SU1661399A1 - Percussive tool - Google Patents

Abstract

The invention relates to the mining industry and is intended for shock destruction of rocks. The purpose of the invention is to increase the reliability of the device by reducing the pressure pulsation of the working fluid. The housing 1 of the device forms with a striker 2 an accumulator 4, an overflow 6 and a platoon 5 chambers (K). Distributor 10 alternately connects K 5 to pressure 11 and drain 13 lines. The distributor 10 has a housing 32 and a spring-loaded three-position spool 21, which form interstitial K. The housing 32 is made up of drain 29, overflow 27 and 28, platoon 30, additional platoon 31, and pressure 26 channels. Channel 31 is in communication with K 5, and channel 26 is connected to a pressure line 11 connected to the accumulator 8 and pump 7. Channels 31 and 26 are arranged to communicate with each other through the inter-bay K. In this case, K 5 is located its extreme bore spool 21. During the working stroke of the striker 2, the pump 7 operates on the hydroaccumulator 8. At this time, K 6 communicates with K 5 through the distributor 10. 2 Il.

Description

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W Yu Yu

three-position spool 21, forming the interconnecting K. The housing 32 is made up of a drain 29, an overflow 27 and 28, a platoon 30, an additional platoon 31 and a pressure 26 channels. In this case, channel 31 is in communication with K 5, and channel 26 is connected with a pressure line 11, which is connected to a hydraulic accumulator 8 and a pump 7. Channels 31 and 26

are located with the possibility of communication between each other through the intersection K. In this case, the K 5 is located with the possibility of overlapping the extreme skirt of the spool 21. During the stroke of the striker 2, the pump 7 operates on the hydroaccumulator 8. At this time, the K 6 communicates with K 5 through distributor 10.2 Il.

The invention relates to the mining industry, namely to impact devices for breaking rocks.

The purpose of the invention is to increase the reliability of the device by reducing the pressure pulsation of the working fluid.

Fig. 1 is a schematic diagram of the device; in fig. 2 - distributor.

The percussion device comprises a housing 1, in which an axially movable firing pin 2 with a piston 3 is placed, dividing the space of the housing 1 into an accumulating gas chamber 4, charging 5 and overflow 6 hydraulic chambers. The plunging chamber 5 is periodically connected to the pump 7 and the hydraulic accumulator 8 via pipeline 9, the distributor 10 and the pressure main 11 and to the overflow chamber 6 through the pipeline 9, the distributor 10 and the pipeline 12. The overflow chamber 6 is periodically connected to the drain line 13 through the pipeline 12 and the distributor 10, the end cavity 14 of which is periodically communicated with the pressure line 11 through the pipeline 15, the channel 16, the annular groove 17, made on the striker 2, and the pipeline 18 and with the drain line 13 through the pipelines the gangway 15, the channel 19 and the pipeline 20. The distributor 10 comprises a spool 21 having a left 22, an average 23 and a right 24, spring-loaded with an elastic element 25 in the direction of the end cavity 14. Radial channels are made on the lateral surface of the distributor 10. Pressure channel 26, connected to pressure line 11, overflow channels 27 and 28, connected to an overflow chamber 6 by a pipeline 12, a drain channel 29 connected to a drain line 13, platoon channel 30 and an additional collecting channel 31, connected with the charging chamber 5 of the pipelines 3, and the channels 26,27 and 29 are made so that 2 h N c, where h is the distance from the center

channel 27 to the right end of the middle piston 23 of spool 21; H is the distance from the center of channel 26 to the left end of the right piston 24 of spool 21 and from the center of channel 29 to the left end of the middle piston 23 of spool 21; d - diameters of channels 26, 27 and 29 (with the extreme right (according to the drawing) the position of the spool 21). The paddle 21 forms interstitial chambers with the housing 32 of the distributor 10. The channels 26 and 31 are located in the housing 32 with the possibility of communication between themselves through the interconnecting chamber. In addition, the channel 26 is located with the possibility of blocking its extreme 24 valve 21.

The device works as follows.

The dowel 2 is in the down position. Under the pressure of the fluid in the end cavity 14 of the distributor 10, the spool 21 is in the extreme right position, compressing the elastic element 25, since the end cavity 14 is connected to the pressure pipe 11 via conduit 18, annular groove 17 in the striker 2, channel 16 and conduit 15 The working fluid from the pump 7 and the hydroaccumulator 8 is supplied to the charging chamber 5 through the pressure line 11, the channels 26 and 31 of the distributor 10 and the pipeline 9. At the same time, under the pressure of the liquid to the active area of the piston 3, the firing pin 2 rises, overcoming the e of the gas accumulator 4, and displaces the liquid from the overflow chamber 6 into the drain line 13 through the pipe 12 and the channels 28 and 29 of the distributor 10. When the annular groove 17 is aligned with the channel 19 in the end cavity 14 of the distributor 10, the pressure of the liquid decreases connects to the drain line 13 through the pipeline 15, the channel 19, the annular groove 17 and the pipeline 20 and under the action of the elastic element 25 the spool 21 of the distributor 10 moves to the far left position.

When moving, the spool 21 first overlaps channel 26 connected to pressure line 11, channel 29. connected to overflow chamber 6, and channel 30 connected to the charging chamber 5. The working fluid at this moment comes from pump 7 hydroaccumulator 8, which is adjusted to the charging pressure of the striker 2. Since the spool 21 opens channels 27 and 30, the platoon chamber 5 communicates with the overflow chamber 6 through conduit 12, and the striker 2 is accelerated by the action of the energy of the gas accumulator 4 and the working fluid from the charging chamber 5 flows into The overflow chamber 6. After the striker 2 strikes the material to be processed, an annular groove 17 connects the end cavity 14 of the distributor 10 with a pressure line 11 through pipe 18, channel 16 and pipe 15, while in the end cavity 14 the pressure of the liquid increases and the valve 21 moves to the extreme right position, compressing the elastic element 25. Then the cycle repeats.

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K Yu

Claims (1)

The invention of the percussion device, comprising a housing, forming with a briskly accumulating chamber, an overflow chamber and a lead-in chamber, connected alternately with the hydroaccumulator having a pressure and drain lines through a pressure-controlled distributor, having a body with drain, overflow and armature - with single channels and spring-loaded three-spool spool, forming inter- skivka chambers, characterized in that, in order to increase the reliability of the device operation by reducing the operating pressure pulsation liquids, the distributor case is made with a pressure channel communicated with the pressure pipe and an additional platoon channel connected to the platoon chamber, the pressure and additional platoon channels arranged to communicate with each other through the interstitial chamber, while the pressure channel with the possibility to overlap it with the extreme over the spool. 29 30 31 1} 2425