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Patentsuche

  1. Erweiterte Patentsuche
VeröffentlichungsnummerUS3723030 A
PublikationstypErteilung
Veröffentlichungsdatum27. März 1973
Eingetragen3. März 1971
Prioritätsdatum3. März 1971
VeröffentlichungsnummerUS 3723030 A, US 3723030A, US-A-3723030, US3723030 A, US3723030A
ErfinderGelfand D
Ursprünglich BevollmächtigterBuchler Instr Division, Nuclear Chicago Corp
Zitat exportierenBiBTeX, EndNote, RefMan
Externe Links: USPTO, USPTO-Zuordnung, Espacenet
Peristaltic pump with stacked components
US 3723030 A
Zusammenfassung
The roller member and/or the arcuate support member for the tubes of a peristaltic pump are stacked to accommodate a number of tubes. The rotor is stacked from disks having rollers along one surface so that the disks may be assembled in back-to-back relationship to accommodate large-diameter flexible tubing or in a series relationship to accommodate tubing of smaller diameter. The support is similarly made up of flanged members which may be stacked back to back or in series (face-to-back).
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Beschreibung  (OCR-Text kann Fehler enthalten)

[45] Mar. 27, 1973 Gelfand [541 PERISTALTIC PUMP WITH STACKED COMPONENTS [75] Inventor: Daniel Geliand, Brooklyn, N.Y.

[73] Assignee: Buchler Instruments Division, Nuclear-Chicago Corporation, Fort Lee, NJ.

[22] Filed: Mar. 3, 1971 [21] App1.No.: 120,644

[52'] US. Cl ..417/475, 417/477 [51] Int. Cl ..F04b 43/08, F04b 43/12, F04b 45/06 [58] Field of Search ..417/475, 476, 477, 238

[56] References Cited UNlTED STATES PATENTS 3,597,124 8/1971 Adams ....4l7/477 3,591,319 7/1971 Shilsky ..417/477 3,429,273 2/1969 Jones ..417/477 X 3,431,864 3/1969 Jones ..417/477 X 3,622,252 11/1971 Pickup 3,495,540 2/1970 Edwards ..417/238 Primary Examiner-Carlton R. Croyle Assistant Examiner-Richard E. Gluck Att0rneyKarl F. Ross [57] ABSTRACT 12 Claims, 13 Drawing Figures M l- Illll llllllllmlllllll ll-l-llllllllllll-lllllllll PATENTEDHARZTISYK 3 3,

SHEET 1!]? 4 FIG. 4

1 H H Daniel Gelfand 7 INVENTOR.

. 16 BY W A Attorney PATH-ITFUMARZY m5 SHEET 2 OF 4 FIG. 8

'FIG. 7

Daniel Gelfand I N VEN TOR Attorney PATENTEDHARZYIHB SHEET t 0F 4 Daniel Gelfand I N VEN TOR.

Attorney PERISTALTIC PUMP WITH STACKED COMPONENTS FIELD OF THE INVENTION BACKGROUND OF THE INVENTION A common type of peristaltic type has a rotary head (rotor, barrel or drum) provided with an annular array of angularly equispaced rollers engageable with a flexible-wall tube held along a concave surface constituting.

a support or pressure member.

The rollers successively and progressively collapse the walls of the tube and thereby force liquid to move along the tube in the direction of rotation of the head. The peristaltic pump has some significant advantages. For example, the liquid to be displaced never comes into contact with moving parts of the pump so that the liquid cannot contaminate the pump or be contaminated thereby. To clean the pump, one may simply remove or replace the flexible-wall tubing. Sterility of the liquid can be maintained since the liquid system at least within the pump is closed and the liquid displacement takes place only by peristaltic action applied to the tube.

The feed rate is determined by the rotary speed of the head which is commonly connected to a variable speed motor, and by the caliber or bore-size of the tubing. When, for a given motor range, it is desired to increase the volume flow rate of the liquid, a tube of larger bore or caliber may be substituted. Conversely when it is desired to reduce the volume flow rate for a given motor speed, one merely makes use of a smallerdiameter tube.

However, conventional peristaltic pumps have various disadvantages. For example, there is the problem of creep of the tube when the latter is not held snugly against the support. Secondly, conventional systems operating on more than one tube must provide means for holding them apart so that the tubes do not interfere with one another, such means however may serve to restrict the ability of the pump to accommodate tubes of other sizes. Also, conventional roller heads and supporting members are relatively complex and expensive, are difficult to machine and cannot be replaced at low cost.

OBJECTS OF THE INVENTION It is the principal object of the present invention to provide a simplified peristaltic-pump structure which avoids the aforementioned disadvantages while retaining the advantages ofa conventional peristaltic pump.

It is another object of this invention to provide a peristaltic pump which may be rapidly adjusted to receive tubing of various sizes and, moreover, is capable of operating therewith without increasing the danger of tubing deterioration or decreasing pump efficiency.

It is also an object of this invention to provide a peristaltic pump, especially a rotary head therefor, which is capable of reducing or eliminating creep of the tubing.

It is an object of the invention, moreover, to provide a head assembly and support structure for a peristaltic pump of increased versatility and improved efficiency.

SUMMARY OF THE INVENTION These objects and others which will become apparent hereinafter are attained, in accordance with one aspect of the present invention, by a revolutionary modification of the rotary head structure of a peristaltic pump. i

More particularly, I have found that many of the disadvantages of earlier systems can be removed and a more efficient rotatable head for a peristaltic pump can be produced, when the latter is stacked from a plurality of readily manufactured, mass-produced and identical rotor elements each consisting of a disk provided with an annular array of angularly equispaced rollers and mounted upon a common shaft, the shafts and the disks being provided with key means enabling alignment of .the disks so that either the reverse or the obverse side may face each side of an adjacent disk.

Consequently, the disks may be stacked in back-toback relationship, also referred to herein as parallel stacking, or in face-to-back or head-to-tail relationship, also described as series stacking. In the parallel-stacked relationship, the disks are separated by twicethe height of the rollers and a large-bore tube can be accommodated-between the confronting surfaces for engagement by the rollers spanning same. When, however, the series stacking is provided, each roller spans the space between the obverse surface of its disk and the rear or reverse surface of an adjoining disk so that smalldiameter tubing may be accommodated.

According to a more specific feature of this invention, each of the rotating-head disks may be molded from a synthetic resin integrally with the roller-journaling pins or may receive the pins as separate elements, each of the pins carrying a respective roller, preferably via a bearing. The pins are angularly equispaced about the periphery of the disk but inwardly of the edge thereof and the disk may have a hub portion provided with keying means, e.g., a flat co-operating with a flat one the drive shaft. Similarly, each pressure-bar segment may be molded from a synthetic resin and may be generally of crescent shape or yoke shape, with ears at each end so that each bar may be used in two positions as rotated through about an axis of symmetry of the bar in the plane thereof. A hinge pin swingably connects all of the pressure bars together and the pressure bars may be provided with individual swivel clamps.

According to another aspect of the invention, wear of the rubber tubing is reduced and creep is prevented by interposing between each section of tubing held against the pressure bar and the corresponding arc of the rotating head, a stationary or anchored band of synthetic resin material of high flexibility. Since the encircling band does not move with the disk, the rollers contact the stationary surface of the synthetic-resin band or strip which does not move significantly with respect to the tubing. Hence there is no tendency for the tubing to creep nor is there any substantial wear of the tubing resulting from contact with metal surfaces. The flexible strip may be nylon or the like and is in direct contact with the rollers and the tubing. The tubing itself does not have to be anchored and thus can be changed rapidly. The nylon strip has been found to prevent stretching and creeping as noted earlier and thus acts to prolong the life of the tube indefinitely.

DESCRIPTION OF THE DRAWING The above and other objects, features and advantages of the present invention will become more readily apparent from the following description, reference being made to the accompanying drawing, in

which: v

FIG. 1 is a side-elevational view of a rotating segment, according to the present invention, of a roller head;

' FIG. 2 is a plan view thereof;

FIG. 3 is a vertical elevational view of the rotating members in FIGS. 1 and 2 in series assembly to form a roller head for a peristaltic pump;

FIG. 4 is a lateral elevational view of a pressure-bar segment according to the present invention;

FIG. 5 is a plan view thereof;

FIG. 6 shows the stacked pressure-bar segments for a four-tube peristaltic pump using the head of FIG. 3;

FIG. 7 is a view similar to FIG. 3 but shows the stacking arrangement of the head as used for a tube of twice the diameter of the tube used with the head of FIG. 3;

FIG. 8 shows the parallel stacking of the pressure bar segments of FIGS. 4 and 5; I

FIG. 9 is a perspective view illustrating other features of the invention;

FIG. 10 is a perspective view ofa strip holder according to the present invention;

FIG. 11 is a detailed view thereof from above;

FIG. 12 is a plane view ofa device for controlling the pumping action; and

FIG. 13 is a view taken in the direction of arrow XIII in FIG. 12

SPECIFIC DESCRIPTION In FIGS. 1 and 2, I show the basic element of a rotating head for a peristaltic pump according to the present invention The rotating head segment 1 comprises a molded synthetic-resin or corrosion-resistant metal disk 2 of a diameter 2R and a flat (planar) configuration. The disk is circular and is provided at angularly equispaced locations around its periphery with roller pins 3 having an axial height H and molded integrally with disk 2 or imbedded or fitted therein. At the center of the disk, I provide a metal insert 4 which is formed with an opening 5 chordally truncated at 6 to constitute a noncircular configuration (flat). The opening 5 isdesigned to receive a shaft 7 having a flat 8 designed to prevent relative rotation of the shaft and the disk when the latter is stacked thereon. As represented in dotdash line 9 in FIG. 2, a roller (e.g. provided with ball bearings) is rotatably mounted on each of the pins when the stack is assembled.

In FIG. 3, I have shown a so-called series stack of the disks in which four such disks 10, 11, 12 and 13 are mounted upon a boss 14 of the base plate 15 of the peristaltic pump in which the shaft 7 is journaled. The shaft 7 is driven by a variable speed motor diagrammatically represented at 16. It will be apparent that the space S between the disks 10 and 11, between the disks 11 and 12, between the disks 12 and 13 and between the disks 13 and a cover plate 17 is equal to the height:

H of the respective rollers which are mounted upon the pins 3 mentioned earlier. The rollers 9 can be seen in FIG. 3. Hence between each pair of disks there is provided a channel 18 adapted to accommodate a smalldiameter rubber or synthetic-resin tube. Thus any defined by a ledge 22 and terminating at outwardly extending bifurcated ears 23 and 24. At either end of the crescent there is provided a bore 25 or 26 adapted to receive a hinge pin as shown at 27 in FIG. 6, when the pressure bars are stacked. The ledge 22 ends in an arcuate shoulder 28 adapted to clear the disk portions 2 of the disks of the rotating head when the system is as:- sembled and hence has a radius of curvature R Ar as shown in FIG. 5. However, the ledge 21, which is designed to hold the tubing against the rollers, has a radius of curvature R Ar.

When the pressure-bar segments are stacked (FIG. 6), the underside 29 of each of the pressure bars 31, 32 and 33 abuts directly the upper surface 34 of the underlying pressure bar 30, 31 and 32, respectively. Between each pair of pressure bars there is defined in crescentshaped recess 35, 36 and 37 into which the edge of the disks 10-13 may pass without obstruction.

From FIG. 9, it will be apparent that the head 19 is juxtaposed over a portion of its periphery with the pressure bar 40 made up of the segments 30, 31, 32 and 33 as stacked upon the hinge pin (pintle) 27. Just as each disk 11, 12 or 13 is received in a recess 35, 36 or 37 between the pressure-bar segments, each of the ledges.

21 of the pressure-bar segmentsis received between a pair of disks. Respective sections of resilient tubing 41, 42 and 43 are received within the channels 18 between the disks and engage the ledges 21. Between the tubing and the rotating head 19, there are provided nylon strips 61 which are anchored at 5 0 against rotation and are sufficiently flexible to permit peristaltic compression of the tubing by the rollers. The hinge pin 27 is, of course, anchored to the support plate and the swivel clamp illustrated at 51 may be provided for each of the pressure-bar segments. These swivel clamps comprise eyes 52 mounted upon a rod 53 and rotatablethereon to bring a shank 54 into the notch 55 formed, by the bifurcated ear. The shank 54 is threaded to receive a clamping nut 56 which may adjust the pressure applied to the respective tube. When the same diameter tube is used at all of the roller arrays, I may use a single swivel clamp and connect-the adjustable ends of thepressurebar segments by a rod 60 as illustrated in dot-dash lines in FlG.9.

In FIGS. 7 and 8, I show the system as it is assembled in parallelor back-to-back relationship. The disk 10 with its array of rollers 9 faces the disk 11 while the disk 12 is back-to-back with disk 11 and faces disk 13. In other words, alternate disks are rotated through about a diameter thereof and are disposed mirror-symmetrically in pairs in the drum 69 of FIG. 7. Hence the disks 2 are mirror-symmetrical with respect to a plane 70 of FIG. 8 is used. In this parallel-stacked system, the.

underside 29 of one segment 30 abuts the underside of the next overlying segment 31 which, in'turn, is a faceto-face relationship with a pressure-bar segment 32, the

latter being back-to-back with segment 33. The total width w of the ledges may be slightly smaller than W so as to be accommodated with clearance between the disk members. Here again, a bar 60 may be used to couple the adjustable ends of the pressure-bar segments for joint movement.

An important feature of my present invention is the fact that the use of nylon strips, i.e., flexible but substantially nonstretchable strips, between the rollers and the elastomeric tubes, prevents or severely limits stretching of the pump tubing. Stretching of pump tubing has long been a substantial problem in the peristaltic-pump art. Since the peristaltic pump has a displacement which depends upon the rate of peristaltic counter-action and expansion of the tube and the internal diameter thereof, distension of the tube to change its caliber or bore diameter, results in a modification of the pumping rate or volume in an uncontrolled manner. The nylon strips of the present invention eliminate such stretching.

In FIGS. and 11, I have shown a particularly convenient nylon strip holder which may be used in conjunction with the roller and backing system of FIG. 9 or any of the Figures previously discussed. This holder comprises a generally U-shaped bracket 101 which is mounted on the support plate of the pump and has a base 102 extending in the direction of the roller drum 103. The upstanding arms 104 and 105 of this bracket have flanks 106 and 107 converging inwardly and rearwardly toward a pair of parallel flanks 108 and 109 ofa clamping block 110. The latter is secured to the base 102 and to the support plate of the pump. Along the rear surface of the block 1 10, I attach, via screws 111, a comb-shaped leaf spring 112 having a central web 113 and outwardly extending arrays of fingers 114 reaching toward the arms 104 and 105, respectively, and spaced from the parallel flanks 115 and 116 thereof by a distance which is less than the distance d between flanks 116 and 109 and flanks 115 and 108. When the nylon strip 61 is drawn through the gap 117 or 118 between these pairs of flanks, the fingers 114 are merely deflectedrearwardly (FIG. 11) and clamp the nylon strip. To release the nylon strip, it is merely necessary to deflect each finger 114 outwardly and withdraw the strip. A can be seen in FIG. 10, the fingers correspond in width to the strips which are received in the roller channels for small-diameter tubing. When, however, a channel of double width is created, (FIG. 7) a wider nylon strip such as that shown at 61 is used and is gripped by a pair of fingers 114. The member 112 is composed of spring stainless steel while members 110 and 102 may be die cast from a metal or composed of a synthetic resin.

Another feature of the present invention resides in the use of the pivotal backing or pressure bar members 5 to control the pumping action or select the pumping tubes which are to be affected. In accordance with these principles, each of the pressure-bar segments 130 is swingably mounted on the pivot 127 as noted previously, the pressure-bar segments 130 being of the type illustrated in FIGS. 4 to 6 and 8. However, instead of clamping devices as shown at 51, the free ends of each pressure bar 130 are connected by a screw 131 and a milled nut 132 to a lever 133 individual to that pressure bar. In the position of the lever 133 illustrated in FIG 12, the screw 132 may be rotated to establish the desired pumping pressure upon the tube 129 which is receivedin the channel between the pumping head 128 and the pressure bar 130. In this embodiment, nylon strips (not shown) are also used.

The lever 133 is fulcrumed at 134 to the pump support (e.g. base 15) and is connected at its other end to a toggle linkage 135. A solenoid 136 has a plunger 137 spring biased in the direction of arrow 138 and, therefore, normally holds the pressure-bar segment array from its tube and prevents pumping operation. The toggle 135 comprises a pair of articulated arms 139, 140 which are connected at their hinge 141 to the plunger 137 of the solenoid. Consequently, when the plunger is retracted, the pressure bar segment 130 is swung in the clockwise sense and the tube 129 is engaged. Pumping therefore commences.

To prevent backflow of liquid through the tube, I provide a pinch clamp which is actuated by the solenoid. The pinch clamp comprises a channel 142 through which the tube 129 extends, the open side of the channel being provided with a finger 143 hinged at 144 to the channel and provided with a projection 145 which pinches the tubing when the free end 146 of the finger is shifted by the toggle.

The solenoids 136 can be controlled by individual or collective timers 147 'to program the supply of liquid and block such supply as may be required.

I claim:

1. In a peristaltic pump having a rotatable head adapted to peristaltically compress elastic tubing against a pressure member, the improvement wherein said head comprises a plurality of axially stacked substantially identical rotating segments, each comprising a substantially-circular disk and an array of rollers angularly equispaced about said disk and rotatable about respective axes, parallel to the axis of rotation of said head, said rollers of each disk being located along one side thereof, and keying means for positioning said disks selectively with the roller arrays of adjoining disks in contact and in an axially aligned relationship to define relatively wide tube-receiving channels between the disk and with nonroller sides in contact with the roller arrays of adjoining disks defining relatively narrow tube-receiving channels.

2. The improvement defined in claim 1 wherein said pressure member comprises a stack of substantially identical pressure bars of crescent configuration, each having a recess adapted to accommodate a respective one of said disks and a ledge extending inwardly toward said rollers whereby the side along which the ledge lies constitutes its back and the other side of each crescent bar is its face, and means for positioning said pressure bars selectively in face-to-face relationship when said head is formed with said relatively wide tubes receiving channels and a face-to-back relation when said head is formed with said relatively narrow tube-receiving channels.

3. The improvement defined in claim 2 wherein said pressure bars are each formed with bores extending generally parallel to the axis of rotation of said head and at each end of the respective crescent, at least one bore of each of said pressure bars being aligned with bores of the other pressure bars, the last-mentioned means including a hinge pin extending through the aligned bores and permitting swinging movement of said bars about said hinge pin and an axis parallel to the axis of rotation of said head.

4. The improvement defined in claim 3, further comprising at least one swivel clamp engageable with an end of one of said crescents remote from said pin.

5. The improvement defined in claim 3, further comprising a rod extending through the other bores of all of said pressure bars for joint swinging movement thereof, and clamp means engageable with at least one of said bars for retaining same in a predetermined position relative to said head.

6. The improvement defined in claim 3 wherein each of said disks is formed with a central noncircular opening, said pump further comprising a shaft of noncircular cross-section passing through said openings and constituting said keying means.

7. The improvement defined in claim 6 wherein said shaft and said openings are provided with complementary flats along chordsover a segment and said rollers are arrayed mirror-symmetrically with respect to a said stri s are composed of n plane perpendicular to said disks through the center thereof and the respective chord of the opening perpendicular thereto and with respect to a further plane through said center perpendicular to the first-men- 9. The improvement defined in claim 8 wherein said strips are composed of nylon.

10. In a peristaltic pump having a rotatable head with an annular array of equispaced rollers and a pressure member for retaining a flexible tube between itself and said rollers and extending over an arc of said head, the improvementwhich comprises a flexible strip extending around said rollersover said arc and interposable between said rollers and said tube, and means for anchoring said strip against rotation, said head being formed with a plurality of axially spaced channels each provided with an array of said rollers, said pressure member bearing upon a respective tube received in each of said channels, said pump being provided with such anchored flexible strips between each array of rollers and a respective tube.

11. The improvement defined in claim 10 wherein lon; 12. e improvement de med in claim 11 wherein said means for anchoring said strip comprises a body spaced from said head'and a resilient plate having at least one finger deflectable upon insertion of said strip between said body and said finger and clamping said strip against said body. 1

Patentzitate
Zitiertes PatentEingetragen Veröffentlichungsdatum Antragsteller Titel
US3429273 *5. Dez. 196725. Febr. 1969Jones Charles B JrPeristaltic pump
US3431864 *22. Dez. 196611. März 1969Ireland Army HospitalPeristaltic pump
US3495540 *26. Febr. 196817. Febr. 1970Miles Lowell EdwardsAtraumatic blood pump
US3591319 *17. März 19696. Juli 1971Scientific IndustriesFlow conduit protective member for peristaltic pump
US3597124 *4. Sept. 19693. Aug. 1971Cenco Medical Health Supply CoPerastaltic pump
US3622252 *10. Apr. 197023. Nov. 1971Extracorporeal Med SpecRoller pump with lubricating channels for rollers
Referenziert von
Zitiert von PatentEingetragen Veröffentlichungsdatum Antragsteller Titel
US3791777 *8. Okt. 197112. Febr. 1974Snam ProgettiPeristaltic pump with a plurality of continuously adjustable channels
US3816033 *21. Nov. 197211. Juni 1974Greiner Scient CorpMulti-channel pump
US3832096 *19. Juli 197227. Aug. 1974Buchler InstrMultitube peristaltic pump with individual programming control
US3837433 *5. März 197324. Sept. 1974Roper CorpLubricating system for chain saw
US3876340 *9. Aug. 19738. Apr. 1975Rank Organisation LtdPeristaltic pump having pivotal reaction means
US3927955 *9. Juli 197323. Dez. 1975East West Medical Products IncMedical cassette pump
US3938909 *24. Juni 197417. Febr. 1976Willock Charles BSingle needle alternating flow blood pump system
US4015942 *5. Dez. 19755. Apr. 1977Denley-Tech LimitedApparatus for delivering liquid and removing liquid from a container
US4179249 *7. Dez. 197718. Dez. 1979Cole-Parmer Instrument CompanyQuick loading peristaltic pump
US4218197 *6. Juli 197819. Aug. 1980Beckman Instruments, Inc.Combined peristaltic pump and valve flow controller
US4288205 *18. Jan. 19808. Sept. 1981Pako CorporationVariable volume peristaltic pump
US4289459 *13. Aug. 197915. Sept. 1981Neeley William EProportioning pump
US4297089 *26. Dez. 197827. Okt. 1981Ford Motor CompanyArcuate tubular pump
US4375346 *18. März 19801. März 1983A. T. Ramot Plastics Ltd.Diaphragm pump
US4432707 *21. Juni 198221. Febr. 1984Anko Motors, Inc.Roller assembly for peristaltic pump
US4473173 *10. Jan. 198325. Sept. 1984Applied Color Systems, Inc.Apparatus and method for low volume dispensing
US4522571 *5. März 198411. Juni 1985Little Robert KPeristaltic pump
US4559040 *30. Okt. 198417. Dez. 1985Pancretec, Inc.Segmented peristaltic pump chamber
US4576556 *2. Apr. 198018. März 1986Medtronic, Inc.Roller pump
US4673334 *3. Febr. 198616. Juni 1987Isco, Inc.Peristaltic pump
US4798580 *27. Apr. 198717. Jan. 1989Site Microsurgical Systems, Inc.Disposable peristaltic pump cassette system
US4886431 *29. Apr. 198812. Dez. 1989Cole-Parmer Instrument CompanyPeristaltic pump having independently adjustable cartridges
US4976590 *8. Juni 198811. Dez. 1990Baldwin Brian EFluid conduit-responsively adjustable pump arrangement and pump/conduit arrangement and method, and fluid conduits therefor
US4997347 *12. Jan. 19905. März 1991Autotrol CorporationPeristaltic motor
US5041096 *27. Okt. 198920. Aug. 1991Nestle, S.A.Fluid handling method and system and fluid interface apparatus usable therewith
US5064358 *13. Juni 198912. Nov. 1991Alessandro CalariPeristaltic pump adapted to operate simultaneously on two lines
US5082429 *28. Aug. 199021. Jan. 1992Cole-Parmer Instrument CompanyPeristaltic pump
US5125891 *5. Okt. 198830. Juni 1992Site Microsurgical Systems, Inc.Disposable vacuum/peristaltic pump cassette system
US5190448 *12. Juli 19912. März 1993Sherwood Medical CompanyTube placement and retention member
US5257917 *2. Okt. 19922. Nov. 1993Cole-Parmer Instrument CompanyPeristaltic pump having means for reducing flow pulsation
US5624394 *28. Okt. 199429. Apr. 1997Iolab CorporationVacuum system and a method of operating a vacuum system
US5795328 *12. Juni 199618. Aug. 1998Iolab CorporationVacuum system and a method of operating a vacuum system
US5810766 *28. Febr. 199522. Sept. 1998Chiron Vision CorporationInfusion/aspiration apparatus with removable cassette
US5846061 *8. Nov. 19968. Dez. 1998Board Of Trustees Of Michigan State UniversityPeristaltic metering pump
US5938414 *27. März 199717. Aug. 1999Miura Co., Ltd.Liquid feeding apparatus having a cassette accommodating an elastic tube
US6033060 *29. Aug. 19977. März 2000Topaz Technologies, Inc.Multi-channel ink supply pump
US6039868 *16. Apr. 199721. März 2000First Medical, Inc.Blood separator system
US642590529. Nov. 200030. Juli 2002Med-Logics, Inc.Method and apparatus for facilitating removal of a corneal graft
US64285081. Febr. 20006. Aug. 2002Enlighten Technologies, Inc.Pulsed vacuum cataract removal system
US66636442. Juni 200016. Dez. 2003Med-Logics, Inc.Cutting blade assembly for a microkeratome
US66992859. Febr. 20012. März 2004Scieran Technologies, Inc.Eye endoplant for the reattachment of a retina
US670283215. Okt. 20029. März 2004Med Logics, Inc.Medical device for cutting a cornea that has a vacuum ring with a slitted vacuum opening
US711820325. Aug. 200310. Okt. 2006Hewlett-Packard Development Company, L.P.Peristaltic pump
US7144231 *23. Juli 20035. Dez. 2006Hewlett-Packard Development Company, L.P.Peristaltic pump with ganged tubes
US73002648. Sept. 200327. Nov. 2007Hewlett-Packard Development, L.P.Peristaltic pump
US731170029. Nov. 200025. Dez. 2007Med-Logics, Inc.LASIK laminar flow system
US759163927. Apr. 200422. Sept. 2009Hewlett-Packard Development Company, L.P.Peristaltic pump
US7625189 *9. März 20051. Dez. 2009Zaijun ChengPeristaltic pump
US8083503 *27. Sept. 200727. Dez. 2011Curlin Medical Inc.Peristaltic pump assembly and regulator therefor
US8393879 *27. Apr. 200412. März 2013Hewlett-Packard Development Company, L.P.Peristaltic pump
US8459968 *19. Sept. 201111. Juni 2013Curlin Medical Inc.Peristaltic pump cassette and method of installing same
US8545196 *3. Dez. 20091. Okt. 2013Robert Bosch GmbhHose pump
US887648919. Apr. 20124. Nov. 2014Cemal ShenerPeristaltic pumping apparatus and method
US9518576 *15. Juli 201113. Dez. 2016Elemental Scientific, Inc.Peristaltic pump
US96423427. Okt. 20149. Mai 2017Zoetis Services LlcPeristaltic pump assembly for selective in ovo injection, and associated system and method
US97777203. März 20143. Okt. 2017Blue-White Industries, Ltd.High pressure, high flow rate tubing assembly and adapter for a positive displacement pump
US20050019186 *23. Juli 200327. Jan. 2005Davis Jeremy A.Peristaltic pump with ganged tubes
US20050047946 *25. Aug. 20033. März 2005Hewlett-Packard Development Company, L.P.Peristaltic pump
US20050053502 *8. Sept. 200310. März 2005Hewlett-Packard Development Company, L.P.Peristaltic pump
US20050238515 *27. Apr. 200427. Okt. 2005Hewlett-Packard Development Company., L.P.Peristaltic pump
US20050238516 *27. Apr. 200427. Okt. 2005Hewlett-Packard Development Company, LpPeristaltic pump
US20070104599 *25. Juni 200410. Mai 2007Stephan MichelsPeristaltic pump
US20070148022 *9. März 200528. Juni 2007Zaijun ChengPeristaltic pump
US20080154182 *20. Dez. 200626. Juni 2008Robert MartinDual diameter arthroscopic irrigation/aspiration peristaltic pump system
US20090087325 *27. Sept. 20072. Apr. 2009Voltenburg Jr Robert RPeristaltic pump assembly and regulator therefor
US20110180172 *21. Jan. 201128. Juli 2011Blu-White Industries, Inc.High pressure, high flow rate tubing assembly for a positive displacement pump
US20110274562 *3. Dez. 200910. Nov. 2011Robert Bosch GmbhHose pump
US20130071272 *19. Sept. 201121. März 2013Jeffery T. JuretichPeristaltic pump cassette and method of installing same
US20150283531 *17. Apr. 20138. Okt. 2015Biofire Diagnostics, LlcMicrospotting Device
US20160287779 *4. Apr. 20166. Okt. 2016Cirrus Technologies Ltd.Surgical fluid management system
CN104507577A *17. Apr. 20138. Apr. 2015拜奥法尔诊断有限责任公司Microspotting device
EP2017477A1 *19. Juli 200721. Jan. 2009The Automation Partnership (Cambridge) LimitedAutomated pumping device
EP2217809A1 *25. Sept. 200818. Aug. 2010Curlin Medical Inc.Peristaltic pump assembly and regulator therefor
EP2217809A4 *25. Sept. 200812. Dez. 2012Curlin Medical IncPeristaltic pump assembly and regulator therefor
WO1991010831A1 *10. Dez. 199025. Juli 1991Autotrol CorporationPeristaltic motor
WO1999011933A1 *27. Juli 199811. März 1999Topaz Technologies, Inc.Multi-channel ink supply pump
WO2005031166A1 *25. Juni 20047. Apr. 2005Ismatec Sa, LaboratoriumstechnikPeristaltic pump
WO2009108835A1 *27. Febr. 20093. Sept. 2009Smith & Nephew, Inc.Peristaltic pumping apparatus and method
WO2011116233A1 *17. März 201122. Sept. 2011Georgia Tech Research CorporationValveless pump
WO2013158740A1 *17. Apr. 201324. Okt. 2013Biofire Diagnostics, Inc.Microspotting device
WO2015054144A1 *6. Okt. 201416. Apr. 2015Zoetis LlcPeristaltic pump assembly for selective in ovo injection, and associated system and method
Klassifizierungen
US-Klassifikation417/475, 417/477.3, 417/477.12, 417/477.11
Internationale KlassifikationF04B43/12
UnternehmensklassifikationF04B43/1292, F04B43/1284
Europäische KlassifikationF04B43/12G8, F04B43/12G10
Juristische Ereignisse
DatumCodeEreignisBeschreibung
3. Juni 1991ASAssignment
Owner name: LABCONCO CORPORATION A MO CORPORATION
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:HAAKE BUCHLER INSTRUMENTS, INC., A CORPORATION OF NJ;REEL/FRAME:005719/0479
Effective date: 19881031
3. Juni 1991AS02Assignment of assignor's interest
Owner name: HAAKE BUCHLER INSTRUMENTS, INC., A CORPORATION OF
Effective date: 19881031
Owner name: LABCONCO CORPORATION A MO CORPORATION