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Publication numberUS2403572 A
Publication typeGrant
Publication dateJul 9, 1946
Filing dateSep 1, 1944
Priority dateAug 31, 1943
Publication numberUS 2403572 A, US 2403572A, US-A-2403572, US2403572 A, US2403572A
InventorsDavid Wittenberg
Original AssigneeDavid Wittenberg
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Rotary pump
US 2403572 A
Abstract  available in
Previous page
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Claims  available in
Description  (OCR text may contain errors)


I Filed Sept. 1, 1944 0M0 MTTf/VEEEG Patented July 9, 1946 uNiTEo STATES PATENT orrica ROTARY PUMP David Wittenberg, Romema, Jerusalem,



Application September 1, 1944, Serial No. 552,227 In Palestine August 31, 1943 or gas contained in the tube in front of the rotating rol er or eccentric *disc is pressed in the direction of rotationjand at the same time the tube portions behind the rotating member reassume, owing to their resiliency, their original shape and volume and suck in fresh fluid. The fluid flows without interruption and no check valve need to be provided to prevent any reflux, since the tube is always compressed at one point.

The new pump ofiers several important advantages. There is no piston or rotor moving within the liquid pumped, it has the appearance of the known rotary pump, but has no stufilng boxes for a piston rod or rotor shaft and corrosive liquids or gases can be easily handled without any protective coating hitherto used for the piston or rotor.

The invention is illustrated in the annexed drawing, wherein,

Fig. 1 is an elevational view of the pump; Fil ig. 2 is a vertical section on the line IIII of Fig. 3 and Fig. 4 show constructional details on a larger scale.

The new pump comprises a rubber tube I bent into a coil with preferably slightly more than one turn only. The coil is accommodated in an iron cylinder 2 with cast short intake and outlet pipes 3, 4. The coil is held in the cylinder by projecting with its ends into the pipes 3, 4. Cylinder 2 is closed at one end by a screwed on cover 5, and is attached at the other end to the flange 6 of a shaft bearing I forming part of a pedestal I. In the bearing 1 is'journalled a shaft 9 projectin with one end into the tube coil, where it has keyed thereto an'eccentric disc ID. The outer end of shaft 9 may be coupled to an electromotor or transmission.

To reduce the friction otherwise occurring between the rotating eccentric and the tube, a metallic ring H is arranged on the circumference of the eccentric which rolls upon the flattenedtubewhilethe eccentric rotates within. the ring. The metallic ring ll flts tightly into the inner space of the coil so that the wear of the 2 pipe by the rotation of the eccentric is completely eliminated. The width of the ring is approximately the same as that of the cylinder 2.

For further reducing the friction between the ring II and the tube-coil, the ring H is provided with a pin l2 engaging into a slot of a bar I! pivoted by means of another pin it to an eye I! of the casing 2. While the eccentric 1S rotating pin 1! slides in the slot and the bar l3 oscillates about its pivot and prevents ring H from rotating. Thus no relative movement takes place between the contacting surfaces of the ring I l and the tube. Tube I may be provided with prolecq tions or buttons l6 fitting into corresponding depressions or the ring II, thus wholly preventing turn, a cylindrical casing in which this coil is fixed, an eccentric disk rotatable within the coil. and a metallic ring inserted between the eccentric and the coil, the coil being provided "with projections fitting into recesses of the said eecentric disk being adapted, by means of said ring, to compress said tube progressively and continuously through an angle of 360 with elimination, by said ring, of friction between said diskand tube.

2. A rotary pump comprising a resilient tube of circular cross section, bent into a helical coil having slightly more than one full turn and having side lines parallel to its axis thronghout'its length, a cylindrical casing, in which this coil is fixed, an eccentric disk rotatable within the coil,

and a metallic ring inserted between the eccen-' angle of 360 with elimination, by said ring, of

friction between said disk and said tube.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2428619 *Nov 6, 1944Oct 7, 1947Norvel DouglasRotary pump or the like
US2617362 *Sep 2, 1948Nov 11, 1952Ben G ParsonsFluid motor or pump with collapsible chamber
US2693766 *Dec 12, 1950Nov 9, 1954Antoine Seyler LeonRotary pump of the resilient tube type
US2768638 *Jul 12, 1954Oct 30, 1956Badger Meter Mfg CoFluid chemical treating system
US2952210 *May 15, 1958Sep 13, 1960Rohm & HaasFluid pump
US2977890 *Feb 1, 1957Apr 4, 1961Antoine Seyler LeonPumps and compressors of the flexible-tube type
US3109383 *May 8, 1961Nov 5, 1963Muller John TMetering device
US5057278 *Apr 26, 1990Oct 15, 1991Minnesota Mining And Manufacturing CompanySterile loop calibration system
US5171029 *Aug 20, 1991Dec 15, 1992Minnesota Mining And Manufacturing CompanySeal construction for pump apparatus
US5278072 *Mar 12, 1992Jan 11, 1994Minnesota Mining And Manufacturing CompanyCalibration system and housing
US5348706 *May 24, 1993Sep 20, 1994Minnesota Mining And Manufacturing CompanyCalibration system and method for making
US5420038 *Dec 17, 1993May 30, 1995Minnesota Mining And Manufacturing CompanyCalibration system and housing
CN105492770A *Jun 4, 2014Apr 13, 2016大陆汽车有限责任公司Pump for delivering a liquid
WO2014198597A1 *Jun 4, 2014Dec 18, 2014Emitec Gesellschaft Für Emissionstechnologie MbhPump for delivering a liquid
U.S. Classification418/45, 417/476
International ClassificationF04B43/00, F04B43/12
Cooperative ClassificationF04B43/123, F04B43/0072
European ClassificationF04B43/12E, F04B43/00D8T