SU1222958A1 - Relief valve - Google Patents

Description

The invention relates to reinforcement, and is intended for control devices for mountain hydraulic actuators MaqiHH. The purpose of the invention is to increase durability and reliability by reducing the number of elements included in the unloading valve, simplifying the technology of manufacturing these elements.

The drawing schematically depicts the valve section.

The discharge valve includes a housing 1 with inlet 2, outlet 3 and drain 4 channels. Elastic elements in contact with its surface, made in the form of successively connected and sealed corrugated rings at one end, are placed in a cylindrical housing. The ring 5, located between the inlet and outlet channels and acting as a check valve, has its unbuffled end rigidly connected to the housing and its cavity 6 communicated with the duct 2. Ring 7 acts as a safety valve. The cavities of the rings 5 and 7 are separated by a jumper 8.

Rings 5 and 7 can be made of various materials with the condition that they can absorb the loads from the working pressure in both axial and radial directions due to elastic deformation and constantly contact the surface of the bore 1 of the housing 1 with convex surfaces specified pressure.

The convex surfaces of the rings 5 and 7 can be made flat, smooth or corrugated, i.e. have a wavy surface.

To enable the unloading valve to work at different pressures in the bottom of the housing 1, an adjustment screw with a cup can be installed and a spring is installed between the cup and the movable free end 9 of ring 7.

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50

The relief valve operates in the following way.

When the working fluid is supplied through the pressure line to the inlet 2, it enters the cavity 6 and acts on the jumper 8. Simultaneously, the working fluid acts on the ring 5. Due to the force generated by the working fluid on the jumper 8 and on the outer surface of the ring 5, the last starts to stretch and moves the ring 7 towards the discharge channel 4.

As a result, the diameter of the ring 5 is reduced, the working fluid flows through the gap between the surface of the bore of the housing 1 and the convex surfaces of the ring 5; and enters the piston cavity of the hydraulic post through the channel 3. In this case, the drain channel 4 is isolated from the pressure line by means of a ring.

When a pressure arises in the piston cavity of the hydraulic column, the pressure setting of the safety valve, determined by the rigidity of the ring 7, the working fluid enters the channel 3 and acts on the rings 5 and 7. The convex surfaces of the ring 5 are pressed to the surface of the –drystick of the housing 1 ( the channel 2 is sealed from the inlet of the working fluid from the piston pgd of the hydrocall), and the ring 7 begins to stretch and its free end 9 moves in the direction of the drain channel 4, resulting in a decrease in emp ring 7 and the hydraulic fluid flows through the gap between the surface of the bore of the body 1 and the convex surfaces of the ring 7 in the drain conduit 4.

When the pressure in the piston cavity of the hydraulic column decreases, the force created by it on the ring 7 decreases, as a result of which the ring 7 is compressed due to the elastic properties, while the free end 9 moves in the opposite direction and closes the gap between the surface of the bore 1 and the convex surfaces.

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five

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five

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Claims (1)

UNLOADING VALVE, in the cylindrical bore of the body of which there are placed the respective inlet and outlet, outlet and drain channels, check and safety valves made in the form of elastic elements contacting the surface of the cylindrical bore of the body, characterized in that, in order to increase reliability valve operation, the elastic elements are made in the form of corrugated rings connected in series and damped from one end, while a corrugated ring placed between the input and output by analodes, the non-damped end is rigidly connected to the housing and its cavity is in communication with the input channel.