SU1677294A1 - Hydraulic percussive tool - Google Patents

Abstract

The invention relates to the mining industry and is intended for shock destruction of rocks. Objective 8 enhances the durability of the device and improves the working conditions of the operator by reducing the dynamic loads transmitted to the hull. The hydraulic device includes a housing 1, a head 2 and a separating piston 9, forming a cocking 3, a working 6 and a gas 8 chamber. The piston 9 is made with an additional stage 21, and the case 1 in response to this stage 21 by an additional boring 22. The percussion device is controlled a spool 10, which is connected to the chambers 3 and 6 and the groove 4 by pipelines 11-13. The rebound energy of the striker 2 is perceived by the gas of chamber 8 through the piston 9 and the fluid of chamber 6. 1 sludge.

Description

The invention relates to the mining industry, namely to impact devices for breaking rocks.

The purpose of the invention is to increase the durability of the device and improve the working conditions of the operator by reducing the dynamic loads transmitted to the body.

The drawing schematically shows the device.

The hydraulic percussion device includes a housing 1, in the cavity of which a step head 2 is installed. The surfaces of contact of the case 1 and the step die 2 form a cocking chamber 3, annular grooves 4 and 5, and a working chamber 6. In the lower part of the case 1 a tool 7 is placed. The hydropneumatic accumulator has a gas chamber 8 limited by a separating piston 9 installed coaxially to the striker 2. The impact device is controlled by a spool 10 which is connected with chambers 3 and 6 and rings respectively by pipelines 11-13. 4. The annular groove minutes of flowing ka 5 associated conduit 14 to drain line 15, and line 16 injection pipe 17 to the spool 10. The spool 10 is controlled by guides 18 and plungers 19, wherein the diameter of the plunger 18, the diameter of the plunger 19.

In the pumping line 16, a hydroaccumulator 20 is installed. The separation piston 9 is made with an additional step 21, and the housing is equipped with an additional one at this stage by a bore 22.

The device works as follows.

In the position shown in the drawing, the working fluid in the injection pipe of the Pipeline 16, the spool 10, the pipeline 12 enters the platoon chamber 3 and raises the stepped firing pin 2, while the accumulator 20 is charged and the gas in the gas chamber 8 is compressed also the displacement of the working fluid from the working chamber 6 through the pipeline 13, the valve 10 in line 15 of the drain. The chamber of the control plunger 18 is connected by pipe 11 through the annular grooves 4 and 5, the pipe 14 to the line 15 of the drain.

The raising of the stepped striker 2 takes place until its butt end reaches

an annular groove 4, wherein the control plunger 18 through the pipeline 11, the annular groove 4, the charging chamber 3. the pipeline 12, the spool 10 is connected to the discharge line 16, as well as the control plunger 19, and the spool 10 switches to another extreme position. In this position, the spool 10, the charging 3, and the working chamber 6, with pipes 12 and 13 and the spool 10, are interconnected and connected to the injection line 16. Due to the difference in the working areas of the striker 2 in chambers 6 and 3, the stepped striker 2 begins to move downward, thus discharging the hydroaccumulator 20 and the gas in the gas chamber 8 expands, which leads to accelerated movement of the stepped striker 2 and sharp striking of the tool 7. At the moment of impact, the valve is shifted to lift the stepped hammer 2, as the chamber of the control plunger 18 through pipe 11, annular grooves 4 and 5, pipe 14 is connected to the drain line 15, and the cycle repeats.

After striking 2 strikes on tool 7, the stepped striker 2 rebounds up. The rebound energy of the striker 2 is perceived by the working fluid in the working chamber 6, which acts on the end face of the piston 9. The piston 9 transfers the energy of the rebound of the striker 2 to the housing 1 through the gas content of the chamber 8, which significantly reduces the impact energy of the rebound of the striker 2 to the housing 1 due to the difference in the working areas of the piston 9 in the chambers 6 and 8.

Claims (1)

Claims Hydraulic percussion device, comprising a housing that, with a coaxial and separating piston coaxially installed in its cavity, charges the working and gas chambers with a control spool, characterized in that, in order to increase the durability of the device and improve the working conditions of the operator by reducing transmitted on the case of dynamic loads, the separation piston is made with an additional step, and the case - with the additional boring that corresponds to this additional step.