SU789271A1 - Pneumatic impact-action mechanism - Google Patents

Description

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The invention relates to pneumatic percussion tires and can be used in pressure treatment of metals.

A percussion device is known, comprising a pneumatic cylinder with a piston-hammer and a receiver in communication with a pneumatic cylinder connected through a distribution mechanism to a compressed air line. 0

The drawback of the device is a large loss of energy carrier, which does not participate in useful work due to the exhaust of compressed air from both cavities of the cylinder and receiver into the atmosphere.

The closest device to the technical essence and the achieved effect to the invention is a pneumatic percussion mechanism containing a power cylinder, a piston-hammer located inside it with a rod separating the cylinder on the working and idling cavities, the receiver communicating with the working stroke 25 through the hole in the cylinder, closed by the end of the piston of the impactor, when the latter is located in the initial position, a switchgear connected through the receiver to JQ

compressed air line, and attached to the end of the piston rod of the impactor working tool f2j.

.The main week} the remainder of the device is a large unproductive loss of compressed air, VE} 1 due to the fact that most of the compressed air in the receiver and the working cavity of the cylinder when the piston returns to its original position is discharged into the atmosphere, thus not participating in subsequent piston strokes -shock In addition, there is a lot of noise when air is blown out.

The purpose of the invention is to increase air saving and noise reduction during operation.

This goal is achieved by the fact that the piston-hammer from the side of the working stroke cavity is equipped with a rod, the cross-sectional area of which is larger than the cross-sectional area of the rod, at the end of which the working tool is fixed, and the distributor is made in the form of two three-linear two-position spools with common pneumatic control, the first spool input is connected to the line compressed in: pike.

the output is connected to the receiver, and the reset channel is connected to the inlet of the second spool, the outlet of which is connected to the cylinder idle cavity, and an adjustable throttle is installed at the entrance to the control cavity of the second spool

The drawing schematically shows a pneumatic percussion mechanism,

The pneumatic percussion mechanism consists of a power cylinder 1, a piston of an impact hammer 2 with a rod separating the cylinder cavity 3 and 4 of the working and cold stroke, the receiver 5 communicating through the opening 6 with the cavity of working stroke 3, are three-linear differential.

TWO-POSITIONAL DOGS 7 and 8,.

distributing devices with common pneumatic control by means of valve 9, moreover, on the inlet c. The control cavity of the spool 8 is fitted with a re-energized choke choke 10, which is necessary to delay the actuation of the spool 8.

From the cavity of the working stroke

The 3-piston hammer has a rod 11, the cross-sectional area of which is larger than the cross-sectional area of the rod 12, at the end of which the working tool 13 is fixed.

The input of the spool 7 is connected to the compressed air line 14, the output of the receiver 5, and the reset channel (not shown) is connected to the input of the spool 8, the output of which is connected to the cavity 4 of idling.

Pneumatic percussion mechanism works as follows.

In the initial position, the piston-drummer 2 is in the leftmost position, blocking with its end face the hole 6 connecting the receiver 5 to the working cavity 3, when eft, the idle cavity 4 through the spools 7 and 8, which are in the rightmost position, is connected to Receiver 5.

With the opening of valve 9, the compressed air from the line, entering the control cavities of spools 7 and 8, the loop retracts them to the extreme left position, with the result that the receiver 5. connects via spool 7 to the mainline of compressed air and the cavity

4 idle through the spool 8 is connected to the atmosphere, and the throttle 10 is configured so that the switching of the spool 8 occurs after the pressure in the receiver 5 is equal to the air pressure in the pipeline. After the spool 8 is switched, the pressure in the idle cavity 4 drops, and the piston-hammer

2 makes a working stroke with a strike. To return the piston of the impact hammer 2 To the initial position, the valve 9 is closed, while controlling the cavities of the spools 7 and 8 are connected to the atmosphere, as a result

then, the spools 7 and 8, moving to the initial position, connect the receiver 5 to the idle cavity 4. Compressed air in the receiver 5 and the working cavity 3 of the cylinder 1 begins to flow into the idle cavity 4, as a result of which the piston hammer 2 due to the difference in the areas of their ends, which are under pressure, moving to the left, idle to the starting position. At the same time, the pressure in the receiver 5 and the idle cavity 4 by the end of idling drops and becomes lower than the main one by an amount proportional to the difference between the volumes of the cavities 3 and 4 (without taking into account compressed air leaks through the seals and switchgear). the impact mechanism repeats, while the compressed air from the idle cavity 4 escapes into the atmosphere with a pressure lower than the main one, and the receiver only makes a charge with compressed air to a pressure equal to the main one.

The proposed impact mechanism significantly reduces the unproductive losses of compressed air, reduces the amount and level of noise due to the fact that the exhaust of compressed air is produced only from the idle cavity, and its pressure is lower than the main one.

Claims (2)

1. A pneumatic percussion mechanism containing a power cylinder, a piston-hammer in it, with a rod dividing the cylinder into the working and idling cavities, a receiver communicating with the working cavity through the cylinder hole at the end of the piston piston. the initial position, the switchgear, and the fixed piston at the end of the piston rod - a working tool, characterized in that, in order to save air and reduce noise during operation, the hammer-piston from the working cavity its stroke is equipped with a rod, the cross-sectional area of which is larger than the cross-sectional area of the rod, at the end of which the working tool is fixed, and the distributor is made in the form of two three-linear two-position spools with common control, and the first spool has an input connected to the compressed air line: the output - with the receiver, and the reset channel is connected to the input of the second spool, the output of which is connected to the cylinder idle cavity. 2. Pop-1 mechanism, distinguished by ayu yi and the fact that it is equipped with an adjustable choke installed at the entrance to the control cavity of the second spool. Sources of information taken into account in the examination // 1. USSR author's certificate 351690, cl. B 25 O 9/14, 1960 -A And 2. Author's certificate of SCR 181939, cl. F 15 B 15/02, 1967 (prototype),