SU945430A1 - Rock-breaking apparatus - Google Patents

Description

one

The invention relates to the mining industry, namely to devices for the destruction of rocks.

A device for destroying rocks is known, comprising a housing, a piston head, a combustion chamber, a buffer chamber and a working tool mounted on the rod p.

A disadvantage of the known device is its low operational reliability due to frequent distortions and jamming of the rod in the housing. This is caused by the fact that, when the device is operating, significant squeezing forces from the destroyed array act on the working tool, which lead to a misalignment of the rod, the formation of scuffing on the inner surface of the housing and jamming of the stem in the housing. To eliminate this phenomenon, it is necessary to observe the ratio / 1) 7 6 (where L is the length of the guide, D is the diameter of the rod), and this leads to a significant increase in the length of the entire device.

The closest technical solution to the present invention is a device for rock destruction, including a housing with combustion chambers, a piston, a distributor, a piston-drummer, a working tool installed in guides, a fuel system, a shock absorber, and a Cz starter.

However, the guides made in the form of rods do not prevent the working tool from becoming completely seized, the overall dimensions of the device increase, and the manufacturing technology is complicated by the high requirements for alignment and accuracy of the guides. This is 20 with a significant disadvantage of the known device.

Claims (2)

The purpose of the invention is to increase the reliability of the device. This goal is achieved by the fact that the working tool and guides are made with U-shaped transverse profiles, while the working tool has an end wall through which the profile is closed from the side of the piston-impactor, and the shock absorber is made of glass installed in the housing / longitudinal movement and interaction with the end wall of the working tool, and from the damping element located in the glass. In addition, the damping element is made of metal rubber. FIG. 1 shows a device for the destruction of rocks; in fig. 2 is a section A-A in FIG. on . FIG. 3 is a section BB in FIG. in fig. - section bb In Fig. The device for destroying rocks includes a housing 1 containing a head 2 and a cylinder 3 in which an exhaust port is made, a blowing window 5 and a piston-distributor 6 is located, a piston-hammer 7- Working tool 8, made with a U-shaped profile, is installed in the U-shaped rail 9, made in the head 2. Inside the housing 1 are located the chambers 10 and 11 of the combustion, communicated with the fuel system 12, made with nozzles 13 and 14 and with fuel bosses 15 and 16. On the cylinder 3 there is a stopper 17 and the trigger 18 and 19. Shock absorber 20 flax from glass 21 and damping element 22 resting on cushion 23 mounted in the head of housing 1 and mounted against working wall 8 of working tool 8. Head 2 is attached to cylinder 3 by bolts 25. Work tool has replaceable impact knives 26 mounted on it by means of bolts 27. The device operates as follows. In the initial position, the working tool 8 with the piston-hammer 7 under the action of external force is displaced right up to the stop of the end wall of the working tool 8 into the end face of the cylinder 3 of the housing 1. The device started up using the control unit (not shown) of the stopper 17 and the starting ones Mechanisms 18 and 19. Compressed air is supplied to chamber 10 from an autonomous source through a starting mechanism S NIZM.18, displacing piston-distributor 6 to the right up to opening the outlet window and purge window 5. In this case, a closed volume is formed in chamber 11. In this data The piston-distributor 6 is fixed in position by the stopper 17. Then, through the trigger mechanism 19, the compressed air is supplied to the chamber 11 through the trigger mechanism 19 and the latch of the stopper 17 is released, after which the piston-distributor 6 moves to the left under the action of air pressure, closes the outlet port k and the purge port 5 and compresses the air in the chamber .10. When the preset air pressure in the chamber 10 is reached, the fuel pump is activated, 15 is gas-driven, and the fuel is injected through the nozzle 13 into the chamber 10, where a topliv-air mixture is formed. The piston-distributor 6, while continuing to shift to the left, compresses the fuel-air mixture to the required degree of compression, as a result of which the ignition of the fuel-air mixture occurs. The increasing pressure of the products in the combustion chamber 10 simultaneously affects the destroyed array through the piston-hammer 7 and the working tool 8, as well as the piston-distributor 6. This working tool 8 performs work on the destruction of the rock mass, and the piston-distributor B moves to the right and opens the purge port 5 and the outlet port 4 of the housing 1, as a result of which the chamber 10 is released from the combustion products and filled with fresh air intake. Continuing to move to the right, the piston-distributor 6 forms an enclosed space in chamber 11 and reduces the air there to a pressure at which the pump 16, through the nozzle, injects fuel into the chamber 11, where an air-fuel mixture is formed. When the chamber reaches a predetermined degree of compression, self-ignition of the fuel-air mixture occurs. The pressure of the combustion products in the chamber 11 moves the distribution piston 6 to the left. At the same time, the outlet window k and the purge port 5 of the housing 1 are opened and the chamber 11 is emptied of the combustion products and filled with fresh air. Then the cycles are repeated and the workflows are carried out in the same sequence. The squeezing forces arising from the destruction of the rock are perceived by the working tool 8 of the U-shaped profile and transmitted by the guide 9, which is made closed and has a large bearing surface with small dimensions. In the event that the working tool 8 does not meet the resistance of the rock, it moves to the left until its end wall touches the end of the glass 21, in which the damping element 22 is placed, protecting the device case from collapse. Thus, the force sweat through the damping element 22 and the cushion 23 is closed on the device body 1. The use of a device with a working tool of a U-shaped profile and a closed guide housing allows the piston-drummer to be relieved from the pressing radial forces arising during operation and thus to eliminate the warp and jamming of it in the housing, and the large bearing surface of the U-shaped working tool. The ratio of its length to each side of the edge of more than 6 (six) helps prevent jamming of the working tool in the guide 9 of the housing 1, and the damping element 22, made of metal rubber representing a coil of elastic wire, allows, at small dimensions, to reduce the dynamic loads on the device body, and small stroke of the pistons allows to achieve a high frequency of working processes, which leads to an increase in power, performance and durability, reliability of the device. 1. A device for destroying rocks, including a housing with combustion chambers, a piston-distributor, a piston-drummer, a working tool installed in guides, a fuel system, a shock absorber and a trigger mechanism, in order to increase its reliability , the working tool and guides are made with U-shaped transverse profiles, while the working tool has an end wall by means of which its profile is closed from the side of the impact piston, and the shock absorber is made of glass, tanovlenii in the housing for longitudinal movement, and reacting with the end wall of the working tool, and disposed of in a beaker damping elementa.2 The apparatus according to claim 1 of m and n chayuschees in that the damping element is made of metal rubber. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 432291, cl. E 21 C 37/14, 1973.: 2. USSR author's certificate in application number 2608966 / 22-03, cl. E 2.1 C 37/1, 1978. 25 N  f P "4" IT and