DE102011120895A1 - Hydraulic pressure accumulator for hydraulic circuits and systems, has inlet member comprising female threads complementary to male threads on end of cylindrical body and defining fluid passageway into cylindrical body - Google Patents

Abstract

The accumulator (20) has a cylindrical body with pair of ends, where each end includes male threads and a shoulder adjacent to the threads. An end cap (50) comprises female threads complementary to the male threads on one of the ends. A piston is sealingly arranged within the cylindrical body. A biasing unit is arranged between the piston and the end cap for biasing the piston away from the end cap. An inlet member i.e. gearbox component, comprises the female threads complementary to the male threads on the other end and defines a fluid passageway into a cylindrical body.

Description

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefit of US Provisional Patent Application Ser. No. 61 / 391,305, filed on Oct. 8, 2010, which is hereby incorporated by reference in its entirety.

TERRITORY

The present disclosure relates to hydraulic accumulators, and more particularly to hydraulic accumulators made from an externally threaded cylinder having adjacent shoulder stops and end closures.

BACKGROUND

The statements in this section are merely background information regarding the present disclosure and may, but need not, constitute prior art.

Accumulators are relatively common components in hydraulic circuits and systems. As their name implies, they are essentially storage devices that accumulate pressurized hydraulic fluid when the supply or flow of hydraulic fluid exceeds the consumption or requirement of a system or device. Conversely, if the consumption or requirement exceeds the supply or flow, the previously stored fluid is expelled from the accumulator to maintain the desired or necessary pressure, or the desired or necessary flow.

Hydraulic accumulators take many forms. Those which are used in motor vehicle automatic transmissions and are relatively small, are formed by a deep-drawing operation of a sheet metal blank or a metal plate. It requires significant post processing to achieve the useable configuration. Another manufacturing process involves welding a plurality of parts, such as a plate rolled into a cylinder, and two end caps along all adjacent edges. Accumulators made from molded tubes or tubes are also known, but these configurations suffer from disadvantages such as high end costs or leaks between poorly assembled pressure accumulator parts. It is therefore apparent that improvements in the art of accumulator design and accumulator fabrication are desirable, and the present invention is directed thereto.

SUMMARY

The present invention provides a hydraulic pressure accumulator having a cylindrical body or a cylindrical housing having external threads at each end and shoulders near the ends of the threads closer to the center of the cylindrical body or the cylindrical housing Attacks act. At one end of the pressure accumulator, an end cap or a closure with internal thread is arranged. The pressure accumulator may be bolted to a manifold or control valve assembly or may have a second threaded end cap having an access, i. H. has an inlet / outlet port. In the accumulator there is a piston which is biased by a pair of compression springs to the manifold, the control valve body or the second threaded end cap.

It is therefore an aspect of the present invention to provide an improved hydraulic accumulator.

It is another aspect of the present invention to provide a hydraulic pressure accumulator having a threaded cylindrical body near each end.

It is yet another aspect of the present invention to provide a hydraulic pressure accumulator comprising a cylindrical body having a peripheral shoulder proximate the thread at each end.

It is yet another aspect of the present invention to provide a hydraulic pressure accumulator having a cylindrical body with a threaded end adapted to be received in a manifold or valve body.

It is still another aspect of the present invention to provide a hydraulic accumulator including a cylindrical body having threaded ends adapted to receive threaded end caps.

It is still another aspect of the present invention to provide a hydraulic pressure accumulator including a cylindrical body with an inner piston.

It is still another aspect of the present invention to provide a hydraulic pressure accumulator including a cylindrical body with a spring loaded piston.

Further aspects, advantages and application areas are given here Description forth. It should be understood that the description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.

DRAWINGS

The drawings described herein are for purposes of illustration only and are not intended to limit the scope of the present disclosure in any way.

1 FIG. 15 is a perspective view of a hydraulic accumulator according to the present invention mounted on a transmission control valve body; FIG.

2 Fig. 10 is a complete sectional view of a hydraulic pressure accumulator according to the present invention;

3 Figure 11 is a full sectional view of a hydraulic accumulator according to the present invention at the pressurization limit of a piston stroke;

4 Fig. 10 is an enlarged sectional view of a hydraulic pressure accumulator according to the present invention, illustrating the various sealing components on the piston; and

5 Figure 4 is a full sectional view of an alternative configuration of a hydraulic accumulator according to the present invention having two end caps and an inlet / outlet port.

PRECISE DESCRIPTION

The following description is merely exemplary in nature and is not intended to limit the present disclosure, its applications, or uses.

In the 1 and 2 a valve body of an automatic transmission is shown and generally with the reference numeral 10 designated. The valve body 10 includes various and numerous passageways 12 communicating between a plurality of cylindrical chambers receiving a like plurality of control valve slides (both not shown). The valve body 10 It also includes hydraulic connections on different hydraulic lines 16 that communicate with other components (not shown) of the automatic transmission, are attached and connect to it. The valve body 10 is typically cast and machined aluminum. On the valve body 10 is in fluid communication with one of the passageways 12 a hydraulic pressure accumulator 20 attached according to the present invention.

As in the 2 and 3 is shown, includes the hydraulic pressure accumulator 20 a central cylindrical body or a central cylindrical housing 22 with a smooth, preferably machined inner surface 24 , At each end of the cylindrical body or housing 22 is on an outer surface 26 an external thread 28 available. Preferably, though not necessary, have the threads 28 the same pitch and the same configuration. Near each end of the thread 28 closer to the middle of the body or housing 22 ie opposite the ends of the body or housing 22 , is a circumferential channel or a circumferential groove 32 arranged. The channels or grooves 32 each take an O-ring seal 34 , which is preferably made of an elastomer, on to hold them. Further, near each channel or groove 32 and the O-ring seal 34 on the side, which is closer to the center of the body or housing 22 located, and removed from the threads 28 a circumferential stop 40 available. The circumferential stops 40 are arranged symmetrically and each have a radially oriented, outwardly extending surface 42 and a radiused or curved surface 44 closer to the middle of the body or housing 22 ,

At one end of the cylindrical housing or body 22 is an end cap 50 available. The forehead cap 50 includes a flat face plate 52 which is in a hanging peripheral side wall 54 passes over and is sized to fit over the end of the cylindrical body or housing 22 fits. The inner surface 56 the drooping sidewall 54 has an internal thread 58 on, in all respects to the external thread 28 on the body or housing 22 is complementary. The side wall 54 includes a frontal surface or shoulder 62 , wherein the axial inner length of the side wall 54 is slightly longer than the distance from the outward facing surface 42 the circumferential stop 40 to the body or housing 22 so if they are on the body or housing 22 installed and tightened, the frontal surface or shoulder 62 with the outward facing surface 42 at the peripheral stop 40 comes in contact or strikes before the threads 28 and 58 reach the limit of their movement or before the end of the body or enclosure 22 with the inner surface of the flat face plate 52 the forehead cap 50 got in contact. The forehead cap 50 also includes a smooth and unthreaded annular area 64 on its inner surface 56 near the frontal surface or shoulder 62 where the adjacent O-ring seal 34 sits when the end cap 50 is attached and completely on the end of the body or housing 22 sitting.

At the opposite end of the cylindrical body or housing 22 are the external threads 28 in the valve body 10 received, which has a cylindrical opening or a cylindrical connector 70 with an inner surface 72 which has an internal thread 74 has, in all respects to the external thread 28 on the body or housing 22 is complementary. At the outer end of the cylindrical opening or the cylindrical connection piece 70 is a frontal surface or shoulder 76 available. It should be appreciated that the configuration of the cylindrical opening or the cylindrical fitting 70 ie, the axial length thereof, and the location of the end surface or shoulder 76 again such that during assembly, the adjacent outward facing surface 42 of the adjacent circumferential stop 40 on the body or housing 22 with the frontal surface or shoulder 76 comes in contact or strikes before another movement limiting the contact between the threads 28 and 74 or the end of the body or housing 22 and the interior of the valve body 10 will be produced. The inner surface 72 also includes a smooth or unthreaded annular portion 78 near the front ring or forehead shoulder 76 on which the adjacent O-ring seal 34 sits when the cylindrical body or the cylindrical housing 22 is joined together and completely in the cylindrical opening or the cylindrical connector 70 of the valve body 10 sitting. As mentioned above, one of the fluid passageways communicates 12 in the valve body 10 with the internal volume of the pressure accumulator 20 ,

In the 2 . 3 and 4 defines the cylindrical body or the cylindrical housing 22 As also noted above, a smooth, preferably machined inner surface 24 holding a piston 80 receives. The piston 80 includes a pair of spaced circumferential channels or grooves 82 , each one a guide ring 84 record and hold. The guide rings 84 are preferably made of PTFE and support the correct axial orientation of the piston 80 in the body or housing 22 , Between the pair of channels or grooves 82 and the guide rings 84 There is a third, deeper circumferential channel or a third, deeper circumferential groove 86 , the or a displacement seal 88 receives. The displacement seal 88 includes a leaf or a wiper 92 and serves as the primary fluid seal between the piston 80 and the surface 24 of the piston or housing 22 , The sheet or the wiper 92 the displacement seal 88 is oriented so that an increased pressure in the accumulator 20 the leaf or the wiper 92 in a closer, firmer contact with the inner surface 24 of the body or housing 22 urges or pushes, thereby improving the seal. The displacement seal 88 is preferably made of Vamac ^® or a similar material. Vamac is a registered trademark of EI DuPont de Nemours Company for its brand of ethylene acrylic elastomers. An O-ring seal 94 made of an elastomer is in a channel or groove 96 on the inner surface 24 of the body or housing 22 near its end near the valve body 10 available.

The piston 80 includes a shoulder 100 between the actual piston 80 and an intermediate diameter area 102 and an elongated shaft portion 104 which has a diameter smaller than the intermediate diameter range 102 is. Around the intermediate diameter range 102 and to the forehead cap 50 running two inserted compression springs sit and are included: an outer compression spring 106 and an inner compression spring 108 , Typically, the outer compression spring has 106 a higher spring constant than the inner compression spring 108 , The two compression springs 106 and 108 have a fully compressed length that is shorter than the distance from the end of the elongate shaft portion 104 to the shoulder 100 , Therefore, before a high pressure in the accumulator against the surface of the piston 80 the compression springs 106 and 108 can completely compress or "reach the bottom", the end of the elongated shaft portion passes 104 with the inner surface of the end cap 50 in contact, as in 3 is shown.

In 5 is an alternative configuration 20 ' of the accumulator 20 shown. The accumulator 20 ' includes the cylindrical body or housing 22 , a first end cap 50 , the piston 80 , the feathers 106 and 108 and a second end cap 50 ' leading to the first end cap 50 is substantially similar, wherein additionally an inlet / outlet port or fitting 112 is available. The accumulator 20 ' is therefore for assembly at a distributor or at a location away, for example, from an automatic transmission, with which it passes through a hydraulic line 114 is connected, suitable.

Depending on the application, the operating pressure range of the pressure accumulator 20 and 20 ' in the range of 275 kPa to 800 kPa or less or more. Depending on the operating pressure range, the material from which the pressure accumulator 20 and 20 ' are made of steel or aluminum. At lower pressures, the production of reinforced plastic is possible.

It should be appreciated that a hydraulic accumulator in accordance with the present invention provides several benefits and advantages. First of all, from the point of view of manufacture or manufacture, all the components of the hydraulic accumulator can be used 20 be rotated without additional post. Therefore, the hydraulic pressure accumulator becomes 20 efficiently and simply manufactured on a conventional plant and on conventional machines. Second, the volume of the hydraulic accumulator 20 be changed easily, in which the length of the cylindrical body or housing 22 is set and in the end caps 50 be used with different lengths. In addition, the length of the piston shaft 104 , the length of the compression springs 106 and 108 and the spring constant of the compression springs are all changed to be suitable for a particular application. Third, the removable end caps make it easier 50 a quick maintenance of the piston 80 , the different seals and the springs 106 and 108 if necessary.

The description of the invention is merely exemplary in nature, and modifications which do not depart from the spirit of the invention are intended to be within the scope of the invention. Such modifications are not considered to depart from the spirit and scope of the invention.

Claims (10)

Hydraulic pressure accumulator, which includes in combination a cylindrical body having a pair of ends, each of the ends having an external thread and a shoulder proximate the thread, an end cap having an internal thread that is complementary to the external thread at one of the ends, a piston which is sealingly disposed in the cylindrical body, a means disposed between the piston and the end cap for biasing the piston away from the end cap, and an inlet member having an internal thread that is complementary to the external thread at the other of the ends and that defines a fluid passageway into the cylindrical body. Hydraulic accumulator according to claim 1, wherein the means for preloading comprises at least one compression spring. Hydraulic accumulator according to claim 1, wherein the preloading means comprises two compression springs. Hydraulic accumulator according to claim 1, wherein the piston comprises at least one circumferential channel and an elastic seal, which is arranged in the channel. Hydraulic accumulator according to claim 1, wherein the inlet member is a component of a transmission. Hydraulic accumulator according to claim 1, wherein the inlet member is a second end cap. Hydraulic accumulator according to claim 1, wherein the external threads extend to the ends of the cylindrical body and the shoulders are arranged at a distance from the ends of the cylindrical body. Hydraulic pressure accumulator, which in combination comprises: a cylindrical body having a first end and a second end, each of the ends having an external thread and a shoulder near the thread, an end cap having an internal thread that is complementary to the external thread at the first end, a piston disposed in the cylindrical body, a means disposed between the piston and the end cap for biasing the piston away from the end cap, and an internally threaded inlet member that is complementary to the external thread at the second end and that defines a fluid passageway into the cylindrical body. Hydraulic accumulator according to claim 8, wherein the piston has a rod which extends to the end cap. Hydraulic accumulator according to claim 8, wherein the preloading means comprises at least one compression spring.

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