SU1681068A1 - Single side action hydraulic cylinder - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to mechanical engineering and concerns the design of single-acting hydraulic cylinders equipped with a device for periodically returning leaks to a hydraulic system. The purpose of the invention is to improve ease of operation. The piston 4 has a one-sided V-shaped rubber lip seal 6 installed with its working edges in the direction of the piston working cavity 7. A float-type check valve 10 is connected to the hole 9 of the rod cavity, providing free flow of the air mixture from the rod cavity and back and

Description

the rod end into the piston cavity through the V-back valve 10. 1 sludge.

The invention relates to mechanical engineering and concerns the design of single-acting hydraulic cylinders, such as truck and electric loaders, and can be used in the control system and distribution of the working fluid, in particular for periodic return of the working fluid to the hydraulic system.

The aim of the invention is to improve ease of operation.

The drawing shows a single-acting hydraulic cylinder.

The single-acting piston cylinder 1 has a housing 2 with a stem 3 accommodated therein, the piston 4 is installed. The working surface of the stem 3 is sealed with a single-sided V-shaped rubber cuff 5, and the piston 4 has a similar lip seal 6 installed by its working edges in the side of the piston working cavity 7. The rod end 8 has an outlet 9, to which a non-return float valve 10 is attached, providing a free flow of air mixture from the rod end and back and not passing The working fluid leakage occurring during the reciprocating movement of the piston due to the pressure difference in the cavities,

The location of the outlet 9 corresponds to the position of the piston close to the extreme from the rod end.

The check valve 10 attached to the rod cavity 8 has a body 11, made with a saddle 12 and a working chamber 13, with a ball 14 placed inside it (a locking element) mounted below the saddle on the hollow float sleeve 15, muffled from the ball side and having radially located holes 17 in the lower conical part abutting on the plug 16. The lid 18 comprises an outlet 19. The working chamber 13 of the check valve is connected to the rod end 8 of the hole 20. The piston cavity 7 of the hydro cylinder 1 communicates through the choke 21 post nnogo of consumption and distributor

22 with an oil tank 24. A filter 25 is installed between the hydraulic valve 22 and the oil tank 24 in the discharge line. Between

A pressure valve 28 is installed by a pressure line 26 and a drain line 27. A check valve 10 forms a device for returning leaks to the hydraulic system.

The hydraulic cylinder operates as follows.

The working fluid is pumped

23 from the oil tank 24 through the injection line 26 through the hydraulic distributor 22 and the constant flow throttle 21 to the piston

cylinder 7 cavity 1. At that, the rod 3 with the piston 4 moves towards the rod end 8, having lifted the load. The air mixture from the cavity 8 under the action of the piston 4 is freely displaced through the opening 20, the working chamber 13 and the outlet 19 of the valve 10 to the atmosphere, since the valve ball 14 is under the action of its own weight on the float sleeve 15 abutting the plug 16. lowering the control valve 22 is set to the lowering position, the pump is turned off and the working fluid is lifted out of the piston 7 of the hydraulic cylinder 1 through the throttle valve 21, the hydraulic distribution valve is displaced from the piston cavity 7 of the hydraulic cylinder 1. Spruce 22 and filter 25 to be drained via line 27 to drain into the oil tank 24. The air mixture again through valve 10

freely fills the cavity 8. In the course of the loader's operation, a multiple lifting of the full or partial stroke of the piston 4 is performed in this way. At the same time, there is a slight flow of working fluid from the piston cavity 7 of the hydraulic cylinder 1 into the rod cavity 8 through the seal 6, directed by its working edges towards the piston cavity. The amount of fluid leakage in the implementation of the piston 4 incomplete strokes gradually increases until it reaches a value exceeding the residual volume.

When performing a full lift under the action of the piston 4, the leaks are directed from the rod end 8 to the check valve 10, filling its working chamber 13. At the same time, through the openings 17, this liquid enters the float sleeve 15. compressing and supporting the air in it, while 15 with the ball 14 pops up, pressing the latter to the saddle 12, blocking the outlet opening in the check valve body. Thus, the rod cavity is locked. Upon further movement of the piston 4, the pressure of the working fluid in the rod cavity 8 increases as a result of the difference in the piston areas from the rod and piston cavities by an amount slightly higher than the hydraulic pressure in the piston cavity, but sufficient to return leakage through the one-sided V-shaped cuff 5 from the rod cavity into the piston one, since the cuff is directed with its working edges towards the piston cavity and in this direction it cannot seal the gap between the piston 4 and the body 2 of the hydraulic cylinder 1. Return echek in the piston chamber 7 will occur as long as the piston 4 has exhausted its stroke. In cavity 8, only the residual volume of fluid will remain. When the piston moves back in the rod cavity 8, a vacuum will occur, part of the liquid remaining in the check valve, together with the air mixture, is sucked into the rod cavity 8 of the hydraulic cylinder 1 and placed above the piston 4. After some cylinder work, the excess liquid (leakage) during movement

The piston 4 to the extreme upper position will again be removed from the rod end and returned to the hydraulic system in the manner described.

Claims (1)

Claims of the invention A single-acting hydraulic cylinder comprising a vertically positioned housing with a piston with a rod located therein, the piston cylinder cavity located at the bottom communicating with the pump and the tank, and the cavity located at the top of the rod rod, and a device for returning leaks to the hydraulic system that differs In order to improve the convenience of operation, the leak recovery device includes a check valve comprising a housing connected to the cylinder body; with a working chamber located above the saddle, a hole for communication of the working chamber with the rod end of the hydraulic cylinder and with holes above the saddle for communication of the working chamber with the atmosphere, and a float with a locking element placed in the working chamber of the valve to interact with the valve seat, rod the hydraulic cylinder cavity communicates with the atmosphere through the holes, the working chamber and the seat of the check valve body, while the hydraulic cylinder piston is equipped with a one-sided V-shaped lip seal, installed on the piston of the hydraulic cylinder from the side of the piston cavity and facing it with its working edges.