SU1257202A1 - Percussive tool - Google Patents

Description

The invention relates to impact devices and is intended for use in surface f equipment for breaking rocks, chipping ice, breaking road surfaces, compacting soil and other types of work,

 The purpose of the invention is to increase the efficiency of the device by reducing hydraulic resistances. The invention is illustrated in the drawing, which shows a diagram of the proposed percussion device.

The device consists of a body 1, a piston-block 2, a spool 3 of the control unit, an annular piston 4 installed in the body of a coaxial piston-striker 2 with the possibility of axial movement, a pressure line 5, drain lines 6 and 7. The accumulator 8 is included in channel 9 connecting the annular grooves 10 and 11 of the spool 3 with the cavity 12 of the drain. The nipple piston 2 divides the housing 1 into the cavities of the discharge 12, platoon 13, the annular groove 14 and the cavity of the accumulator 15 with the movable piston 4. The plunging cavity 13 through the channels 16 and 17 is connected to the annular grooves 10 and 11 of the spool 3, the annular groove 14 on the plunger is connected through the control channel 18 to the spool cavity 19, and the drain cavity 12 through the channel 20 connects to the spool hollow 21. The delivery line 5 is connected through the channel 22 to the annular groove 11 of the spool 3 and through the pipe 23 to the channel 24 Drain highway 6 through channel 25 s one with the annular groove 10 of the spool 3 and the return line 7 through the duct 26 - with an annular groove 14 of the piston 2. GLib the PA-exponential drain conduit 26 is offset relative to control channel 18 by an amount equal to the sum of the values of the radii of these channels. The spool 3 is made with two forming average juice annular grooves 10 and 1 the width of the first of which is equal in magnitude to the sum of the values of the stroke of the spool 3 and the diameter of the drain channel 25, and the width of the other groove 11 is equal to the sum of the magnitude of the stroke of the spool 3 and the diameter of the pressure channel 22 and the distance between

The centers of the pressure 22 and drain 25 channels are made equal in magnitude to the sum of the radii of these channels, the stroke of the spool 3 and the width of the average

on ska spool

The device works as follows.

In the initial position of the piston head 2 under the action of gas pressure

the battery 15 is in the extreme left position (according to the drawing). The working fluid from the hydraulic pump through the pressure line 5, the pipeline 23, through the channel 24, the annular groove 14 of the piston - the block And the channel 18 enters the spool cavity 19 and moves the spool 3 to the right extreme (according to the drawing) position. When this drain line 6 through

the channel 25, the annular groove 10, the channel 9 is connected to the drain cavity 12, the drain line 7 is closed by the right side of the piston –bomb 2, and the pressure line 5 is connected

through channel 22 with annular groove

11 and further with channels 16 and 17,

Under the force of a static preload piston head 2 moves

before opening channel 16 and connecting the pressure line 5 to the charging cavity 13. The working fluid enters the charging cavity 13 under pressure, the piston 7 is charged (idle) –brick 7. during which the fluid from the discharge cavity 12, channel 9, groove 10, channel 25 is forced out into the drain line 6. At the end of the platoon with the right-hand piston-bore 2, channel 9 is closed, and

The liquid is forced out of the cavity.

12 through the channel 20 in the spool cavity 21, acts on the spool 3, moving it to the leftmost (according to the drawing) position and connection

pressure line 5 through groove 11 with channel 9 with mains battery. 8, and the drain line 6 through the groove 10 and the channel 17 - with a platoon 1g; it has a cavity 13, with the right juice

the spool 3 closes the channel 16, and the working fluid from the cavity 19 through the channel 18 through the annular groove 14 and the channel 26 enters the drain line 7, under the influence of energy

the compressed gas of the accumulator 15, the piston of the head 2 is moved to the left (according to the drawing), a working stroke occurs. Working fluid from the hydraulic pump to the initial

the moment of acceleration enters the main battery 8, and when the right-hand piston is opened, punch 2 of channel 9 - into the drain cavity 12 and acts on the movable piston 4 and the piston juice on the right-punch 2. Next, the striker 2 strikes the tool, and the cycle of operation of the hydropneumatic impact device is repeated. At the same time, the connection of the spool 3 of the drain line 6 with the charging cavity 13, and the pressure line 5 - with the drain cavity 12 ensures the reduction of hydraulic resistances when the working fluid flows.

Editor S. Lisin Order 4889/25

Compiled by E. Stolbtsov

Tehred L. Serdyukova Proofreader S. Cherni

Circulation 470 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company 5 Uzhgorod, st. Project, 4

The use of a hydraulic-pneumatic impact device allows reducing hydraulic resistances in the process of acceleration of the piston-crush. This is achieved by combining the spool of the control of the drain line with the platoon cavity, and the pressure line - with the help of a drain.

The design of the proposed percussion device provides a reduction in hydraulic resistance during the acceleration of the piston - striker, which increases its efficiency.

Claims (1)

SHOCK ACTION DEVICE, including a housing with a radial control channel, a control unit having a pressure and drain channels and a spool, a striking piston with belts and an annular groove communicated by the control channel of the body with an asphalt cavity of the control unit, platoon, drain and battery cavities, pressure and drain piping, characterized in that, in order to increase the efficiency of the device by reducing hydraulic resistance, the control valve spool is made with two forming the middle belt face grooves, the width of one of which is equal in magnitude to the sum of the spool stroke and the diameter of the pressure channel, and the width of the other groove is equal to the sum of the spool stroke and the diameter of the drain channel, and the distance between the centers of the pressure and drain channels is equal to the sum of the values the radii of these channels, the stroke of the spool and the width of the middle zone of the spool, while the body is made with a radial drain channel offset from its control channel by an amount equal to the sum of the values of the radius owls of these channels. SU „„ 1257202 1 1257202 2