RU2623936C2 - Pneumatic hammer - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: pneumatic hammer contains a handle with a sleeve forming an air cushioning chamber, a casing, a trunk with a working tool installed in the casing, with a hammer and an air supply pipe and an air distributor. The air supply pipe is made stepped with a large step, by means of which it is fixed in the barrel and with a small step installed in the sleeve with a possibility of movement and made with a closed end and radial holes on its side surface for periodic communication of the air distribution unit with the compressed air network.

EFFECT: simplifying the design, increasing the ease of use and efficiency of vibration damping.

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Description

The invention relates to pneumatic impact machines and can be used to design pneumatic hammers, concrete breakers, rammers used in mechanical engineering, construction and other sectors of the economy.

Known pneumatic hammer with a shock-absorbing device according to the patent of the Russian Federation No. 2336991 C2, IPC B25D 17/14, Е21С 37/24, 11/29/2006, comprising a housing located in the housing, with a shock absorber spring installed between the housing shoulder and the housing shoulder, a drummer mounted with the possibility of reciprocating movement in the housing, a handle located between the casing and the handle, a sleeve that forms an air cushioning chamber with the handle. The housing in its upper part to the shoulder is slidably mounted in the sleeve and enters the air cushioning chamber.

The disadvantages of the known device are the design complexity, reduced cushioning properties, insufficient vibration damping, since a spring of high elasticity is used to damp the vibration, which counteracts the force from the compressed air acting on the end face of the machine body, the body vibrations are transmitted to the handle, insufficient ease of use.

Closest to the invention in technical essence and technical result achieved is a pneumatic impact machine according to the copyright certificate SU No. 1785886 A1, B25D 17/24, from 04.09.90, taken as a prototype, containing a casing with a handle and an air supply rod, coaxially installed in housing, piston with a rod covering the air supply rod with the possibility of axial movement, a working tool kinematically connected with the piston and a sleeve coupling, the end face of the latter from the handle side flushes the piston rod and rigidly connected with it, and the body covered by the opposite end thereof, the air supply shaft is mounted in the piston rod with a clearance, its closed end and the side surface provided with radial holes, periodically reporting the compressed air system with an air distribution device.

The disadvantage of this pneumatic impact machine is: the complexity of the design, schematically not adapted to the design of hammers, in which there is no hammer, and the cylinder is a working tool.

The technical result of the invention: simplifying the design, improving ease of use and vibration damping efficiency of a pneumatic hammer.

The technical result is achieved in that the pneumatic hammer contains a handle with a sleeve forming an air cushioning chamber, a casing installed in the casing of the barrel with a working tool, with a hammer and an air supply pipe and an air distribution device, characterized in that the air supply pipe is made stepwise with a large step, by which the air supply pipe is fixed in the barrel, and with a small step installed in the sleeve with the possibility of movement and made with a closed end and radial holes on its lateral surface for periodic communication of the air distribution device with a compressed air network.

The invention is illustrated by drawings, where in FIG. 1 schematically shows a pneumatic hammer, a longitudinal section; in FIG. 2, FIG. 3 - pneumatic hammer with air cushioning chamber made in the nut of the barrel.

The pneumatic hammer (Fig. 1) contains a handle 1 made of a handle 2, plastic or rubber, mounted in the housing 3 of the handle 1 with an air cushioning chamber 4, a casing 6 closed from the end of the sleeve 5, installed in the casing 6 of the barrel 7 with a working tool 8 , with a hammer 9, closed on top with a nut 10, in which the air distribution device 11 is placed, a stepped air supply pipe 12 with a small 13 and a large 14 steps, a small step 13, the pipe 12 is mounted slidingly in the sleeve 5 with the possibility of movement. The end face of the small stage 13 of the air supply pipe 12 is closed, and radial holes 15 are made on its lateral surface, periodically communicating the compressed air network with the air distribution device 11.

In the pneumatic hammer (Fig. 2) in the nut 10 of the barrel 7 there is an air cushioning chamber 17 in which the air supply pipe 12 is placed, with a small step 13 it is sliding and movable, and a large step 14 is installed in the sleeve 18, located between the handle 1 and the casing 6, the handle 1 is made with a starting device 16. A rubber o-ring 19 is installed on a small stage 13 of the pipe 12.

The pneumatic hammer (Fig. 3) is made with the automatic start of the hammer by pressing the handle 1, while the end face of the small stage 13 of the pipe 12 is closed, and radial holes 15 are made on its lateral surface, periodically communicating the compressed air network with the air distribution device 11.

Air hammer works as follows.

According to the scheme (Fig. 1), when the hammer is connected to the compressed air network, the air cushion chamber 4 of the handle body 3 is filled with air. Compressed air presses on the closed end of the small stage 13 of the air inlet pipe 12, the barrel 7 with the pipe 12 are displaced downward and the radial holes 15 are blocked by the sleeve 5, the compressed air access to the air distribution device 11 is blocked, the hammer does not work, it is connected to work. As soon as the operator presses the handle 1, the air supply pipe 12 moves upward in the sleeve 2, the radial holes 15 enter the air cushion chamber 4 and open compressed air to the air distribution device 11, which provides reciprocating movement of the hammer 9 in the barrel 7, i.e. automatically from pressing the handle 1, the hammer starts to work, which provides increased ease of use.

According to the diagram (Fig. 2), the operator presses the starting device 16 on the handle 1 of the pneumatic hammer, opens the access of compressed air from the network through the air supply pipe 12, through the cushioning chamber 17 to the air distribution device 11, from the air distribution device 11, the compressed air is alternately supplied under and above drummer 9 and causes it to reciprocate, as a result of which it strikes the working tool 8. These movements of the hammer 9 cause oscillatory movements of the barrel 7, which significantly reduced due to the large difference in the weights of the barrel 7 and the hammer 9. The weight of the barrel increased even more with the increase in the length of the nut 10 in which the air cushion chamber 17 is made. As a result, the remaining reduced oscillations of the barrel are damped by the air cushion chamber 4. The vibration damping efficiency is significantly increased.

The pneumatic hammer according to the scheme (Fig. 3) is connected to the compressed air network (the operation description is similar to that of the hammer according to the scheme (Fig. 1), the operator brings it to the object of work, presses the handle 1 and the hammer automatically starts to work, at the end of work the operator releases the handle 1 and it with the casing 6 moves upward under the action of compressed air at the end of the small stage 13 of the pipe 12, the radial holes 15 enter the overlapping area of the nut 10, the access of the compressed air to the air distribution device 11 is cut off and olotok stops working is improving:. vibration damping efficiency, ease of use, select the optimum pressing force on the handle

 depending on the area of the closed end of the small stage of the air supply pipe.

Claims (1)

A pneumatic hammer containing a handle with a sleeve forming an air cushioning chamber, a casing installed in the casing of the barrel with a working tool, a hammer and an air supply pipe and an air distribution device, characterized in that the air supply pipe is made stepwise with a large step by which the air supply pipe is fixed in the barrel , and with a small step installed in the sleeve with the ability to move and made with a closed end and radial holes on the side its surface for periodic communication of the air distribution device with a compressed air network.

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