SU1194667A1 - Percussion-vibrating mechanism hydraulic drive - Google Patents

Abstract

HYDRAULIC DRIVE-VIBRATION MECHANISM, containing a power cylinder with a main piston with a rod and an additional piston located in it, connected to each other by an elastic kinematic connection, and the rod cavity of the main piston is connected by a main line to a distribution valve, communicating it to the pressure and flush valve in turn, communicating it to the pressure piston and the drain piston, which informs it in turn with the pressure and drain piston, which communicates it to the pressure piston and drain valve, which informs it in turn with the pressure and drain piston, which connects it to the pressure piston and the drain valve, which connects it to the pressure piston and drain valve, which connects it to the pressure piston and drain valve. mi, and the support cavity formed between the additional piston and the cylinder body is connected to the line with the locking device, while in the pressure line between the pump and the The distribution valve and the safety valve are installed, and the drain line communicates with the tank, characterized in that, in order to improve the performance of the shock-vibration mechanism by providing automatic supply of the working tool, the distribution valve is designed as a spool pulsator, the locking device is in the form of pressure valve, the input of which is in communication with the pressure line at the battery connection area, and the output with the line connected to the reference Q 9 cavity, at The volume of the hydraulic actuator is provided with an additional line and (L an additional distributor, installed in the pressure line between the safety valve and the battery and in the drain line between the pulsator slide valve and the tank, and the additional line is connected to one of the outputs of the additional distributor and the line communicated with the reference Od cavity. about

Description

The invention relates to mechanical engineering, in particular to percussion machines, for example rock cutting machines, hydraulic hammers.

The purpose of the invention is to improve the performance of the shock-vibration mechanism by providing automatic feeding of the working tool.

The drawing shows a schematic diagram of the hydraulic drive of the shock-vibration mechanism.

The hydraulic actuator contains a power cylinder 1 with a main piston 2 located therein with a rod 5 and an additional piston 3 connected to each other by an elastic kinematic coupling 4, the rod cavity 6 being connected by a main line 7 to a spool valve 8, communicating this line to the pressure 9 and a drain

10 main and supporting cavity

11c is connected by a line 12 with a pressure slide valve 13, the input of which is connected to the pressure line 9 at the connection section of the battery 14 located between the slide valve-pulsator 8 and the additional valve 15 installed in front of the pump 16

and a safety valve 17 and provide a message to the drain line 10 and an additional magTrajra 18 with tank 19.

The hydraulic shock-vibration mechanism works as follows

When the additional distributor 15c is turned on, position A (see diagram), the working fluid is supplied to the pressure line 9, the pressure in which the pressure valve 13 rises and opens. Through the pressure valve 13 through line 12, the working liquid is directed to the support cavity 11 of the power cylinder 1. Additional the piston 3 is moved, causing the main piston 2 to move with the rod 5 to the stop surface. Upon further movement of the additional piston 3, the elastic kinematic link 4 is compressed.

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creating a force on the stock 5. At the same time-. accordingly, the battery 14 is charged. The pressure in the pressure line 9 rises to the switching pressure. spool pulsator 8. After switching the spool pulsator 8, the line 7 communicates with the pressure line 9, through which the working fluid is directed to the rod

10, cavity 6, causing an increase in pressure in the cavity and movement of the main piston 2 from the thrust surface, while the elastic kinematic J5 coupling 4 is further compressed, and the pressure in the pressure line 9 decreases to the switching pressure of the spool-pulsator 8 to its initial position. When the spool pulser 8 is switched to the initial 2Q position, the line 7 is connected to the drain line 10 and the working fluid from the rod end 6 is directed to the tank 19. The main piston 2 with the rod 5 under the action of

25, the elastic forces from the side of the elastic kinematic link 4 move the side of the thrust surface with the impact. In the pressure line 9, the pressure again increases to the switching value of the spool-pulsator 8, and the additional piston 3 moves if the position of the stop surface changes. Then the cycle repeats.

To ensure the mechanism returns to its original position, the additional valve 15 switches to position B (see diagram) and additional line 18 communicates with tank 19, and drain line 10 with pump 16. At the same time, the working fluid is directed to rod cavity 6, and from the support cavity 11 and the battery 14 to the tank 19, causing the main 2 and additional 3 pistons to move to their original position.

Thus, automatic feeding of the working tool associated with the rod 5, and

making his work moves. 50

Claims (1)

A HYDRAULIC DRIVE OF A SHOCK-VIBRATION MECHANISM, comprising a power cylinder with a main piston located in it with a rod and an additional piston, interconnected by an elastic kinematic connection, the rod cavity of the main piston being connected by a main to a distribution valve, which communicates it alternately with the pressure and drain lines, and the supporting the cavity formed between the additional piston and the cylinder body is connected by a line with a locking device, while in the pressure line between the pump and the distribution an accumulator and a safety valve are installed with an integral spool, and the drain line is in communication with the tank, characterized in that, in order to increase the productivity of the shock-vibration mechanism by providing automatic feeding of the working tool, the distribution spool is made in the form of a spool-pulsator, the locking device is in the form pressure spool, the input of which is connected to the pressure line in the connection section of the accumulator, and the output to the line connected to the reference cavity, while the hydraulic actuator nabzhen additional line and additional distributor installed in the pressure line between the safety valve and the battery and a drain line between the slide valve - pulsator and the tub, and an additional line associated with one of the additional outputs of the distributor and manifold communicating with the bearing cavity. > i I