KR100236732B1 - Swash plate piston pump.motor - Google Patents

Abstract

The valve plate has several eyebrow port ports for switching the supply of high pressure and low pressure oil, a small diameter hole for introducing hydraulic pressure therebetween, and a jaw formed to communicate with the small diameter hole on the opposite side of the cylinder block to the end face of the cylinder block. A swash plate piston pump and a motor characterized by providing a hole and a piston inserted slidably in the axial direction to pressurize the valve plate to the cylinder block end face by pressure. .

By the above configuration, the valve plate is in pressure contact with the end face of the cylinder block to prevent leakage from the surface sealing portion, to reduce noise at low flow rate, and to improve the pump performance at stall.

Description

Swash plate-type piston pumps and motors

1 is an overall sectional view of a swash plate piston pump and motor according to the present invention;

2 is an overall sectional view of a swash plate piston pump and motor showing another embodiment according to the present invention.

3 is a cross-sectional view of FIG.

4 is a b-b cross-sectional view of FIG.

* Explanation of symbols for main parts of the drawings

10 shaft 12 cylinder block

14 cylinder hole 16 piston

18: cover 20: valve plate

22: distribution hole 24a, 24b: bearing

26: shoe 28: swash plate

30a, 30b: eyebrow port 31: notch (切 欠 溝)

32: bush 34: supply port

36: discharge port 40, 46: hole with a jaw

42, 48: piston 44, 50: small diameter hole

The present invention relates to an improved swash plate piston pump and a motor, and more particularly, to a swash plate piston pump and a motor in which the leakage amount and noise of a pump are reduced.

This has been performed by a valve plate for converting high and low pressure oils of a conventional swash plate piston pump and a motor, and a plurality of bushes that also serve as a slide surface of a cylinder block end face.

However, such pressing of the bush end face needs to be kept to a minimum to avoid melting of the contact surface between the valve plate and the cylinder block due to the friction loss torque caused by the pressing force or the excessive pressing force.

In addition, in order to improve the self-absorption performance and reduce the pressure loss, it is necessary to form a large flow path of the brow port portion of the valve plate. It is arrange | positioned in the position away from an upper point and a bottom dead center.

Here, the top dead center and the bottom dead center refer to discrete top and bottom discontinuous portions of a pair of eyebrow ports arranged symmetrically on the valve plate, where the flow of oil is blocked.

Therefore, in the top dead center and the bottom dead center between the left eyebrow port and the right eyebrow port for converting high and low pressure oils, as a means for smoothly changing the high and low pressure oils, various shapes have been used so far. Nevertheless, a pressure higher than the driving pressure is enclosed in the cylinder bore portion of the cylinder block which rotates during the conversion to the high and low pressure. Will be

As a result, at the top dead center and the bottom dead center, the surface sealing portion where the cylinder block end face and the valve plate come into contact with each other generates a pressure higher than the driving pressure, causing the surface sealing portion to deviate. ), It causes load fluctuations, vibrations and noises due to intermittent leakage, and increases the amount of leakage during stall.

Therefore, an object of the present invention is to drill and install a hole with a jaw communicating with the cylinder hole of the cylinder block through the small diameter hole in the upper and lower dead centers of the valve plate. And inserting a piston into the jaw-hole, and introducing the pressure enclosed in the cylinder-hole of the cylinder block into the jaw-hole through the small diameter hole to pressurize the valve plate to the end face of the cylinder block. To provide a swash plate type piston pump and a motor that can suppress leakage, reduce noise at low flow rate, and improve pump response at stall.

A swash plate piston pump and a motor according to the present invention for achieving the above object constitute a cylinder block and a shaft integrally, and are freely supported by a bearing, and pistons are provided in a plurality of cylinder holes formed in the cylinder block, respectively. At the same time, the end face of the cylinder block is positioned with a cover, and the slide is freely pressurized to the valve plate freely movable in the axial direction of the cylinder block. A swash plate piston pump configured to slidably insert a bush in communication with a port on a suction side or a discharge side into the cover and pressurize the end face of the valve plate to the end face of the cylinder block by a hydraulic force acting on the bush. In the motor, the valve plate is a high pressure and low pressure oil A plurality of eyebrow-shaped ports for converting the supply of pressure, Iii) a small diameter hole for introducing the cylinder, a hole having a jaw formed to communicate with the small diameter hole on the opposite side of the end face of the cylinder block and the sliding surface, and a piston slidably inserted in the jaw hole in the axial direction; When the small diameter hole is in communication with the flow hole of the cylinder bore of the cylinder block, the excess hole is formed to extend in the direction of the small diameter hole at both ends of each eyebrow port. The small diameter hole is formed to communicate with at least one eyebrow port through a cutout for avoiding pressure, and the pressure oil introduced into the cylinder hole from the eyebrow port passes through the small hole. It is introduced into the hole with a jaw, characterized in that configured to pressurize the valve plate to the cylinder block cross section by the pressure generated at this time.

At this time, the valve plate is composed of a plurality of eyebrow-shaped port and the small diameter hole for introducing the pressure oil in the cylinder hole between the eyebrow-shaped port, and the small diameter hole in the end surface of the cylinder block and the surface that slides on the valve plate side of the cover A hole with a jaw communicating with it is formed, and a hydraulic piston is slidably inserted into the hole with the jaw in the axial direction, and the hydraulic force is introduced from the cylinder hole into the hole with the jaw through the hollow piston. By the valve plate may be configured to be in pressure contact with the cylinder block cross section.

The swash plate piston pump and the motor according to the present invention form a hole with a jaw communicating with the cylinder hole of the cylinder block through a small diameter hole on the upper and lower dead centers of the valve plate, and inserting a piston into the hole with the jaw. In addition, the pressure enclosed in the cylinder hole of the cylinder block is introduced into the hole with the jaw through the small diameter hole to pressurize the valve plate to the cylinder block end surface, thereby suppressing leakage from the surface sealing part and reducing noise at low flow rate. This can improve the pump performance at stall.

Next, the swash plate piston pump and motor according to the present invention will be described in detail below with reference to the accompanying drawings, taking the case of a motor as an example.

1 is an overall sectional view of a swash plate piston pump and a motor according to the present invention, FIG. 2 is an overall sectional view showing another embodiment of a swash plate piston pump and motor, FIG. 3 is a a cross-sectional view of FIG. 1, and FIG. bb cross section.

In FIG. 1, reference numeral 10 denotes a shaft, and the shaft 10 is integrally formed with the cylinder block 12.

The cylinder block 12 is freely supported by a pair of bearings 24a and 24b, and a plurality of cylinder holes 14 are drilled on the concentric circles of the cylinder block 12, and each of the cylinder holes 14 Pistons 16 are respectively inserted in the axial direction so as to be slidable. These pistons 16 pressurize the swash plate 28 through the shoe 26 engaged with the spherical bearing of the piston end, and slide on the swash plate surface by the component force generated on the swash plate surface. 12) is configured to give rotational force.

In addition, a slide surface with the valve plate 20 is formed in the cross section of the cylinder block 12, and a flow hole 22 communicating with a plurality of cylinder holes 14 is formed in the slide surface.

In addition, as shown in FIG. 3, a pair of eyebrow-shaped ports 30a and 30b are formed on the valve plate 20 in a symmetrical YY axis, and the eyebrow-shaped ports 30a and 30b are valve plates 20. The inner surface passage of the bush 32 and the flow passage of the cover are in communication with a plurality of distribution holes 22 on the slide surface side of the valve plate 20 and slidably inserted into the holes formed inside the cover 18 on the rear surface side of the valve plate 20. It is configured to communicate with the supply port 34 and the discharge port 36 via.

And the slide surface between the valve plate 20 and the cylinder block 12 is to be carried by the hydraulic force acting on the surface, but the bush 32 having a working area that can obtain a pressing force slightly larger than this acting force The valve plate 20 is in pressure contact with the slide surface of the cylinder block 12 end face by this.

As shown in FIG. 1, there is a slight gap between the inner end surface of the cover 18 and the back surface of the valve plate 20, and the contact portion between the end surface of the bush 32 and the valve plate is pressurized without any gap. Even if the cylinder block is slightly inclined due to the squareness error of the component, the valve plate 20 is configured to follow the inclination.

Next, the operation of the swash plate piston pump and motor will be described.

When the high pressure oil acts on the supply port 34 shown in FIG. 1, the pair of eyebrow-shaped ports 30a of the valve plate 20 via the flow path in the cover 18 and the inner diameter path of the bush 32. High pressure oil is introduced into only one port 30a of 30b), and high pressure oil acts on the piston 16 in the cylinder hole 14 corresponding to the eyebrow port 30a.

By the action of the high pressure oil, the piston 16 presses the swash plate 28 through the shoe 26 engaged with the spherical bearing of the piston end, and slides on the swash plate surface by the component force of the swash plate surface. Torque is applied to the block 12 to generate torque as a motor.

In addition, the other eyebrow port 30b is in communication with the discharge port 36 of the retracted oil, and the piston 16 moved to the bottom dead center by the rotation of the cylinder block 12 is converted from the high pressure side to the low pressure side. (See Figure 3).

At the time of this conversion, if there is a sudden change in pressure, noise and vibration are generated, so that notches of various shapes, i.e., cutouts (V-shaped cross section in this embodiment) are formed at both ends of the eyebrow port 30a, 30b. 31) to reduce the sudden pressure change during the change from the high pressure side to the low pressure side.

In this case, even if the amount of bypassing from the high pressure side to the low pressure side is excessively increased, that is, even if the abrupt pressure change during the conversion from the high pressure side to the low pressure side is excessively reduced, the volume efficiency is lowered and the vibration is increased. In general, the required pressure must be enclosed in the cylinder hole 14 during the conversion to generate the required pressure. Therefore, the pressure is gradually changed by the change in the cross-sectional area of the cutout 31, and the excessive encapsulation is performed. It is comprised so that generation | occurrence | production of a pressure may be avoided and an appropriate sealing pressure is generated.

As shown in FIG. 3, the piston 16 in the cylinder block 12 rotates to the position of the distribution hole 22 at the bottom dead center between the left eyebrow port 30a and the right eyebrow port 30b. When it does, the sealing pressure is generated in the cylinder hole 14, and the force which makes the surface sealing slide part between the valve plate 20 and the cylinder block cross section generate | occur | produces.

In order to seal the surface against this reaction force, the valve plate 20 is pressurized through a plurality of bushes 32. However, when the pressure is increased, the frictional resistance is increased and the mechanical efficiency is lowered to melt. Since this may occur, it is necessary to minimize the pressing force.

In addition, the bush 32 serves as a function of pushing the valve plate 20 and a flow path, and as a flow path, increases the flow area as much as possible to improve self-sufficiency and pressure loss. For this reason, the position of the bush 32 is limited to the area of the eyebrow port which is separated from the top dead center and the bottom dead center of the valve plate 20.

As a result, the positions of the top and bottom dead center where the force that separates the sealing surface between the valve plate 20 and the end face of the cylinder block 12 are generated are different from the positions where the pressing force is applied to the bush 32. When pressure is generated, the sealing surface between the valve plate 20 and the end face of the cylinder block 12 is slightly separated by overcoming the bush pressing force, where high pressure oil leakage occurs.

Therefore, when the motor is driven at a low flow rate, the load pressure fluctuation due to this oil leakage, vibration, noise, or leakage at stall due to this is high, so that the load pressure is not sufficiently taken.

Thus, in the cylinder block, a jaw hole 40 is formed in the upper and lower surfaces of the valve plate 20 corresponding to the upper and lower dead center positions where the sealing pressure is generated, and the piston 42 is slidably inserted therein. The small diameter hole 44 is drilled on the bottom surface of the jaw-hole 40 so as to be in communication with the cylinder hole 14 corresponding thereto. 12) It is possible to act to pressurize the cross section in reverse (only the piston at bottom dead center is shown in FIG. 1).

In addition, although the motor block was described in this cylinder block, of course, a pump has the same effect.

In the other cylinder block shown in Fig. 2, a jaw hole 46 is formed in the valve plate 20 side of the cover 18, and the hollow piston 48 is slidably inserted therein, and the jaw By forming a small diameter hole 50 in the valve plate 20 so as to be in communication with the cylinder hole 14 corresponding to the hole 46 having the same, the cylinder oil 14 is pressurized to pressurize the hollow piston 48. It may be introduced into the jaw-hole 46 from the side.

As evident from the above embodiments, the swash plate piston pump motor according to the present invention drills a hole with a jaw communicating with the cylinder hole of the cylinder block through a small diameter hole on the back surface of the upper and lower dead centers of the valve plate. Place the piston in the hole with the jaw and seal it in the cylinder hole of the cylinder block. The pressure from the surface sealing portion is suppressed by introducing the pressure into the hole with the jaws through the small diameter hole and pressurizing the valve plate to the end face of the cylinder block to reduce the noise at the low flow rate and to improve the pump performance at the stall. It can be planned and has an excellent effect.

As mentioned above, although preferred embodiment of this invention was described, this invention is not limited to the above-mentioned embodiment, Of course, various design changes can be made within the range which does not deviate from the mind of this invention.

Claims (2)

The cylinder block and the shaft are integrally formed, and the bearing is freely supported by the bearing, and the piston is slidably inserted into each of the plurality of cylinder holes formed in the cylinder block, and the cross section of the cylinder block is positioned with a cover. A slide slides freely and tightly into a valve plate which is fixed and moves freely in the axial direction of the cylinder block, and a bush which communicates with a port on a suction side or a discharge side on the rear surface of the valve plate is slidably inserted into the cover. And a swash plate piston pump / motor configured to pressurize the end face of the valve plate to the end face of the cylinder block by a hydraulic force acting on the bush, wherein the valve plate has a plurality of valves for switching the supply of high pressure oil and low pressure oil. Eyebrow port, pressure between the eyebrow port A small diameter hole to be introduced, a hole having a jaw formed to communicate with the small diameter hole at an opposite surface of the end face of the cylinder block and a sliding surface, and a piston axially slidably inserted into the hole having the jaw; When the ball is in communication with the flow hole of the cylinder hole of the cylinder block, a cutout for avoiding the excessive sealing pressure formed by extending in the direction of the small diameter hole at both ends of each eyebrow-shaped port The small diameter hole is formed so as to communicate with at least one of the eyebrow-shaped port through, and the pressure oil introduced into the cylinder hole from the eyebrow-shaped port is introduced into the hole with the jaw through the small-diameter hole, and by the pressure generated A swash plate piston pump, characterized in that the valve plate is brought into pressure contact with the end face of the cylinder block. motor. 2. The valve plate according to claim 1, wherein the valve plate comprises a plurality of eyebrow-shaped ports and a small diameter hole for introducing pressure oil in the cylinder hole between the eyebrow-shaped ports, and the end face of the cylinder block and the surface sliding on the valve plate side of the cover. A side with a jaw communicating with the small diameter hole is formed on the side, and the hollow piston is slidably axially inserted into the hole with the jaw, and the jaw-hole through the hollow piston from the cylinder hole side. A swash plate piston pump and a motor, wherein the valve plate is configured to pressurize the end face of the cylinder block by the hydraulic force introduced into the cylinder block.