SU1114790A1 - Pneumatic hammer - Google Patents

Abstract

A PNEUMATIC HAMMER containing a working tool, a handle in the upper part of the body, having idle and working chambers, communicated with the outlets of the working agent inlet channels, a hammer with a bypass channel leading to the barrel surface of the hammer and its end closest to the working tool. in the chamber of the working stroke, the undercut of the body, block of the siche to the handle, the cut-off edge of which is placed with the possibility of its overlapping by the other end of the striker, characterized in that, in order to increase the energy of a single blow, put In the middle stage of the striker stroke, the output of the working agent inlet channel into the working stroke chamber is displaced at one of the extreme positions of the striker in {direction of the upper part of the housing relative to the undercut of the undercut l of the body closest to the handle, moreover, a groove is made on the side surface of the striker, which is connected to the bypass channel.

Description

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WITH

The invention relates to the mining industry, in particular, to manual pneumatic hammers with valveless air distribution and pneumatic impact machines for the destruction of rocks and frozen soils.

A pneumatic hammer is known, comprising a housing with air feed, impulse, throttle channels and a central stepped channel, in which a stepped drummer with channels is installed with the possibility of reciprocating movement. The hammer hammer forms with the casing a controllable stroke chamber, an annular network pressure chamber permanently connected to a source of compressed air, an accumulation chamber permanently connected by throttle channel to the network pressure chamber, atmospheric pressure chamber and several intercommunicating chambers by itself and with an atmospheric pressure chamber by means of chokes til.

The disadvantage of the pneumatic hammer is that the tail stroke pulse is generated only by the network pressure chamber. This causes the Smaller stroke of the hammer from the tool, and, consequently, the smaller value of the working stroke, which leads to a decrease in the energy of a single shock.

The closest to the invention in technical essence and the achieved result is a pneumatic hammer containing a working tool, a handle in the upper part of the body having idle and working chambers communicated with the outlets of the working agent inlet channels, a hammer with a bypass channel leading to the side the surface of the striker and its end closest to the working tool, and the undercut placed in the chamber of the working wheel, the cut-off edge of which is closest to the handle, with the possibility of its overlapping by another end of darnik t2.

A disadvantage of the known pneumatic hammer is that the air bypass is carried out at the initial moment of movement of the striker, which leads to a decrease in its speed and, accordingly, to a decrease in the energy of a single blow.

The purpose of the invention is to increase the energy of a single blow by making a bypass in the middle stage of the stroke of the striker.

This goal is achieved by the fact that, in a pneumatic hammer containing a working tool, there is a handle in the upper part of the body, having idle and working chambers, a working agent inlet channel communicating with the outlets, a hammer with a bypass channel leading to the side surface of the hammer and its nearest an end face to the working tool, and an undercut of the housing made in the working stroke chamber, the cut-off edge of which is closest to the handle is placed with the possibility of blocking the working agent inlet into the chambers with another end of the striker working stroke is displaced at one of the extreme polzheny impactor towards the top of the housing relative to the nearest edge of the handgrip shutoff undercut housing, wherein the side surface of the firing pin has a groove which communicates with the bypass channel.

FIG. 1 shows a pneumatic hammer with a partial longitudinal section; in fig. 2 is a section A-A in FIG. one.

The pneumatic hammer comprises a housing 1, in which, with the possibility of reciprocating motion, a stepped drummer 2 with an annular groove 3, a bypass channel 4 and an intake channel 5 is installed. In the housing 1 is made undercut 6, placed in the chamber 7 of the stroke. Between the hammer 2 and the housing 1, an annular chamber 8 of network pressure is formed which functions as an idle chamber. Chambers 8 and 9 are separated by an annular sealing flange 11, and chambers 9 and 10 by an annular sealing flange 12. In flange 12, throttle channels 13 are mounted, which constantly connect chambers 9 and 10 to each other.

The housing 1 has inlet channels 14 which continuously connect a compressed air network with an annular chamber 8 of the supply pressure and exhaust channels 15 to release the exhaust air from the chamber 10 to the atmosphere by means of a starter (not shown). The channels 15 are fenced in the form of a split ring 16. The pneumatic hammer has a working tool 17 and a handle 18. Working tool

Rule 17 is held relative to the housing 1 by the end spring 19.

The outlet 20 of the exhaust channel 15 is located at the upper end face 21 of the stepped drummer 2, and at its upper extreme position, the outlet 20 is located above the notch of the notch 6 closest to the handle 18 of the notch edge 22 in the working chamber 7. The groove 3 on the side surface 23 of the higher stage 24 of the striker 2 communicates with the channel 4 of the bypass, which, on the other hand, reaches the end 25 of the lower stage 2 of the striker 2. Handle 18 is placed on the top 27 of the housing part 1.

Pneumatic hammer works as follows.

When the starting device of the handle 18 is turned on, compressed air enters through channel 14 into the chamber 8 of the network pressure (in accordance with the position of the impactor shown in Fig. 1). Under the action of a pressure pulse from the chamber 6 side, the striker 2 begins to move from the shank 28 of the working tool 17, making an idling. At the same time, the air in the working stroke chamber 7 is forced into the atmosphere by the recess 6, the annular groove 3, the bypass channel 4, the exhaust chamber 10 and the inlet channel 15.

one

After passing through the radial inlet 29 of the channel 5 of the inlet level of the sealing flange 11, the intake of network air from the chamber 8 of the network pressure into the chamber 7 of the stroke is started. At the moment the radial inlet 29 of channel 5 starts to open into the chamber 8 of the mains pressure, the striker 2 side surface 23 of the larger stage 24 cuts the undercut 6 from the chamber 7 of the stroke, as a result of which the further flow of air from the chamber 7 of the stroke into the atmosphere stops. Since the working area of the hammer 2 from the side of the working stroke chamber 7 is larger than From the side 8 of the network pressure chamber 8, the impactor slows down and stops under the action of a larger pressure force pulse from the side of the working chamber 7. Immediately under the action of the pressure force from the working stroke chamber 7, the impactor 2 begins to move toward the shank 28 of the working tool 1, making a working stroke. On the part of the stroke, after opening the surface 23 of pain7904

at the step 24 of the striker 2 of the undercut 6, air begins to be bypassed from the working chamber 7 to the exhaust chamber 10 by means of the undercut 6, the annular groove 3 and the channel 4 of the bypass.

The flow of air from the working chamber 7 into the exhaust chamber 10 does not significantly reduce the pulse of the working stroke of the striker 2, since the speed of the working stroke of the striker 2 is large, and therefore the communication time of the camera 7 of the working stroke with channel 4 is small. At the same time, the bypass time when idling is 3-5 times longer than the bypass time during the working stroke of the striker 2. During the working stroke, moreover, there is no significant increase in the counterpressure on the drummer from the outlet chamber 10 because the indicated camera and communicating with it by means of throttles 13 pro-point1, the chamber 9 has a significant volume, and the total flow area of the throttles 13 is larger than that of the outlet channel 15. With further movement of the striker, the radial output of the channel 15 is blocked by the sealing shoulder 11, while The stupa of air from the chamber 8 of the mains pressure into the chamber 7 of the stroke is stopped.

At the moment preceding the impact, the radial inlet 29 of the channel 5 is bridged in the flow chamber 9, as a result of which the chamber of the working stroke 7 is partially emptied by the channel 5 into the chamber 9, and the emptying is carried out smoothly due to the back pressure in the chamber 9.

The pressure in the flow chamber 9 and, consequently, in the discharge chamber 10 is thus increased, however, due to the significant volume of these chambers and the high speed of the drummer 2 during a working stroke, this does not lead to significant counterpressure on the part of the drummer 2 from the side of the idling chamber.

By overcoming the back pressure from the chamber 8 of the net pressure, the drummer 2 strikes the shank 28 of the working tool 17.

Under the action of pressure pulses from the side of the chamber 8 of the net pressure and rebound, the impactor 2 begins to idle. Since the initial idling speed of the striker 2 is low, the pressure in the chamber 10 of the discharge su

Claims (1)

PNEUMATIC HAMMER containing a working tool, a handle in the upper part of the housing having idle and working chambers communicated with the outputs of the working agent inlet channels, a hammer with a bypass channel extending to the side surface of the hammer and its end face closest to the working tool, and made in the undercut chamber, a cut-off edge closest to the handle that is placed with the possibility of overlapping it with the other end of the striker, characterized in that, in order to increase the energy of a single impact by realizing the direction of the bypass in the middle stage of the stroke of the striker, the output channel of the inlet of the working agent into the chamber of the working stroke is displaced at one of the extreme positions of the striker in the direction of the upper part of the housing relative to the cut-off edge of the recess nearest to the handle | case, moreover, a groove is made on the lateral surface of 1 ^ drummer, which If is connected to the bypass channel. R>