SU1201501A1 - Hydraulic-shock hammer - Google Patents

Abstract

HYDROMOLOT including working tool, impact mechanism with a piston placed in a cylinder, connected through a distribution mechanism with a reservoir of working fluid by a drain pipe and with a pump discharge pipe having an accumulator, so that, in order to increase the efficiency of the hydraulic hammer by using energy hydraulic hammer, the distribution mechanism consists of a pressure valve, which is installed in the pressure pipe between the hammer mechanism and the accumulator, and is kinematically connected to the head The drain valve is installed in the drain pipe, while the drain pipe is connected to the pressure pipe, dia (L meter of which is made equal to the diameter of the cylinder of the percussion mechanism. S o SP

Description

The invention relates to the mining industry and can be used in shock devices for the destruction of rocks and artificial materials.

The purpose of the invention is to increase the operational efficiency of the hydraulic hammer by using the energy of water hammer.

In the drawing _: a schematic diagram of a hydraulic hammer is presented.

Hydromotor contains a working tool 1, which is attached to a piston 2 located in the cylinder 3 of the percussion mechanism. The cylinder 3 has stops 4. Inside the cylinder, a spring 5 is located under the piston. The internal diameters of the pressure pipe 6 and the drain pipe 7 are equal to the internal diameter of the cylinder 3. The pressure pipe 6 has a liquid accumulator 8. Pressure valve 9 is located in the pipe 6 between the percussion mechanism and the battery. The pipeline 7 has a drain valve 10 installed at the entry point of the pipe 7 into the tank 11, which has a stop 12. The valves 9 and 10 are kinematically connected, for example, by a parallelogram 13 with a return spring 14. The tank 11 is connected by a pipe 15 to the pump 16 for supply the working fluid 17 is connected to it. The working tool is in contact with the destructible object 18. To create greater impact energy, an additional drain valve 19 is installed at the entrance of the drain pipe 7 to the pressure 6.

The system is filled with liquid, the volume of which is equal to the volume of pipelines 6 and 15 and the capacity of the pump 16. The tank 11 must contain this volume with some reserve, and the capacity of the battery 8 - the same volumes of liquid and compressed air,

1201501 2 and the pressure of the compressed air must balance the pressure of the liquid;

The hydraulic hammer works as follows ^

The tool 1 rests against the destructible object 18. The pump 16 accelerates the working fluid 17, which strikes the piston 2. The impact through the piston 2 is transmitted to the tool 1, which destroys the object 18. Through the hole connecting the pipelines 6th 7, the fluid moves to the reservoir 15 11, opening the valve 10 with its pressure, the latter rotates to the stop | 2 and, using ·, for example, the hinged parallelogram 13 closes the valve 9. The pressure in the pipe 20 6 from the piston 2 side drops, and the piston 2 with the tool 1 under the action of the spring 5 returns to the original position to the stop 4 ·. The spent liquid from the tank. 11 25 is sucked up by the pump 16 and, while the valve 9 is closed, is supplied to the accumulator 8, compressing the air in it. When the fluid passes from the pipeline 6 from the piston 2 side and from the pipeline 30 7 under the rarefaction action to the reservoir 11, the pressure on the valve 10 decreases and it is closed by the spring 14. · At the same time, valve 9 opens. The working fluid 17 of _{35 of the} accumulator 8 flows into the pipeline 6 and makes a hydraulic shock on the piston 2 .. Then the battery is charged and the cycle continues.

To achieve maximum energy. _n pin ology necessary when gid40 "ravlicheskogo pin of the piston 2 to block the conduit 7 via the valve 19, whereby the impact energy is fully transmitted through the piston 2 to the tool ^) and blasted object 18.

Claims (1)

BREAKER including. a working tool, a percussion mechanism with a piston located in the cylinder, connected through a distribution mechanism to a working fluid reservoir with a drain pipe and a pressure pump pipe having a battery, characterized in that, in order to increase the efficiency of the hydraulic hammer by using the energy of hydraulic shock , the distribution mechanism consists of a pressure valve, which is installed in the pressure pipe between the shock mechanism and the battery, and kinematically connected with the pressure valve the drain valve, which is installed in the drain pipe, while the drain pipe is in communication with the pressure pipe, the diameter of which is equal to the diameter of the cylinder of the percussion mechanism. SU, 1201501