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Publication numberUS2546403 A
Publication typeGrant
Publication dateMar 27, 1951
Filing dateMar 13, 1948
Priority dateMar 13, 1948
Publication numberUS 2546403 A, US 2546403A, US-A-2546403, US2546403 A, US2546403A
InventorsPendleton Clyde D
Original AssigneePendleton Clyde D
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Pressure responsive device
US 2546403 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

March 27, 1951 Q D, PEN'DLETON 2,546,403


Filed March 13, 1948 all' ` E lill/[114110111114 INVENTOR. CLYDE D. APENDLE'I'ON ATTOR NEY Patented Mar. 27,- 1951 UNITED STATES PATENT OFFICE PRESSURE RESPONSIVE DEVICE `Clyde D. Pendleton, Eugene, Oreg.

Application March 13, 1948, Serial No. 14,737

A3 claims. l This invention relates to a pressure responsive device wherein liquid pressure is applied on one side of a rubbery diaphragm, stretching it a considerable amount to perform useful work; they diaphragm afterwards returning to its normal unstretched position. Such devices have often been proposed but they have one weak pointthe diaphragm must be held at or near to its perimeter, by compression between two flanges (usually), it being found impossible to equalize the holding grip sufllciently to avoid greatly shortening the life of the diaphragm.

The object of the invention, in short, is to take advantage of the obvious virtues of the diaphragm and cancel or greatly modify its tendency to tear loose at its edge, especially when subjected to a considerable stretch.

A drawing accompanies and forms a part hereof in which the invention is illustrated in its best'form, yas now advised, and a schematic set-up, wherein the invention is used, as on a logging truck, shows one valuable way in which it can be employed; but it is not intended to indicate a limit to its usefulness.

In the drawing:

Fig. 1 is a side view of a hydraulic ram employing the invention, the cylinder and a part of the ram being broken away to show a section of the new packing, in non-active position;

Fig. 2 is the same structure as shown in Fig. 1, save that the ram has been pumped up to load sustaining position; and

Fig. 3 is a section of Fig. 1, taken on the plane 3-3, Fig. 1.

Explaining the drawings in greater detail, numeral I is a plain metal cylinder having a lower cap closure 2, that is detachably attached to the cylinder by adequate means such as bolts 3, which engage with a flanged portion II, of the cylinder I. A ram 4, is a sliding t in the cylinder I.

A highly resilient diaphragm packing of neoprene synthetic rubber or equal, is designated by numeral 5. It is preferably made thicker in its median area as shown in Fig. 1 and the ram 4 will be concaved to receive the thickened portion without initial compressive stress on the diaphragm 5. The diaphragm 5 is circular in form, of materially greater diameter than the ram 4 and has a metal wire ring 6, embedded in and vulcanized ilrmly to the inside of the rubber bead 1, which surrounds it.` The flange I I is machined at I2, into a groove that rmly holds the bead I2 and its contained wire ring 6, when the bolts such as 3, are screwed home,

thus holding the diaphragm by its perimeter and concurrently sealing the cap 2 to the cylinder I. The operation of the device is at once obvious from the illustrations in Figs. 1 and 2. i

A conduit 8, is in communication with the lower side of the diaphragm 5, and will be fed from a pump and reservoir diagrammatically indicated by the pipe 9, which is broken oi.

To avoid time consuming hard labor, the rams will be pumped up before the load is applied; the distance, maximum, being not over threequarters of an inch, though the larger the diameter of the ram, the relatively greater distance of lift there will be available.

The layout includes schematic indications as follows: Numeral I3 represents a solid part of a truck frame and I4 represents a load carrying bunk upon the truck frame, upon which logs or the like are loaded, as indicated by arrows I5 in Fig. 2.

It will be observed in Fig. 2 that the ram 4, has been raised by the forced introduction of hydraulic iluid beneath it, which has stretched the diaphragm 5, somewhat thinning its initially thick median area I6, so that the ram 4 may raise without thinning the diaphragm disadvantageously. The thinning in the drawing is somewhat exaggerated to bring it out.

The diaphragm does not slide over the inside surface of the cylinder I, but is like it was unreeled from a store of rubber. When the ram 4 is raised, preferably before load is applied to save unnecessary hard labor, then the valve I 'I will be closed, entrapping the fluid in the created fluid chamber I8. The pressure gauge I9, will be calibrated to indicate applied load as indicated by the arrows I5 and if there are, say four of the rams, one under each end of the customary two bunks, the total load will be the sum of four gauge readings. As soon as that is noted, each of the rams may be dropped by opening their respective control valves.

I claim:

1. In a pressure responsive device, a cylinder, said cylinder being formed with an integral flanged end, a nished annular groove in said flanged end, a detachable head therefor, bolt means for securing said head to said flanged end, a beaded diaphragm of resilient rubbery material mounted between said head and said cylinder, an annular metal ring vulcanized within said bead, said bead being of a diameter that the bead will match said annular groove to hold the diaphragm by its perimeter when the same is held to the head by said bolt means. and

means for introducing hydraulic uid between said head and said diaphragm to apply pressure against said diaphragm.

2. In a pressure responsive device comprising a cylinder, said cylinder formed with an integral flanged end, a semi-circular annular groove in said ilanged end, a stretchable rubbery diaphragm moulded with an integral bead perimeter, said bead being of a size and shape to match the annular groove, a metal ring embedded in 10 said bead, a head matched and held against said diaphragm by bolts or the like to compress said metal containing bead against said semicircular groove, and the said diaphragm arranged to receive hydraulic pressure on one side.

3. In a pressure responsive device, a cylinder having a anged end, a detachable head secured to said flange, a groove in said angecl end, said head being planar, an elastic diaphragm formed 4 with an integral bead portion forming its perinied ter secured to said flange by said head, said bead of the same perimeter as said groove to t therein and a metal ring vulcanized Within said bead. CLYDE D. PENDLETON.

REFERENCES CITED The following references are of record in the le of this patent:

UNTED STATES PATENTS Y Number Name Date 1,479,733 Quinn Jan. 1, 1924 1,791,717 De Vito Feb. 10, 1931 1,964,745 Sauzedde July 3, 1934 2,272,304 Lohman Feb. 10, 1942 42,372,302 Swindin Mar. 27, 1945 2,437,552 Quiroz Mar. 9, 1948

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1479733 *Nov 20, 1920Jan 1, 1924Joseph Quinn MartinPressure-regulating means for electrically-operated apparatus
US1791717 *Aug 17, 1926Feb 10, 1931De Vito John AHydraulic diaphragm brake
US1964745 *Sep 4, 1931Jul 3, 1934Detroit Hydrostatic Brake CorpPiston head seal for hydraulic brake mechanism
US2272304 *Sep 30, 1940Feb 10, 1942Lohman BrosAntisiphon valve
US2372302 *Aug 15, 1942Mar 27, 1945Nordac LtdDeformable diaphragm for pumps and the like
US2437552 *Feb 2, 1944Mar 9, 1948Kieley & MuellerValve construction
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2758466 *Jan 11, 1951Aug 14, 1956Belcher Harold HSqueeze roll
US3006306 *Feb 7, 1956Oct 31, 1961Gen Tire & Rubber CoHydraulic press
US3664474 *Feb 18, 1970May 23, 1972Allspeeds Holdings LtdTorque transmitting devices
US6105904 *Mar 30, 1998Aug 22, 2000Orbital Research Inc.Deployable flow control device
DE1052816B *Feb 17, 1956Mar 12, 1959Otto OecklHydraulische Hochdruckpresse
WO1999050141A1 *Mar 29, 1999Oct 7, 1999Orbital Research Inc.Deployable flow control device
U.S. Classification92/101
International ClassificationB30B1/00
Cooperative ClassificationB30B1/003
European ClassificationB30B1/00D