RU2612889C2 - Pneumatic hammer - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to pneumatic hammer. Pneumatic hammer contains cylindrical housing, working tool, rod with shutoff valve, stepped striker with rod and piston parts, with central channel and bushing with longitudinal slot channel in its hole arranged in its rod part central channel. Stepped striker divides cylindrical housing cavity on annular distribution chamber and idle stroke chamber. Rod with shutoff valve constantly interacts with longitudinal slot channel in bushing hole and, depending on stepped striker position, periodically connects annular distribution chamber and idle stroke chamber to each other. Idle stroke chamber is made with discharge channel. On stepped striker outer piston part annular groove is made. In stepped striker piston part on central channel side with output to said groove radial channel is made, periodically communicated with idle stroke chamber discharge channel and atmosphere.

EFFECT: result is elimination of stepped striker repeated impacts on cylindrical housing.

1 cl, 2 dwg

Description

Air hammer refers to the mechanisms used in shock machines for various purposes.

Known pneumatic hammer (A.S. USSR 1158341, MKL. B25D 9/26, 1985), comprising a housing with inlet and outlet channels, a drummer dividing the cavity of the housing into the chamber idle and working strokes, periodically communicating with each other through the channel displacement, performed in one of the elements of the hammer, a working tool with an end spring, a handle, a casing covering the housing and the cover mounted on the end of the housing from the side of the stroke chamber. The lid has inlet channels for transferring compressed air to the chambers. For exhaust exhaust from the chambers of working and idling in the housing there are exhaust channels that are connected to the chamber formed between the casing and the casing, the air from which is released into the atmosphere through openings in the casing to reduce backpressure in the idling chamber at the end of the working stroke the drummer serves as a channel through which the excess air is displaced from the idle chamber.

The channel communicating the idling chamber with the working chamber and through it with the atmosphere ensures the formation of an air pressure pulse sufficient to idle and re-strike the shank of the working tool even in case of failure of the working tool shank and the hammer. It follows that the bore of the outlet channel (groove) is not sufficient to lower the air pressure in the idle chamber to atmospheric. Thus, repeated strikes on the body are inevitable, which will lead to the destruction of the body.

Also known is a pneumatic percussion mechanism (USSR patent No. 2477778, MKl. E21C 3/24 2014, prototype), including a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step hammer with a rod and piston parts with a central channel and a sleeve with a longitudinal channel-groove and an opening in the rod part of the step striker, dividing the cavity of the cylindrical body into an annular distribution chamber in the sleeve of the cylindrical body from the rod part of the step striker and the chamber of that stroke from the side of the working tool shank, an annular flange with holes for supplying air to the annular distribution chamber and a through axial channel for passing the rod with a shut-off valve, a fixing cup fixed relative to the cylindrical body, a network air chamber formed by a fixing cup with an air supply channel and an annular flange a rod fixed in a through axial channel of the annular flange with a shut-off valve constantly interacting with the longitudinal channel-groove in the hole in a core located in the central channel of the step striker, which periodically connects the annular distribution chamber and the idle chamber to each other, depending on the position of the step striker.

The prototype has a major drawback: in case of destruction of the processed material and at the same time a failure of the shank of the working tool along with the hammer, the latter will strike the hammer case, which in repeated situations can lead to its destruction.

The task of the invention: to eliminate impacts on the cylindrical body and prevent its destruction.

The technical solution of the pneumatic hammer is as follows: a pneumatic hammer mechanism, including a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step hammer with a rod and piston parts with a central channel and a sleeve with a longitudinal groove channel and an opening in the rod part of the hammer, dividing the cavity of the cylindrical body into an annular distribution chamber in the sleeve of the cylindrical body from the rod end of the step striker and the idle chamber stroke from the side of the working tool shank, an annular flange with holes for supplying air to the annular distribution chamber and a through axial channel for passing the rod with a shut-off valve, a fixing cup fixed relative to the cylindrical body, a network air chamber formed by a fixing cup with an air supply channel and an annular flange, a rod fixed in a through axial channel of the annular flange with a shut-off valve constantly interacting with the longitudinal channel-groove in the bore of the sleeve located in the central channel of the step striker, periodically connecting, depending on the position of the step striker, the annular distribution chamber and the idle chamber to each other, and on the outer side surface of the piston part of the step striker, an annular groove is made in the piston part of the step striker from the side of the central channel a radial channel is made with an exit to the annular groove on the outer lateral surface of the step striker and so that in the position of the step striker the annular undercut supported on the cylindrical body from the side of the working tool shank is in communication with the exhaust channel of the idling chamber and the atmosphere.

The execution of the pneumatic hammer is illustrated by drawings of a longitudinal section. In FIG. 1 shows the working position of a step striker. In FIG. 2 shows the location of a step striker when resting on a cylindrical body.

The pneumatic hammer contains a cylindrical body 1, a step striker 2 with a rod part 3 and a piston part 4, a sleeve 5, which is the restriction of the stroke of a step striker 2. The step striker 2 is provided with a central channel 6 with radial channels 7 and divides the cavity of the cylindrical body 1 into a distribution chamber 8 formed by a cylindrical body 1 and a sleeve 5, from the side of the rod part 3 of the step striker 2, an annular chamber 9 of the stroke formed by a cylindrical body 1, the rod part 3 and the piston part a 4-stage drummer 2, constantly in communication with a distribution chamber 8, a throttle bypass screw channel-groove 10, made in a rectangular cross-section on the inner side surface of the sleeve 5 of the cylindrical body 1, and an idle chamber 11 formed by a cylindrical body 1, a stage drummer 2 and a shank 12 of the working tool 13, which is held relative to the cylindrical body 1, for example, the end spring 14 from arbitrary loss. The Central channel 6 of the step striker 2 through the radial channels 7 is in constant communication with the camera 11 idle. The cylindrical housing 1 is provided with an end cup 15 opposite the liner 12 with an air supply channel 16 for supplying compressed air to the network air chamber 17, formed by a mounting cup 15 and an annular flange 18, in which air supply holes 19 are made continuously connecting the network air chamber 17 and distribution chamber 8 among themselves. In the annular flange 18, for example, a rod 21 is fixed with a bolt connection 20 with a shut-off valve 22, which constantly interacts with a sleeve 23 mounted in the central channel 6 of the rod part 3 of the step hammer 2. The sleeve 23 is provided with a longitudinal channel-groove 24 for periodic communication depending on the position of the step striker 2, the annular distribution chamber 8 and the idle chamber 11 by means of the central channel 6 and the radial channels 7 of the step striker 2. The cylindrical housing 1 is provided with exhaust channels 25 and 26, periodically communicating, depending on the position of the step striker 2, with an annular working chamber 9 and an idle chamber 11 with the atmosphere, in order to exhaust the exhaust air from them. The magnitude of the possible radial movements, excluding pinching the shut-off valve 22 of the rod 21 in the hole 27 of the sleeve 23 and the central channel 6 of the step hammer 2, must be not less than the possible radial movements of the rod part 3 of the step hammer 2 in the hole of the annular gap 28 formed between the rod part 3 of the step the striker 2 and the sleeve 5. On the outer side surface of the piston part 4 of the step striker 2 there is an annular groove 29 and in the piston part of the step striker from the side of the central channel Ala 9, a radial channel 30 is made with an exit to the annular recess 29 on the outer lateral surface of the step striker 2 and so that in the position of the step striker supported on the cylindrical body 1 from the side of the shank 12 of the working tool 13, the annular recess 29 communicates with the exhaust channel 26 of the camera 11 idle in the wall of the cylindrical housing 1 and the atmosphere.

Air hammer works as follows.

After turning on the starting device (not shown in the drawing and can be any known), air from the network enters through the air supply channel 16 in the mounting cup 15 into the network air chamber 17. Further, through the air supply openings 19 in the annular flange 18, air enters the annular distribution chamber 8. From the annular distribution chamber 8 through the longitudinal channel-groove 24 and the hole 27 of the sleeve 23 in the rod part 3 of the stage impactor 2, air enters the central channel 6 of the stage impactor 2 and its radial channels 7 to the idle chamber 11. At the same time, through the annular gap 28 and the throttle bypass channel-groove 10, air from the annular distribution chamber 8 enters the annular chamber 9 of the working stroke, connected to the atmosphere through the exhaust channel 25. At the beginning of the movement of the step striker 2, the filling of the idling chamber 11 continues, providing the calculated the value of the idle pulse. Under the action of an air pressure impulse from the side of the idle chamber 11, the step striker 2 continues to move towards the annular distribution chamber 8, idling. In the subsequent movement, the step striker 2 overlaps the exhaust channel 25 in the cylindrical housing 1, and the hole 27 and the longitudinal channel-groove 24 of the sleeve 23 of the rod portion 3 of the step striker 2 are blocked by the shut-off valve 22 of the rod 21 and the flow of air into the idle chamber 11 is stopped. After the piston part 4 of the step drummer 2 opens the exhaust channel 26, the air pressure in the idle chamber 11 is equalized to atmospheric. After disengaging it from the atmosphere in the annular chamber 9 of the working stroke, compression of the air cut off in it and the air coming from the annular distribution chamber 8 through the annular gap 28 and the throttle bypass channel-groove 10 to a certain calculated value will begin. The air pressure in the annular distribution chamber 8, the annular chamber 9 of the working stroke increases and under the influence of the difference of the pressure pulses acting on the step striker 2 from the side of the annular distribution chamber 8, the annular chamber 9 of the working stroke and the idle chamber 11, the step striker 2 brakes and stops at the calculated point. Immediately under the influence of an air pressure pulse from the side of the annular distribution chamber 8 and the annular chamber 9 of the working stroke, the step striker 2 begins to move towards the shank 12 of the working tool 13, making a working stroke. In this case, the step striker 2 will open the exhaust channel 25 and the annular chamber 9 of the working stroke is in communication with the atmosphere. Next, the step striker 2 will block the exhaust channel 26 with its lateral surface, open the hole 27 and the longitudinal channel-groove 24 of the sleeve 23 of the rod part 3 of the step striker 2, as a result of which compression of the air cut off in it and the air entering the longitudinal channel will begin in the idle chamber 11 the groove 24, the hole 27, the Central channel 6 and the radial channel 7 of the annular distribution chamber 8. After opening the exhaust channel 25, the pressure in the annular chamber 9 of the stroke will decrease to atmospheric. Since the working area of the piston part 4 of the step striker 2 from the side of the idle chamber 11 is larger than the end area of the rod part 3 of the step striker 2, then under the influence of the difference of pressure pulses, air, the step striker 2 from the side of these chambers overcomes the back pressure from the side of the idle chamber 11 stroke, strikes the shank 12 of the working tool 13.

In the case of destruction of the processed material and the failure of the shank 12 of the working tool 13, a step striker 2 strikes the cylindrical body 1. In this case, repeated strokes are excluded, since compressed air passes through the channel 6 into the radial channel 30 and into the annular recess 29, which communicates the idle chamber 11 passage through the exhaust channel 26 with the atmosphere, which will not allow to form a power impulse and the hammer 2 will stop (Fig. 2).

When restoring the position of the hammer 2 (Fig. 1), compressed air will flow through channel 6 and channels 7 into the idle chamber 11, which will ensure that it is filled with air, under the influence of which an idle pulse will be formed and the step hammer 2 will begin to move. Next, the working cycle of the pneumatic impact mechanism is repeated.

At the next impact of the hammer 2 with the shank 12 of the working tool and maintaining the position corresponding to FIG. 1, the drummer will begin to move under the influence of bounce pulses and air pressure from the side of the idle chamber 11.

The implementation of the radial channel 30 with access to the annular groove 29 and its communication with the exhaust channel 26 of the idle chamber 11 and the atmosphere causes air to be discharged from the channel 6 into the atmosphere, which ensures the hammer stops and prevents repeated strikes of the hammer 2 against the housing 1 in case of a shank 12 failure the working tool 13, thereby preventing the destruction of the housing 1.

Claims (1)

A pneumatic hammer containing a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step hammer, made with a rod and piston parts, with a central channel and a sleeve with a longitudinal channel-groove in its hole located in the central channel of its rod part, and separating the cavity of the cylindrical body to the annular distribution chamber formed by the cylindrical body and the sleeve from the rod part of the step striker, and the idle chamber formed by side of the working tool shank, an annular flange with holes for supplying air to the annular distribution chamber and a through axial channel for passing the rod with a shut-off valve, a fixing cup with an air supply channel fixed relative to the cylindrical body, a network air chamber formed by a fixing cup and an annular flange fixed in through axial channel of the annular flange, a rod with a shut-off valve, constantly interacting with the longitudinal channel-groove in the bore of the sleeve and the period connecting the annular distribution chamber and the idle chamber to each other, depending on the position of the step striker, characterized in that the idle chamber is made with an exhaust channel, an annular groove is made on the outer piston part of the step striker, in the piston part of the step striker on the side of the central channel with access to the undercut, a radial channel is made, periodically communicating with the exhaust channel of the idle chamber and the atmosphere.

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