SU537804A1 - Hydrostatic impact mechanism - Google Patents

Claims (2)

(54) HYDROVOLUME SHOCK MECHANISM accumulating 2 and reverse 4, and working tool 8 with a shank 9. In the damping chamber 5 there is a stepped piston 10, covering the tongue 9 of the tool 8 and dividing the damping chamber 5 into the larger and smaller cavities 11 and 12 interconnected by throttling holes 13, filled in the stepped piston 1O. The valve 14 separates part 15 of the chamber of the return leg on stroke 4 and closes the channels 7 made in the differential piston-striker 6, and the large cavity 11 of the damping chamber 5 communicates with the channel 16 of the return passage 4 separated by valve 14, Valve 14 is pressed to shoulder 17 by a spring 18. The storage chamber 2 is connected to the power source 19 The working stroke chamber 3 is connected via the distributor 20 to the power source 19 and to the drain. To accumulate energy during the charging period of the piston-bout B and to smooth out the pressure pulsations, the pneumatic accumulator 21 is used, the liquid cavity of which is combined with the accumulating chamber 2. The device works as follows When connecting the actuator chamber 3 through the distributor 20, a liquid flows out the valve 14 and I act on the unbalanced surface of the differential piston -block 6 in the chamber 4 of the reverse stroke, cocks it. At the same time, the pneumatic accumulator 21 is charged. At the end of the return stroke, the valve 14 under the action of the spring 18 occupies the initial position (pressed to the collar 17), and the distributor 20 communicates the working stroke chamber 3 with the power source 19. Since the piston-block 6 is made according to the differential scheme, then under the action of the pressure of the liquid in chamber 3, which is larger than in chamber 4, it makes a working stroke up to. hitting the tool 8, the liquid is expelled from the chamber 4 into the accumulating chamber 2. After the impact on the shank 9 of the tool 8, the firing piston 6 accompanies it, making a turn equal to the depth of penetration of the tool 8. At the same time, the chamber 3 is connected with the drain. If there is no resistance with further movement of the tool 8, the shank 9 interacts with the piston 10, moving it in the damping chamber 5 and expelling the liquid from its larger cavity 11 into the part 15 of the return stroke chamber 4. Part 15 at the time of the end of the specified implementation of the tool 8 is separated from the chamber 4 by a valve 14, closing the channels 7 of the piston-crush 6 and locking in part 15 some volume of liquid. Thus, elastic quenching of the unused kinetic energy of the piston occurs — the hydraulic buffer, which accumulates this energy and returns it to the shock system during the return period. Throttling holes 13, made in the stepped piston 10, are used to control the rigidity of the braking. After the piston 6 is fully extinguished by the pressure of the fluid 6, the valve 14 is pressed from the channels 7, and since the actuator chamber 3 is connected to the drain, the piston-striker 6 makes a reverse move The pressure of the fluid in the cavity 11 of the damping chamber 5, which is connected, when cocked to the reversing chamber 4, returns the stepped piston 10 with the tool 8 to the initial position. Then the cycle of operation is repeated. Claims of Invention A hydro-volumetric percussion mechanism comprising a housing divided into an accumulating chamber, working and returning chambers and a damping chamber, a differential piston-striker mounted in the housing in which the channels are filled. Communicating chambers accumulating and running, and a working tool with a tailgate, characterized in that, in order to increase the power utilization factor, the damping chamber is equipped with a stepped piston covering the tool shank and dividing the damping chamber into two uneven cavities communicated between each other by means of throttling holes in the stepped piston, and a valve separating a part of the backstop chamber and closing the channels made in the differential piston-striker, and a large cavity firuyuschey chamber communicates with a separate valve parts back-up camera. Sources of information taken into account in the examination: 1.Patent of France No. 1533712, cl. In 25 D 17/00 - analogue. 2. The Prospect of the UK company Compr. ALr-constructLcMi May 1974 prototype.