SU968373A1 - Percussive mechanism - Google Patents

Description

one

This invention relates to pneumohydraulic impact mechanisms and. it can be used in boring machines or in manual. impact tools.

Known telescopic perforator, insert body, cylinder, piston drummer, intermediate head and tool 1 ...

The disadvantage of the device is the large amplitude of vibration of the mechanism case, which is transmitted to the hands of the worker as vibration. In addition, when increasing the impact energy, it is necessary to increase the force of the impact mechanism against the surface being developed.

The closest to the invention to the technical essence and the achieved result is a percussion device comprising a body, a cylinder with cavities and reverse, separated by a percussion piston, an additional hydraulic cavity, made in the lower part of the body with a head in it. axial displacement L2J.

A disadvantage of the known device is also a large amplitude of oscillations of the housing during operation.

The aim of the invention is to improve working conditions by reducing the amplitude of oscillations of the body of the impact mechanism.

This goal is achieved by the fact that in the mechanism of percussion, comprising a housing, a cylinder with working and reverse cavities,. separated by a shock piston, an additional hydraulic cavity, made in the lower part of the housing 15 with a striker located in it, having the possibility of axial movement, an annular groove in the additional hydraulic cavity, connected to the backflow cavity, and the head made in the form of a piston with a double-sided rod channel through which to-. A complete hydraulic cavity is in communication with the backflow cavity, with the return valve being mounted in the channel.

With this, the working surface of the piston is larger than the area of the rod.

In the drawing isobrgiken mechanism

30 percussion action.

The mechanism includes a housing 1 in which a cylinder 2 is installed, closed by a cover 3 and having radial holes 4,

In cylinder 2. a piston 5 is installed, which divides cylinder 2 into pneumatic b and hydraulic 7 cavities. The pneumatic cavity 6 cpindra 2 communicates with the pneumatic cavity 8 through radial holes 4. Hydraulic cavity

7 cylinders 2 communicate with a control spool (not shown) via conduit 9.

In the lower part of the housing 1 there is a hydraulic cavity 10, which has an annular groove 11. The hydraulic cavity 10 communicates with the hydraulic cavity 7 through an annular groove 11 and channel 12. The cavity 10 has a hammerhead 13, made in the form of a piston with a double-sided rod 14. associated with the working tool.

The firing pin 13 has a check valve 16 by means of which the hydraulic cavity 10 communicates via the channel 17 with the hydraulic cavity 7.

A spring-loaded handle with a slide valve (not shown 7) is attached to housing 1.

The percussion mechanism works as follows.

The working fluid through the valve (not shown) enters through the pipeline 9 into the cavity.7 and raises the shock piston 5 to the extreme upper position, displaces the compressed gas through the radial holes 4 into the cavity 8. After the piston 5 blocks the holes 4, in the cavity b the gas shrinks from before pressure equalization to x 6 and .7. At the same time, the working fluid enters from channel 9 through channel 17 and non-return valve 16 into the cavity TO. This occurs because the area of the upper part of the stem 14, which perceives the pressure of the fluid in cavity 7, is less than the area of the piston of the striker 13 located in cavity 1

According to this, the pressure of the LIQUID in the cavity 10 is less than in the cavity 7.

As soon as the cavity 10 is connected with the cavity 7, the pressure in them is equalized, the check valve 16 is closed, and the impact body 13 rises to the extreme upper position, which eliminates the force of the shock mechanism against the developed surface.

The body 1 under the action of its own weight and the force of the springs of the handle is lowered relative to the working tool 15 by the value of a, which is the amplitude of oscillation of the impact mechanism.

When the valve controls the pipeline 9 to drain, the pressure in the cavity 7 drops, and the shock piston 5 under the action of the compressed gas of the cavity 6 moves down, opening the radial holes

4 cylinder 2. After that the piston

5 is already moving under the action of compressed gas supplied from cavity 8 to cavity 6, and the impact to piston hammer 13, which transfers the impact energy to working tool 15. The hammer 13, moving under impact from piston 5, closes the annular groove 11 and locks the liquid in cavity 10. Thus, the dimple 13 has the ability to move on the value of a, which is the amplitude of oscillations of the percussion mechanism. Then the cycle repeats.

Claims (2)

1. A percussion mechanism, comprising a housing, a cylinder with working and reverse cavities, separated by a shock piston, an additional hydraulic cavity made in the lower part of the housing with a briskly positioned in it, having the possibility of axial movement, which, in order to improve working conditions by reducing the amplitude of oscillations of the body of the percussion mechanism, an annular groove in the additional hydraulic cavity is made, connected to the cavity a piston with a double-sided rod and a channel through which the additional hydraulic cavity communicates with the return cavity, while a check valve is mounted in the channel. 2. The mechanism of claim 1, which is working. the area of the piston is larger than the area of the flow Sources of information taken into account in the examination 1. Esin N.N. Pneumatic percussion tire pads for drilling holes. Novosibirsk, Science SB USSR Academy of Sciences, 1978. 2. USSR author's certificate number 597825, cl. E 21 C 3/20, 1975 (prototype).