SU1229328A1 - Hydraulic percussive device - Google Patents

Description

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The invention relates to the mining industry, namely to hydraulic drums of a spool-type, used for drilling holes and wells.

The aim of the invention is to provide stepless control of the frequency and impact energy while increasing the efficiency of the device.

The drawing shows the construction of a percussion hydraulic device.

The device includes a housing 1, a drummer 2 with grooves, forming an acceleration chamber 3 and a platoon chamber 4, a naporn 5 and a drain 6 batteries, a spool 7 with grooves forming annular cavities 8 and 9 connected with channels 10 and 11, respectively, with acceleration chambers 3 and platoon 4, pushers of forward 12 and 13 reverse strokes, control chambers 14 and 15, pressure head 16 and merging 17 main gates, regulator 18 of fluid flow, shank 19, channels 20-22 and overflow chamber 23.

The drummer 2 with grooves forms in its front part with the body 1 a platoon chamber 4, and the rear chamber - a acceleration chamber 3.

The spool 7 with grooves, moving in one direction or another, periodically from the pressure line 16 delivers the working fluid through the channel 10 to the acceleration chamber 3 or through the channel 11 to the platoon chamber 4.

Moreover, when the working fluid is supplied to the acceleration chamber 3 along the cd cavity 8, the platoon chamber 4 is connected to the drain line 17 through the annular cavity 9, and when the working fluid is supplied by the spool 7 to the platoon chamber 4, the acceleration chamber 3 is also connected to the drain line 17.

Camera 3 acceleration provides acceleration of the striker 2 with acceleration and striking the shank 19, and the boat 4 of the platoon - discharging the impact of nick 2 after the collision to the initial position.

The movement of the gaiter 7 in one direction or another is carried out by pushers of forward 12 and 13 reverse travel, which form control chambers 14 and 15 with housing 1.

The reverse travel pusher 13 of smaller diameter is constantly under the action of the working pressure and

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it tends to move the spool 7 to the position of supplying the working fluid to the platoon chamber 4 and draining from the acceleration chamber 3.

5 A pusher 12 of a forward stroke of a larger diameter is periodically loaded with working pressure, and its effect on the valve 7 corresponds to the displacement of the latter to the position of supplying the working fluid to the acceleration chamber 3 and discharge from the platoon chamber 4.

At that moment, when the plunger 12 of the forward stroke is loaded with the pressure of the head, the resultant force acting on the spool 7 moves it towards the thrust pusher 13 of the return 20

yes, and in the absence of a load on the pusher 12 of the forward stroke, the spool 7 moves in the direction of the reverse plunger 13.

Control of the pusher 12 forward stroke, and hence the spool

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7 is carried out by an average across the striker 2, which periodically connects the control chamber 14 via channel 20 and overflow chamber 23 from pressure 16 (via channel 22), then from drain 17 (via channel 21) highways.

The change in the cross section of the pressure channel 22 between the control chamber 15 and the overflow chamber 23 is carried out by the fluid flow controller 18, which increases or shortens the movement time of the spool 7 to the acceleration position of the striker 2 to strike the shank 19. This changes the acceleration path drummer 2. The greater the impact energy and the lower the frequency of impacts correspond to the greater acceleration path, and the smaller acceleration path - the lower impact energy and the greater frequency of impacts.

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Placing the flow regulator 18 in: the liquid at the specified location does not create a delay of the impactor 2 at the point of impact with the shank 19, since the start of the removal of the impactor 2 is controlled by the drain line 17 through channel 50, which is not affected liquid liquid

To suppress the pressure pulsations in the hydraulic lines 16 and 17 55, pressure 5 and drain 6 accumulators are provided.

The use of the invention allows for infinitely variable

yes, and in the absence of a load on the pusher 12 of the forward stroke, the spool 7 moves in the direction of the reverse plunger 13.

Control of the pusher 12 forward stroke, and hence the spool

7 is carried out by the middle skimmer 2, which periodically connects the control chamber 14 via the channel 20 and the overflow chamber 23 from the pressure 16 (via the channel 22), to the drain 17 (via the channel 21) highways.

The change in the cross section of the pressure channel 22 between the control chamber 15 and the overflow chamber 23 is carried out by the fluid flow controller 18, which increases or shortens the movement time of the spool 7 to the acceleration position of the striker 2 to strike the shank 19. This changes the acceleration path drummer 2. The greater the impact energy and the lower the frequency of impacts correspond to the greater acceleration path, and the smaller acceleration path - the lower impact energy and the greater frequency of impacts.

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Placing the flow regulator 18 in: the liquid at the specified location does not create a delay of the impactor 2 at the point of impact with the shank 19, since the start of the removal of the impactor 2 is controlled by the drain line 17 through channel 50, which is not affected liquid liquid

To suppress the pressure pulsations in the hydraulic lines 16 and 17 55, pressure 5 and drain 6 accumulators are provided.

The use of the invention allows for infinite pu312293284

the frequency and energy hulking remove the optimal parameters of the process of the drill, which makes it possible to choose either depending on the strength of the rock.

Claims (1)

A HYDRAULIC SHOCK DEVICE, comprising a housing in which, with the possibility of reciprocating movement, a hammer made with a groove is installed, forming an acceleration chamber, a platoon and an intermediate chamber, respectively, of the acceleration chamber, a platoon and an intermediate chamber located in the discharge manifolds μ discharge valves, a spool made with grooves forming together with the body annular cavities, alternately connected with the pressure and discharge lines, connected by means of channels with acceleration and water, and control chambers for the direct and reverse stroke of the spool, one of which is constantly connected to the pressure line, and the other to the control line, characterized in that, in order to provide stepless regulation of the frequency and energy of the impact while simultaneously increasing the efficiency of the device , it has a fluid flow regulator, and the hammer is made with an additional groove forming an overflow chamber with the inner surface of the housing, which is in communication with the pressure line through the fluid flow regulator and periodically connected to the management highway. SU „, 1229328 A1