SU979628A1 - Hydraulic percussive device - Google Patents

Description

(54) HYDRAULIC DEVICE

one

The invention relates to water hammer devices used in mining and road construction machinery.

A hydraulic percussion mechanism is known, comprising a housing, an instrument, a piston head, a control spool, a hydropneumatic accumulator, a backstop chamber, an auxiliary and working stroke, a drain and a pressure line 1.

A disadvantage of this device is the impossibility of filling the working stroke chamber with liquid without disassembling the mechanism.

The closest in technical sushi, nity and the achieved result to the proposed is a hydropercussion device containing a tool, a battery, operating and reverse chambers, a distributor, a housing with bores of pressure, control, drain, firing pin with control and tracking grooves, pressure channels, control and discharge, pressure and discharge lines 2.

The disadvantage of such a device is the lack of recharge of the working stroke chamber with possible leakage of liquid from it, which leads to a decrease in the energy parameters of the whole mechanism. For filling the working chamber with liquid

to the required volume, frequent disassembly of the device is necessary, which reduces its operational reliability.

The purpose of the invention is to increase the operational reliability of the hydrostatic device.

The goal is achieved by the fact that the hydropercussion device containing the tool, the working and reversing chambers, the distributor, the housing with the bores of the head, the control, the drain, the firing pin, and the control and tracking of the pressure head, the drain and the control, the discharge and drain lines are equipped with a valve , the inputs and outputs of which are connected to the pressure and control channels.

The drawing shows a schematic diagram of the device.

The hydraulic impact device contains a tool 1, a striker 2, having the possibility of axial reciprocating movement in the housing 3, under the action of expanding gas in the battery 4 and the fluid in the chambers of the working stroke 5 and the reverse stroke 6 of the distributor 7, which periodically returns the reverse gear chamber 6

with pressure Pff and drain Rd. highways, bores of pressure 8, controls 9 and drain 10, made in housing 3 and connected to channels 11-13 of said bores, control grooves 14 and tracking 15, made on a larger diameter of striker 2, brake chamber 16, check valve 17, spool 18, the inlet and outlet of which are connected to the pressure channels 11 and the control channels 12, the channels 19 and 10.

Hydraulic shock device works as follows.

Before using the device, it is pretreated, i.e. gas is pumped into the accumulator 4 under pressure, and the working stroke chamber 5 is filled with the working fluid. For this purpose, the valve 18 is moved to the left end position (according to the drawing) and the pump is turned on. The working fluid through the channels 11, 19 and 12 simultaneously enters the ends of the distributor 7. The design parameters of the distributor 7 are selected in such a way that the force acting from the right end of the distributor is greater than the force acting on the left end of the distributor, as a result of which it begins to move to the left, occupies the extreme position (according to the drawing) and at the same time connects the return chamber 6 with the drain line f, which guarantees that the working stroke chamber 5 is completely filled with the working fluid. The working fluid through the channel 20 and through the check valve 17 enters the chamber 5 of the working stroke, filling its volume, while the striker 2 begins to move and occupies the leftmost position (according to the drawing). The initial pressure in the chamber 5 of the stroke corresponds to the pressure in the pressure line P, i.e. the hydraulic drive. After that, the spool 18 occupies the original position. The valve 7 also occupies the initial position due to the fact that the force acts from the left end, and it stops from the right after switching the spool 18.

The hydro shock device is ready for operation. It begins to work with a preliminary preload tool to the barrier, i.e., if necessary. When the hydraulic drive is switched on, the working fluid from the pump is supplied via the discharge line PH to the return chamber 6. The distributor 7 is in the right extreme position (according to the drawing) due to the force acting on its left end that occurs when exposed to the working fluid supplied through channel 19, and no effort is acting on the right side at that moment control 12, drain 13, bore control 9, drain 10 and groove tracking 15 are connected to drain line 1. The platoon of striker 2 begins.

When the striker 2 moves to the right, the return stroke occurs, while the liquid from the working stroke chamber 5 is forced out into the accumulator 4, compressing the gas. At the end of the return stroke of the striker 2, the working fluid is fed through the pressure channels 11, the control 12, the grooves 14 of the control and the bores of the pressure 8, the control 9 is fed to the right-hand end of the distributor 7. Due to the design parameters, the distributor 7 starts

0 move to the left (according to the drawing), while connecting the backstop chamber 6 to the drain line PC. Under the action of the expanding gas in the battery 4, the uniformly accelerated motion of the striker 2 occurs, i.e., its working stroke is made.

5 After the impact of the striker 2 with tool 4 and insertion of the latter into the face, the right end of the distributor 7 using control channels 12, drain 13, control bores 9 and drain 10, grooves 15

0 tracking is connected to the drain line 1. Under the action of a constant force acting on the left end of the distributor 7, it returns to its original position and the cycle repeats.

During lumbago striker 2, it can

5 to occur in the absence of an obstacle tool 1, i.e., with a destroyed bottom or presence of a rock slab on a strong layer. The energy of the striker 2 is extinguished by the brake chamber 16 by throttling the fluid between the housing 3 and the striker 2 in this chamber, and the tracking groove 15 at this time connects the bores of the head 8, the control 9 and the drain 10, i.e. the hydraulic drive is unloaded.

The application of the proposed hydraulic shock device allows increasing operational reliability due to automatic filling with working fluid. This reduces the time lost on the maintenance of the mechanism, since it eliminates the need for disassembly and assembly.

Claims (2)

Invention Formula A hydraulic shock device containing a tool, working and reverse chambers, a distributor, a housing with bores for pressure, control, drain, a firing pin with control and tracking grooves, control and drain channels, a pressure and drain line, characterized in that its operational reliability, the hydropercussion device is equipped with a spool, the inputs and outputs of which are connected to the pressure and control channels. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 557178, cl. E 21 C 3/20, 1975. 2. USSR author's certificate No. 889838, cl. E 21 C 3/20, 1980.