SU785486A1 - Rock-breaking device - Google Patents

Description

The invention relates to the mining industry.

A device for the destruction of rocks, including an explosive-pulse mechanism, connected by means of spring-loaded rods with a working ⁵ tool And. Its disadvantage is the low impact energy.

The closest μ invention to the technical solution is a device; In for the destruction of rocks, including a housing in which a working tool is mounted that interacts with a striking piston And

The disadvantage of this design is the incomplete use of the energy of the explosion, part of it is lost on the reactive forces of recoil, which must be extinguished.

The purpose of the invention - increase effective _m ciency rock destruction through the use of reactive forces.

This goal is achieved by the fact that the device is equipped with a nozzle with nozzles 2, movably mounted in the front of the housing, a hydraulic pump and a hydraulic pulse made in the form of a hydraulic cylinder. The nozzles are communicated through control valves with a piston cavity of a hydraulic cylinder, which is connected to a hydraulic pump through a non-return valve. The piston of the hydraulic cylinder is rigidly connected to the housing of the explosive pulse mechanism mounted on a support frame with the possibility of longitudinal movement. The body of the gitsropilindra is rigidly connected with the support frame.

In FIG. 1 shows the proposed device, a longitudinal section of FIG. 2 - installation of the device on a support frame.

The device includes a housing 1, in which a working tool 2 and a piston-striker 3 are mounted, a compressor-buffer chamber 4, a combustion chamber 5, a start valve 6, an exhaust 'channel 7, an injector 8 for supplying fuel to the combustion chamber 5, an spark plug 9

7 85 4 86 and a purge channel 10. In addition, the device is equipped with a nozzle 11 with nozzles 12 connected by pipelines 13 through control valves 14 with a piston cavity 15 of the hydraulic pulse 16 connected via a non-return valve 17 to the hydraulic pump 18. The piston of the gyro pulse 19 is rigidly connected to the housing 1.

The device is mounted on a support frame 20, the hydraulic pulse and the torus are rigidly fixed, and the housing 1 has a base 21 made in the guides 22 of the support frame.

The device operates as follows.

When locked in the extreme left position of the piston striker 3 through the start-up. By-pass valve 6 supplies compressed air to the compressor-buffer chamber 4. At a certain pressure, the piston-hammer is released and moves to the right, compressing the air in the chamber; combustion 5.

At the end, compressed through the nozzle 8, fuel is supplied to the combustion chamber. Ignition of the mixture occurs from compression, and the spark plug 9 facilitates the ignition process. After the explosion, the firing pin moves to the left, opening the exhaust and purge channels. As a result of the impact of the striking piston on the working tool, the rock is destroyed.

In addition, with each explosion, reactive recoil forces occur, also casing 1 in the guides 2 back, which transmits an explosive pulse of liquid in the piston cavity 15, squeezing it through control valves that are configured for a certain pressure, into nozzles, from which jets are formed under high pressure , loosening and destroying pepper a rock. It carries out the _5th combined rock destruction.

The length of the jet is regulated by moving the nozzle, for example, mounted on the body with a thread.

Claims (1)

3 n the industrial flow channel Y. In addition, the device is equipped with a nozzle 11 with nozzles 12 connected by pipelines 13, through adjusting valves 14 to the piston cavity 15 of the hydraulic pulsator 16 connected via a non-return valve 17 to the hydraulic pump 18. The piston of the shock puller 1 is rigidly connected to the housing I The device is installed on the support frame 2O, the hydraulic impulse and torus are rigidly fixed, and the housing 1 has a base 2 made in the guides 22 of the support frame. The device works as follows. When the piston-striker 3 is locked in the leftmost position, compressed air is supplied to the compressor-buffer chamber 4 through the starting valve 6. At a certain pressure, the piston-striker disengages the VT diget, compressing the heat in the combustion chamber 5. At the end of the compression, the nozzle 8 is supplied fuel into the combustion chamber. The ignition of the mixture is caused by compression, and the spark plug 9 facilitates the ignition process. After the explosion, the piston head moves to the left, opening the exhaust and purge channels. As a result of the piston bushing, the rock is destroyed by the working tool. In addition, with each explosion, recoil recoil forces occur, shifting I in guides 2 backward, which cause the explosive impulse of a liquid in the piston cavity 15, squeezing it through spindle valves, set to a predetermined pressure, into nozzles, from which there is high pressure streams are formed, loosening and destroying rock before them. Combined rock destruction is carried out. The length of the jet is adjusted by moving the nozzle, for example, mounted on the body with a thread. The invention of the device for the destruction of rocks, comprising a support frame and a housing with a working tool of pulse-impact action, characterized in that, in order to increase the efficiency of rock destruction by using reactive forces, it is provided with a nozzle with movable nozzles mounted in the upper part of the housing , hydraulic pump and hydraulic impulse device, made in the form of a hydraulic cylinder, the piston cavity of which is filled with liquid and connected on one side through a non-return valve to the hydraulic pump, and on the other side through adjusting valves with nozzles, the hydrocylinder is rigidly connected to the support frame, and its piston to the housing, which is mounted on the frame with the possibility of longitudinal movement. Sources of information taken into account during the examination 1. USSR author's certificate N 39 345 4, cl. E 21 C 37/14, 1974. 2, USSR Copyright Certificate K 381363, cl. B 21 C 37/14, 1974 (prototype). /. 3 Nos I i 4 ir //