SU1288292A1 - Percussive device - Google Patents

Abstract

The invention relates to the field of mining and is intended to destroy rocks. The purpose of the invention is to expand the functionality of the device by providing energy and frequency control for the impacts. For this, the device has 1 piston-firing pin (PB) 4 with stem 5, differential valve 7, two-stage impulse valve (DIC) 11 and throttle-12 located in the bore of the housing of the percussion mechanism (UM). UM-1 housing has a drain channel 8, a control channel 9 and an additional bore 6 in which valve 4 is coaxial with PB 4. Channel 9 is connected to the control valve of the distributor 10 with a spring-loaded spool, subvalanted cavity 14 DIK 11 and through throttle 12 with the rod cavity MIND 1 communicated with pressure line 18 pump 17, connected through a check valve 19 to the hydraulic cavity of the battery 20. When fluid is supplied to the piston cavity of the UM 1, the battery 20 is charged. In this case, the PB 4 occupies the extreme position and the increased pressure acts on a smaller step DICK AND, the liquid passes into the cavity 16 to act on the second step. After that, DICK 11 is mixed to the right. The pressure drops and the valve 7 opens. As a result, the valve moves to the right and the battery 20 is discharged. The fluid that enters the MIND 1 assists the collision of PB 4 with tool 3. 1 sludge. W 15 W / 3 / J / / / & (L N3 00 СХ) e yu -: 2 6 7

Description

The invention relates to the mining industry and can be used in impact devices for the destruction of rocks.

The purpose of the invention is to expand the functionality of the device by providing energy and frequency control for shock.

The drawing shows the proposed device.

The percussion device contains a percussion mechanism 1 mounted on an excavator bucket and a control unit 2 located outside the working area. In the bore of the casing of the percussion mechanism 1, the tool 3 and the piston firing rod 5 are mounted. The casing of the percussion mechanism is made with an additional bore 6, in which a spring-loaded differential valve 7, a drain channel 8 and a control channel 9 are installed.

The control unit contains a two-position valve 10 with a spring-loaded spool, a two-stage pulse valve 11 and a throttle 12.

The two-stage impulse valve 11 is pressed by a spring 13 adjustable by means of a screw, a locking bevel of a smaller cross section to the mounting seat and forms a subvalvular cavity 14, and the second step of the larger area performs a positive overlap of the annular bore 15 associated with the drain. A cavity 16 is formed between the stages of the pulse valve 11.

The pump 17 is driven by the diesel engine of the base machine, and its pressure line 18 is connected via a check valve 19 to the hydraulic cavity of the battery 20, which is connected by line 21 to the inlet of the distributor 10, the output of which is connected by line 22 to the piston cavity of the percussion mechanism 1.

The control channel 9 is connected by the main line 23 to the control chamber of the distributor 10, the valve valve 14, which is closed in the pulse valve 14, and through the choke 12 to the rod cavity of the percussion mechanism connected to the pressure line 18. The drain channel 8 is connected to the drain line. There can be several impact mechanisms and they are connected in parallel to the control unit.

The device works as follows. The pump 17 delivers fluid under working pressure to the rod cavity of the percussion mechanism 1 via line 18, making the piston idling stroke 4. The working pressure acting on the end face of the differential valve 7, due to the difference in area from the subvalval and supra cavity, keeps a differential valve 7 for prematurely opening and connecting a pressure line 18 with a drain. Simultaneously

By cutting the check valve 19, the battery 20 is charged. The working fluid coming from the pump 17 through the throttle 12 also simultaneously acts on the working elements of the control unit 2. When the piston-brisk 4 reaches its extreme position, the pressure in the hydraulic system increases to the value determined by the corresponding setting of the spring 13 of the pulse valve 11.

Under the action of the limiting pressure of the fluid, the lower level of the pulse valve 11 is detached from the installation seat, and the working fluid entering the closed cavity 16 acts on the increased area of the second stage and makes a sharp movement of the pulse valve to the right before opening the connection with the drain bore 15. Pressure Cavity x 14 and 16 drops to drain. This leads to the opening of the differential valves 7 under the influence of fluid pressure from the rod end of the percussion mechanism and to the connection of this cavity with the drain.

The pressure drop in the control chamber of the distributor 10 causes the spool to move to the right under the action of the spring and to connect the piston cavity of the percussion mechanism with the accumulator 20. Discharge of the accumulator 20 occurs, the fluid enters the piston cavity of the percussion mechanism 1 and The acceleration of the crushing box 4 before the collision with the tool 3 is achieved. Upon the attainment of the slider 4 extreme position, the pressure in all working cavities drops to a minimum. The valve 11 is closed, the valve 10 is returned to its original position. The differential valve 7 under the action of the spring and the resulting differential pressure of the liquid closes the channel 8, and the tool 3 with the spring returns to its original position.

Further, the duty cycle is repeated.

The target energy and frequency of impacts are ensured by the corresponding tuning of the spring of the pulse valve 11 and the throttle 12.

Claims (1)

Invention Formula A percussion device, including a percussion mechanism, in the bore of the body of which tools and a piston rod are placed, a valve with a spring-loaded slide valve, an input and output control chamber, a pump whose pressure line is connected through a non-return valve to the hydraulic cavity of the battery communicated with an inlet of the distributor, characterized in that, in order to expand the functional capabilities of the device by providing energy and impact frequency adjustments, the device is provided with differential valve, two hundred foam pulse valve and drosse-zan with the control valve of the distributor, Lem, the casing of the percussion mechanism is made with a cavity closed by a valve, with an additional bore, a drain channel and through a throttle with a rod cavity and the control channel, and the differential impact mechanism communicated with the pressure the valve is located coaxially to the striker in the upstream line of the pump, with the output of the distributing case of the shock ME-5 engine communicating with the piston cavity of the Ukhastanism, while the control channel of the sv mechanism.