SU1071739A1 - Compression-vacuum percussive mechanism - Google Patents

Abstract

A COMPRESSION-VACUUM SHOCK MECHANISM, including a housing, which forms with a die and a piston, connected through a rod and a drive shaft, and a die cavity, and connected with a source of energy carrier, characterized in that, in order to increase the energy of a single impact, the housing is made with a bypass channel for periodically connecting the rod of the cavity with the cavity of the striker, and the piston has bypass valves for connecting the cavity of the hammer with the rod cavity connected to the source of energy carrier through a non-return valve.

Description

The invention relates to the mining industry, namely to mechanically driven percussion mechanisms. A percussion mechanism is known, which includes a housing with a die and a piston with a mechanical drive 1. However, the absence in this device of the possibility of changing the frequency and impact energy reduces its functionality. Closest to the invention is a compression-vacuum percussion mechanism that includes a housing, which is formed with a striker and connected through the shields and crankshaft with the actuator of the striker cavity and connected to the source of energy carrier 2. However, the energy of a single impact of a known device is insufficient . The purpose of the invention is to increase the energy of a single blow. This goal is achieved by the fact that in a compression-vacuum percussion mechanism, including a housing that forms, with a die and a piston connected through a rod and a crank with a drive, accommodated in the die and a rod, connected to an energy carrier source, the housing is made with a bypass channel for periodic communication of the rod cavity with the cavity of the striker, and the piston has relief valves for communication of the cavity of the hammer with the rod cavity connected with the source of energy carrier through a check valve. FIG. 1 shows the proposed compression-vacuum impact mechanism, axial section; in fig. 2 - the same at the time of idle striker; in fig. 3 - the same, at the time of the working stroke of the striker; in fig. 4 - the same, at the time of the passage of compressed air through the drive piston. The compression-vacuum impact mechanism consists of a body 1, which forms with the striker 2 and connected through the rod 3 and the crank 4 to the piston 5 actuator of the hammer 6 and the rod 7 connected to the source of energy carrier, for example compressed air, through a check valve 8 The housing 1 is equipped with a bypass channel 9, which is designed to cover the bulk 5, which is filled with relief valves 10, to connect the cavity 6 of the striker with the rod cavity 7. The working member 11 is placed in the housing and compression holes 12 are made. estvl as follows. The cavities of the housing are filled with compressed air from the line, for example at the lower position of the piston, and then the piston is activated. When the drive piston 5 moves upward, a vacuum in the air occurs. The rarefaction force acts on the striker 2, which idles. When idle the striker 2, the valves 8 in the drive piston 5i are closed, and air is compressed in cavity 7. The piston 5, having reached the upper end position, begins to move downwards. The head 2 continues to move upwards by inertia and is slowed down by compressing the air in cavity 6. At this time, the compressed air flows from cavity 7 into cavity 6 and accelerates head 2. Head 2 lowers and in turn strikes on the working body 11, i.e., the firing pin produces a working stroke. He struck the working body 11, the striker 2 rebounds and starts moving upwards. The pressure in cavity 6 is much higher than in the above-piston space, as a result of which valves 8 in piston 5 open, which is currently ending downward, and compressed air flows from cavity 6 into cavity 7. At this time piston 5 begins to move up As a result, the pressure in the cavity 7 increases, and a vacuum occurs in cavity b. As a consequence, the valves 8 are closed, and the face 2 begins to move after the piston 5 and the cycle repeats. The proposed mechanism has a high energy of a single blow, which increases its performance.

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Claims (1)

COMPRESSION-VACUUM SHOCK MECHANISM, including a housing, forming with the striker and piston placed in it, connected through the rod and the crank with the drive, the striker cavity and the rod, connected to the energy source, characterized in that, in order to increase the energy of a single impact, the housing is made with a bypass channel for periodic communication of the cavity rods with the die cavity, and the piston has bypass valves for connecting the die cavity with the rod cavity connected to the energy source through the check valve. FIG. /