SU742660A1 - Pulsating valve - Google Patents

Description

I

The invention relates to apparatus for controlling and regulating hydraulic systems and can be used as a hydraulic drive of vibropresses for pressing articles of complex configurations of metal-ceramic powders.

Pulse valves 1 are known. However, they operate in a safety valve mode and only provide pressure relief in the working cylinder.

A pulsating valve is known, in the casing of which, communicated with the pressure and drain lines, there is a shut-off element in the form of a two-stage transducer on the spring guide rod and a displacement control unit Porshn 2. The device provides a pulse increase in pressure in the working cylinder when the hydraulic accumulator is discharged.

However, this valve constructively contains large energy losses of the impulse as a result of constant connection of the working cylinder cavity with the drain, and there is also no pressure pulse holding.

The aim of the invention is to provide work in a three-way mode alternately connecting the cavity of the working cylinder with a hydraulic accumulator, then with a drain, expanding technological capabilities as a result of delaying the pressure pulse in the working cylinder.

This is achieved by using a hydraulic lock in the pulsator valve, the piston cavity of which is connected to a shut-off cavity placed between the steps of the two-stage piston, and the spherical cavity is connected to the cavity of the working cylinder. An adjustable one-way hydroaccumulator and an adjustable choke are used,

10 connected in series to the locking cavity and the pressure line of the two-stage pressure pipe.

The drawing shows schematically

15 the proposed valve pulsator.

In case 1, which is integrally formed with the case of the actuator, there is a spring-loaded locking spring 2, an organ in the form of a two-stage rock 20 and a 3, the cavity A of which is connected to the pressure line and hydroaccumulator 4. - The locking cavity B located between the steps of the two-stage spring 3, the channel is connected with an adjustable

one-way battery 5 and cavity B, as well as through an adjustable choke 6 with a pressure line. The movement control unit of the piston 3 consists of a ball 7 spring-loaded with a spring 8, and the diametrical horizontal plane of the ball 7 is located below the grooves of the drain cavity G. In the housing 1 there is also a hydraulic lock 9 consisting of a piston 10 that controls the rod 11 the opening of the ball valve 12, spring-loaded 13. The piston cavity D of the hydraulic lock 9 channel communicates with the cavity B, and the ball cavity E-channel with the cavity of the working cylinder J.

The valve-pulsator works as follows.

From the pressure line, the liquid enters cavity A, and the hydraulic accumulator 4 is charged. At the same time, the liquid through the adjustable throttle 6 enters the shut-off cavity B, to charge the one-way adjustable hydroaccumulator 5 and through the channels to the Viv cavity of the piston cavity D hydraulic lock 9. Under the pressure of the fluid in the locking cavity B two-stage piston 3 is pressed against the seat. When the pressure in the pressure line reaches a higher pressure of setting 8, the ball 7 moves away from the saddle, picks up along the pn plane and connects the cavity B with the drain. In this case, full discharge of the hydroaccumulator 5 occurs, and differential pressure occurs on the adjustable throttle 6, which ensures a decrease in pressure in the locking cavity B and the piston cavity D of the hydraulic lock 9. As a result of the difference between the locking cavity B and the pressure cavity A, the two-stage piston 3 moves and connects the hydroaccumulator 4 to the cavity of the working cylinder W, together with the latter, a pressure pulse.

The ball 12 under the action of the spring and the pressure in the cavity E is pressed against the saddle and prevents the outflow of fluid from the cavity J to the drain. At the moment of opening of the locking member 3, the entire flow of fluid rushes into the cavity G, and the ball 7 under the action of the adjustable spring 8 returns to its original position, stopping the outflow of fluid from the cavity B to the drain. When the pressure in the G cavity and the hydroaccumulator 4 is equalized, the controlled one-way hydroaccumulator 5 is charged and the pressure in the cavity B increases. With pressure

determined by the force of the spring 13 and the pressure in the cavity E, the piston 10 moves and by means of the rod 11 moves the ball 12, ensuring the outflow of fluid from the cavity to the drain. When the pressure in the pressure cavity A is lowered, the sprit 3 under the action of pressure in the stop cavity B returns to its original position. The pressure of the fluid in the pressure line and cavity B increases, and with the achievement of its value, determined by adjusting the spring 8, the cycle repeats.

By varying the flow area of the regulated throttle 6 and the volume of the one-way adjustable hydraulic accumulator 5, the dwell time of the pressure pulse and the cycle time are adjusted. At the same time, an adjustable throttle 6 ensures stability of operation, and by changing the volume of the hydroaccumulator 5, the time delay of the pressure pulse in the operating cylinder or cylinder is made due to the change in the time of pressure set in the stop cavity B.

Claims (2)

1. A pulsating valve, in the case of which it communicates with the pressure and drain lines, is placed a two-stage piston with a axial channel and a control unit for the movement of the locking organ, characterized in that, in order to reduce the loss of energy of the pulse and to ensure stability device, it is equipped with a hydraulic lock, made in the form of a piston, which through a rod interacts with a spring-loaded ball, and the piston cavity of the hydraulic lock is in communication with the cavity located between the two-stage stages piston, and the ball cavity is connected to the cavity of the working cylinder. 2. A pulsator-valve according to claim 1, characterized in that the device is equipped with an adjustable choke and a hydraulic accumulator installed in series between the pressure pipe and the cavity between the steps of the two-stage piston. Sources of information taken. In attention during the examination 1. USSR author's certificate number 469021, cl. F 16 K 1/34, 1975. 2. USSR author's certificate number 443219, cl. F 16 K 17/10, 1975.