SU1350343A1 - Hydraulic percussive device - Google Patents

Abstract

The invention relates to the mining industry, construction, road, municipal engineering and allows to increase the efficiency of the device by reducing the backwater during the working stroke of the striker. The device includes a housing 1, forming with a die 3 having a piston 2, a cavity of the pneumatic accumulator 4, cocking 5 and overflow 6 chambers (k). They are communicated by working channels in the form of grooves 17c working cavity (P) 16 distribute / (L

Description

body knot. The latter has a control P 14 with a control channel 15 in the casing # 1 and a cylindrical elastic shut-off and regulating element (ЗРЭ) 12, and П 14 is formed by the outer surface of the casing 1 and the internal ЗРЭ 12. On the piston 2 two annular grooves 7, 8 reported by U-shaped channels 9, 10, made in the body of the striker 3 with K 5, 6. The distance between the grooves 7 ,, 8 is equal to the working stroke of the striker 3, At 1

The invention relates to the mining industry, construction, road, municipal engineering, namely, impact devices for the destruction of rocks and artificial materials, as well as frozen soil and ice.

The purpose of the invention is to increase the efficiency of the device by reducing the backwater during the working stroke of the striker.

Fig „1 shows a device about Bi-hell; FIG. 2 is a section A-A in FIG.

The hydrostatic device includes a housing 1 r, which is open-seated with a gap of 2 striking 3 cavity of pneumatic accumulator 4, cocking 5 and overflow 6 chambers.

The die 3 is made with two annular grooves 7 and 8 placed on the piston, communicated with U-shaped channels 9 and 10, which are filled in the body of the striker with 5 charging and overflow 6 chambers. The distance between grooves 7 and B is equal to the working stroke of the striker 3.

Distribution node 11 has a cylindrical elastic shut-off and regulating element 12, located Ezhduzhu outer surface of the housing 1 and the inner surface of the housing 13 of the distribution node 11,

The control cavity 14 of the distribution assembly is formed by the narzgzhny surface of the housing 1 and the inner surface of the cylindrical elastic shut-off and regulating element 12 The control channel 15 for distributing the displacement of the striker 3, the groove 7 is aligned with channel 15 and the liquid enters the drainage line 19, Occurs a platoon of the percussion device, at the end of which the striker 3 connects П 1А with gyroline 19. The pressure under ЗРЭ 12 drops. The working stroke of the striker 3 is made. The fluid enters K 6 and the hydroline 19. The striker 3 hits the tool. 2 Il.

five

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leg node, communicated with the cavity 14, is made in the housing 1 and is located with the possibility of alternate communication with the annular grooves 7 and b,

Platoon 5 and overflow 6 camera communicated with the working cavity 16 of the distribution node 11 working channels, made in the form of grooves 17, located on the inner surface of the housing 13 of the distribution node 11.

The working fluid is supplied through a pressure line 18 and discharged through a drain line 19 through the radial holes 20 and 21, respectively.

Hydraulic shock device works as follows.

In the initial position, the nipple 3 is in the lowest position under the action of the pressure of the gas in the cavity of the pneumatic accumulator 4. In this case, the radial holes 20 are blocked by the striker 3, the liquid from the pressure line 18 does not enter the platoon of chamber 5, but passes through the channels 17 and the cavity 16 into the drainage line 19 "The striker, moving under the action of the treated medium, opens radial orifices 20; in this case, the annular groove 7 is aligned with the control channel 15 and the liquid through the U-shaped channel 9 enters the control cavity 14, the pressure in which increases. In this case, the locking Ho-regulating element 12 in the cavity 16 moves to the inner wall of the housing of the distribution unit 11,

blocking the path of the liquid to the drain hydroline 19. A percussion device is cocked, while the gas in the cavity of the pneumatic accumulator 4 is compressed, At the end of the cocking, the firing pin 3 through radial channels 15, annular groove 8, U-shaped channel 10, overflow chamber 6, radial holes 21 connect control cavity 14 with drain hydroline 19, pressure below element 12 drops, and lines 18 and 19 are connected between themselves through cavity 16,

Under the action of compressed gas in the cavity of the pneumatic accumulator 4, the working stroke of the striker 3 is made, and the liquid from the charging chamber 5 is forced into the overflow chamber 6 and the drainage line 19 through the working channels 17 and the cavity 16. The striker strikes the tool and the work cycle device repeats.

Claims (1)

Invention Formula A hydraulic shock device, including a housing, forming with a piston brisk, a pneumatic accumulator cavity, cocking and overflowing chambers, communicated by working channels with ten 15 25 P 0343 a working cavity of a distribution node having a control cavity with a control channel and a cylindrical elastic shut-off and regulating element located between the outer surface of the housing and the inner surface of the housing of the distribution node, characterized in that, in order to increase the efficiency of the device by reducing the backwater during the working stroke the striker, the striker is made with two annular grooves placed on the piston, communicated by U-shaped channels, made in the body of the striker, respectively, with a cocking and overflow chambers, and the distance between the grooves is made equal to the size of the working stroke of the striker, the working channels are made in the form of a pair The call is located on the inner surface of the housing of the distribution node, and the control cavity of the distribution node is formed by the outer surface of the housing and the inner surface of the cylindrical bass-regulating element, while the control channel is made in the housing and is arranged to alternately communicate with the annular grooves of the striker control. FIG. g