embodiment presented, consists of a motor 13 with a gear train 14 according to the invention, which acts on a guide frame 15 of the application forks 12 in which adjusting rods 16 are guided, each of which has the actual fork pieces 17 at its upper end Carrying fork 12 and which are firmly connected at their lower end to the cylinder 18 of a pneumatic actuator, the piston rod 19 is fixed to the guide frame 15 . The particular importance of this configuration in the sense of relieving pressure on the contact roller 1 in the initial phase of a new winding will be explained in more detail later in the context of the overall function description.

In this winding machine is also an independent drive for the new, in the feed fork 12 ready winding axis 6 is provided, which is designed in a special function adaptation to be able to join the pivoting movement of the feed fork 12 in the transfer position not only while maintaining the continuous drive option , but which is also designed in particular to be able to take part in lifting movements of the new winding axis 6 caused by the actuator 18, 19 while maintaining the continuous drive possibility. This drive includes a motor 20 which drives a gear train 22, 23, 24 via a toothed belt drive 21 , the drive wheel of which drives a gear 25 arranged on the new winding axis. The gear 22 driven by the toothed belt drive 21 is freely rotatably mounted on the axis of the contact roller 1 . The toothed wheel 23 is rotatably mounted on a support pin 26 which is seated in a first lever 27 which is rotatably mounted on the axis of the contact roller 1 . The gear 24 is rotatably mounted on a further support bolt 28 , which is arranged on the one hand in a further, articulated lever 27 connected to the articulated lever 29 and which is further fixed in a part of the application fork 12 and thus participates in their movements. This results in a kind of toggle lever planetary drive such that the drive train can follow the pivoting movements of the application fork 12 , while maintaining the engagement of the gearwheels, but also while maintaining the engagement of the gearwheels, with the knee lever linkage then stretching a little and the gear 23 moves a little like a planet gear around the gear 22 , the drive 18, 19 generated by the actuator movements within the feed fork 12 can follow.

The respective end of the new winding axis 6 supporting fork piece 17 of the fork 12 is still assigned a pawl 30 rotatably mounted on it, which can be actuated via an actuating cylinder 31 and with the help of which the winding axis 6 , until the moment of its transfer into the stationary Winding station 4 is held captive in the fork piece 17 . The pawl 30 acts on the outer ring of a ball bearing provided at the corresponding point on the winding axis 6 , so that the rotation of the winding axis is not impaired.

The changing device includes a first cutting device 32 , which works according to the separation principle known from the contact winder, and includes a cutting knife 33 , which in the changing phase draws an oblique cut through the continuously running film web 34 , this cutting device 32 being as close as possible to that in the upper ready position in the feed fork 12 held new winding roller 6 is arranged.

The changing device of this machine now also includes a second cutting device 35 , as is known from the changing winder. The cutting device 35 includes a curved swivel arm 36 , which carries a looping roller 37 at its free end and is mounted on a rotatable, pneumatically actuable separating knife 38 which can be driven into the film web 34 suddenly in the sense of a right-angled severing thereof. This second cutting device 35 is arranged somewhat laterally below the contact roller that the swivel arm 36 can be pivoted in the alternating phase behind the new winding axis 6 , which is then pivoted into the transfer position by means of the application fork 12 , with corresponding further transport of the film web 34 through the wrapping roller 37 .

It is essential in this machine that the overall arrangement of contact roller 1 including drive, application forks 12 including drive and with the two cutting devices 32 and 35 is held relatively movable with respect to the winding roller 5 located in the stationary winding station 4 and thus the required relative movement between the Contact roller 1 and the winding roller 5 during the build-up of the winding just results from the movement of the overall arrangement called GE. In the illustrated embodiment, the elements mentioned, including their drives, are mounted on a slide 39 which, for example, with ball sleeves or the like runs on guide rods 40 .

Shortly before the contact roller 1 , a measuring roller 41 is also arranged on the slide 39 , which enables a film web tension control, the measured values being used to control, in particular, the drive of the winding roller 5 located in the stationary winding station 4 .

The universal, to all requirements in the rewind too very different foils adaptable mode of operation of this The machine is described below in connection.

The starting point is the case of winding a relatively thick, inexpensive film which is too large to be wound up. In this case, this winding machine can be compared to a known contact winder with the so-called circumferential winding. The contact roller is driven in any case. It lies on the outer circumference of the winding which builds up on the winding roller 5 located in the stationary winding station 4 , this machine offering the possibility, if necessary, of additionally maintaining the principle of circumferential winding by means of a driven contact, also driving the winding roller 5 itself, which is particularly recommended with regard to the forces to be applied then towards the end of the winding of a large roll.

For the automatic change in this mode of operation, the new winding roller 6, which is held in the upper ready position by means of the application fork 12, is equipped with a winding sleeve 7 prepared with adhesive strips. At the appropriate point in time, the cutting device 32 performs with the knife 33 an oblique cut across the film web, so that as a result of the continuation of part of the not yet severed film web width the already severed initial gusset is safe and then continuously continues across the film web width onto the adhesive strips the winding tube 7 arrives. For this purpose, the new winding roller 6 is lowered from its short distance to the contact roller 1 on this. The machine offers the possibility of driving the new winding roller 6 during its position in the feed fork 12 in addition to the contact roller 1 , if necessary and in a very expedient manner for a particularly secure initial winding. To the extent that the fully wound winding roller 5 is removed from the stationary winding station, the carriage 39 can already be moved to the stationary winding station and, at the same time, the feed fork 12 can be swung out of its upper ready position into its transfer position, as in Fig. 2 is illustrated. The wrapping on the new winding axis 6 takes place throughout the entire process. The change cycle time is extremely short overall, also taking into account the relatively short distances to be covered. There are also relatively few masses to be moved, so that there is therefore no adverse influence on the film web. The web tension can be checked via the measuring roller 41 . One can even have a controlling effect on the web tension in this mode of operation if the contact roller 1 is briefly switched off for exact measurement and then acts in a regulating manner on the winding roller drive running in this case via the measured values.

Very important here is the possibility of being able to raise the initial winding on the new winding axis 6 , while it is still in its upper ready position above the contact roller 1 , to an extent corresponding to the growth of the winding via the actuating drive 17, 18 , so that there is a pressure relief of the quite sensitive contact roller 1 and in particular markings, such as those that can result on the adhesive tapes on the winding tube 7 and from the oblique initial cut, practically do not continue and push through into the building movement. Thanks to the drive design described, this is possible even if the new winding axis 6 is driven in this position.

If thinner, high-quality films are to be wound up with this machine, the so-called central winding is used, in which one drives the winding roller 5 located in the stationary winding station 4 centrally over its axis with the drive described, while the contact roller 1 is normally unpowered and loose runs alongside the outer circumference of the winding that is building up. Since the non-driven contact roller 1 has practically no influence on the web tension, the measuring roller 41 provides a highly precise control option which acts directly on the drive of the winding roller 5 . In this mode of operation, the cutting device 35 is now used for the change. You can now equip the new winding axis 6 with an unprepared winding sleeve 7 . With this type of change, the new winding axis 6 is first pivoted out of its upper ready position with the application fork 12 into the transfer position shown in FIG. 3. Care is then taken to ensure that the carriage 39 moves back a little so that the swivel arm 36 can be pivoted in behind the new winding axis 6 in the transfer position, as illustrated in FIG. 3.

This is done by taking the film web through the wrapping roller 37 . The latter causes that, as shown, the film web wraps around the new winding axis 6 to a large extent, so that one can now cut the film web with the separating knife 38 in a rectangular cut. The new beginning of the film web remains on the new winding axis 6 and the new winding begins here, which can be supported by known rivet holders which are not shown for reasons of simplification. In this phase, the new winding axis 6 can already be driven continuously with this machine. To the extent that the full winding roller 5 is removed from the stationary winding station 4 , the carriage 39 with the contact roller 1 and the new winding axis 6 with the new winding already building on it can move up to the stationary winding station 4 , so that here, too, there is an overall very short cycle time. Here, too, there is a good division of the force control range, since a different drive is available for the initial phase of the winding than for the final winding in the stationary winding station 4, which requires a correspondingly higher amount of force. It should be emphasized in particular that in this type of winding fine and high quality films due to the very short distances to be covered in the alternating phase, in contrast to the known changer with its considerable mass movement on a large turning circle, there is practically no sudden and negative influence on the film web tension, so that In this way, not only fine, high-quality films, but also stretch-sensitive films can be wound up without any problems.

The machine can also be used to easily wrap such films for which a so-called gap winding is expedient, in which the contact roller 1 and the winding roller 5 are kept constant at a small gap distance from one another during the winding. This is made possible by the fact that separate drives are available both for the winding roller 5 and for the contact roller 1 .

Adherence to the gap is favored by the fact that here, in relation to the mobility of the winding roller 5 with its masses, which are considerable at least in the final phase, the carriage 39 with the above-mentioned components is kept movable with a significantly lower mass.

In all of the operating cases described, the winding axis 6 is unlocked by actuating the pawl 30 and thus released at the moment when the new winding axis 6 is handed over to the stationary winding station 4 .

Claims (9)

1. winding machine, in particular for winding film webs, with a drivable contact roller, which is assigned a Wechseleinrich device, the swiveling between a supply position and a transfer position feed fork with a receptacle for a drivable in the feed fork, new, equipped with a winding tube winding axis has, in front of which a cutting device for an oblique film cut is arranged, and with a rotatably mounted winding roller that receives the winding, the contact roller and the winding roller being held movable relative to one another with regard to the growth of the winding, characterized in that the contact roller ( 1 ), the feed fork ( 12 ) and the cutting device ( 32 ) a further cutting device ( 35 ) for a right-angled film cut with application to an unprepared winding tube ( 7 ) which is pivotable behind the feed fork ( 12 ) pivoted into the transfer position is, where d This overall arrangement is held relatively movably to the winding roller ( 5 ) which is arranged in a stationary winding station ( 4 ) and can be driven here. 2. Winding machine according to one or more of the preceding claims, characterized in that the new winding axis ( 6 ) in the feed fork ( 12 ) by means of one of the feed fork ( 2 ) associated lifting mechanism ( 15, 16, 17, 18 ) is held depressurized, wherein the winding axis drive provided here can follow this stroke movement. 3. Winding machine according to claim 2, characterized in that the ends of the new winding axis ( 6 ) carrying fork pieces ( 17 ) of the feed fork ( 12 ) on the upper ends of adjusting rods ( 16 ) are attached, which in a guide frame ( 15 ) guided and connected at their other end with an actuator ( 17, 18 ), the guide frame ( 15 ) for the United pivoting movement rotating about the axis of the contact roller ( 1 ) can be driven. 4. Winding machine according to claim 2 or 3, characterized in that the drive for the new winding axis ( 6 ) has a combined planetary toggle gear train ( 22 to 29 ) which is in driving connection with the feed fork ( 12 ). 5. Winding machine according to claim 4, characterized in that the combined planetary toggle gear train has a drivable gear ( 22 ) which is rotatably mounted on the axis of the contact roller ( 1 ) and which is in engagement with a further gear ( 23 ) which is rotatable a first articulated lever ( 27 ), which is also mounted on the axis of the contact roller ( 1 ) and to which a further articulated lever ( 29 ) is connected, in which a support pin ( 28 ) is rotatably mounted, which on the one hand has another, with the gearwheel ( 23 ) in engagement and on the new winding axis ( 6 ) arranged gear ( 25 ) floating gear ( 24 ) carries and on the other hand with the feed fork ( 12 ) is firmly connected. 6. Winding machine according to claim 1, characterized in that said overall arrangement is arranged on a carriage ( 39 ) which can be moved by means of ball sleeves on to the stationary winding station ( 4 ) leading guide rods ( 40 ). 7. Winding machine according to claim 1, characterized in that one or both ends of the winding axis of the winding roller ( 5 ) located in the stationary winding station ( 4 ) can be driven with a quill drive ( 10 ). 8. Winding machine according to claim 1 or 7, characterized in that the winding axis ( 6 ) is designed as a friction winding shaft. 9. Winding machine according to one or more of the preceding claims, characterized in that the film web ( 34 ) is guided over a measuring roller ( 41 ) for web tension control before reaching the contact roller ( 1 ).