SU246442A1 - PNEUMATIC MECHANISM - Google Patents

Description

The invention relates to the field of mining machines and can be used in the design of new pneumatic jackhammers and hammers, pneumatic hammers and other pneumatic impact tools.

Known pneumatic impact mechanism, comprising a cylinder, stepped drummer with an axial channel and air distribution device.

The proposed mechanism is characterized in that, in order to reduce recoil and reduce overall dimensions, its air distribution device is equipped with a tubular valve, on the outer surface of which there are longitudinal grooves forming variable section channels with the inner surface of the bladder neck.

The drawing shows a schematic diagram of the described pneumatic impact mechanism, the cut.

The pivot-shock mechanism consists of a stepped cylinder 1, inside of which is located the hammer 2 with the central channel 3. The needle valve 4 is attached to the cylinder head with a hinge. 5. The tubular valve 6 is located in the saddle of the cylinder neck. Longitudinal undercuts 7 are formed on the outer surface of the valve, forming channels with a cylinder stage with a cross section which decreases from the top 5 downwards. The cross-sectional shape of the undercuts can be arbitrary, for example, semicircular, rectangular, etc. Work tool 8 enters the shank into the bush. The drummer 2 with the tubular valve 6 divides the cylinder into three cavities; upper A, intermediate B and lower B. In the intermediate cavity, a storage chamber 9 is located. The recesses 7 on the outer surface of the Valve are designed to let air into the intermediate cavity B.

5 Axial channel 3 in the body of the striker is designed to supply air to the lower cavity B, and needle valve 4 controls its inlet. The lower part of the firing pin carries out the exhaust from the working cavities of the mechanism. Thin piece

The striker 2 enters with its end into a tubular valve, the central opening of which serves as a guide for it. In the absence of compressed air in the mechanism, the impactor is located at the bottom of the cylinder / and rests on the end

5 working tool 8. Tubular valve 6 occupies the lower position, located in the saddle of the cylinder stage.

the cavity through window 10 communicates with the atmosphere.

The mechanism works as follows. When the valve of the starter is opened, compressed air from the network through the upper cavity D of the central opening of the clan and channel 3 in the striker enters the lower cavity B. Since the area of the upper end of the striker relative to the area of its end is relatively small, it will move under pressure. up. After the impactor closes the window 10 in the intermediate cavity, free air will begin to compress, and since the needle is closed: the channel 3 valve stops access of the network air to the lower cavity, and the process of clean expansion will take place in it. Continuing upward movement, the drummer will open the window 10, as a result of which the exhaust of the lower cavity will occur. The pressure in it will fall sharply to the atmospheric level, and the drummer will continue to move upwards by inertia. At some point in time, it will approach the valve from below and, moving with it, will open access to the network air to the intermediate working cavity and chamber 9 through the channels formed by the recesses 7 on the outer surface of the tubular valve. Due to the low speed of the impactor at the moment of approaching the valve and the presence of back pressure on its upper face surface, the push at the meeting will be soft and their upward movement will be smooth.

Continuing upward movement, the hammer and valve will reach the top position, after which they will begin to move downward. The mass and working areas of the tubular valve are selected so that it will move slower than the impactor and its

the undercuts on the outer surface will form channels with gradually increasing working section with the inner surface of the cylinder stage. As a result, the pressure above the 5 drummer will gradually increase and reach the maximum value close to the network pressure. Continuing the downward movement, the valve will block access of the network air to the intermediate floor, and there will be

0 to expand.

Following this, the drummer with its lower edge will block the exhaust port 10 and free air compression will begin in the lower cavity. From the moment the needle valve

5 will open channel 3 in the striker, the intake of the network air will begin in the lower cavity for a return stroke, and from the moment the upper edge of the striker of the exhaust window 10 opens, exhaust will flow out of the intermediate cavity B.

0 The pressure in it will fall sharply to the atmospheric level.

By overcoming the counter pressure from below, the nickname strike will strike the tool 8, after which the above process will be repeated again.

Subject invention

A pneumatic impact mechanism including a cylinder, a stepped drummer with an axial channel and an air distribution device, characterized in that, in order to reduce recoil and reduce overall dimensions, the air distribution device has a tubular valve with longitudinal grooves that form channels of variable cross section when interacting with the internal surface. cylinder neck.