SU657171A1 - Pneumatic hammer - Google Patents

Description

one

The invention relates to pneumatic hammers that can be used in the mining and other industries.

Pneumatic hammers are known. They contain a housing, an air-distributing mechanism, and a movable hammer with a magnet installed in it, while a permanent magnet 1 is embedded in the housing for interaction with the magnet of the hammer.

In these hammers, the idle stroke of the impactor is accomplished by the force of attraction of the magnets.

The closest in technical essence and the achieved result to the present invention is a pneumatic hammer comprising a housing, a hammer, working and return chambers, an air distribution mechanism installed with limited axial movement, and a handle with a starting device 2.

However, the industrial operation of such hammers shows their lack of reliability when operating the hammer from bottom to top.

The aim of the invention is to increase the operational reliability of the hammer by holding the air distribution mechanism in the upper position during the working stroke of the hammer.

This goal is achieved due to the fact that the hammer has a magnetic Ibaib, which is fixed above the air distribution mechanism and is made with a calibrated channel.

FIG. 1 shows the scheme of the proposed pneumatic hammer in the section; in fig. 2 - air distribution mechanism.

The hammer includes a housing 1, a cylinder 2, a hammer 3, a handle 4 with a lump device (not shown), a magnetic ring 5 installed in a cover 6 fixed above the air distribution mechanism 7, which has the possibility of limited axial movement in the annular bore 8 cylinder 2, and seal 9, which serve to prevent air from passing between housing 1 and cylinder 2.

Radial channels 10, 11, 12 and longitudinal channel 13 are made in cylinder 2 in its upper part. Calibrated channel 14 is made in the magnetic shield, through which the chamber above the air-distributing mechanism communicates with a volume 15 permanently connected with a source of compressed air.

An annular gap 16 is provided in the hammer between the inner side surface of the air distribution mechanism 7 and the outer side surface of the hammer 3 (with its upper position in the drawing). The drummer 3 forms with the walls of the cylinder 2 a chamber of working stroke 17 and a reverse stroke 18. In the cylinder 2 and the housing; 1, exhaust ports 19 and 20 are made. A working tool 21 is installed in the hammer.

The hammer works as follows. When the trigger is turned on, compressed air from cavity 15 through the calalas 10 of cylinder 2 and annular gap 16 between the impactor 3 and the air-distributing mechanism 7, which at this moment is under the action of the magnetic washer 5, is in the upper position ( the position shown to the right of the axis of symmetry) enters the forward stroke chamber 17 (above drummer 3). In this case, the hammer 3 performs the working stroke, and the air-distributing mechanism 7 is in the upper position (pressure on its inner and outer surfaces are equal), since the compressed air enters through the calibrated channel 14 of the washer 5. Backstop chamber 18 through the exhaust ports 19 and 20 with the atmosphere.

After the shock 3 opens the exhaust ports 19 and 20 and strikes the working tool 21, the pressure in the chamber of the working stroke 17 and, consequently, on the inner surface of the air distribution mechanism 7 decreases. And under the action of the air pressure on the outer end surface, the mechanism 7 moves to the lower position (according to the drawing) and opens the radial channels 11 and 12. At the same time, the channels 10 are closed, i.e., the compressed air is cut off in the working chamber

running 17. Compressed air through the channels 11, 12 and 13 enters the reversing chamber 18.

Further, under the action of inertial forces during rebound and pressure of compressed air in chamber 18, the striker 3 reverses. After they shut off the exhaust ports 19 and 20, the air in the working stroke chamber 17 is compressed. Due to the increased pressure on the inner surface of the air distribution mechanism 7 and the magnetic forces of the washer 5, the mechanism 7 moves to the upper position, closing the channels I and 12 and opening the channel 10 In this case, the access of compressed air to the return chamber 18 is stopped, and the air-distributing mechanism 7 is securely held in the upper position under the action of the magnetic forces of the washer 5. The drummer 3 makes a working stroke.

In the following, the cycle repeats.

Claims (2)

1. USSR author's certificate number 325364, cl. E 21 C 3/24, 1969. 2. USSR author's certificate number 329312, cl. E 21 C 3/24, 1969.