RU2591709C1 - Pneumatic impact mechanism - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and mining industry, in particular to pneumatic devices of impact action. Device includes cylindrical housing with bushing and outlet channels, working tool with shank, stepped striker with rod and main parts, with central channel and hole in rod part of stepped striker, dividing cavity of cylindrical housing to circular distribution chamber within bushing of cylindrical housing at side of rod part of stepped hammer, and chamber of idle stroke at side of working tool shank, annular flange with holes to feed air into circular distributing chamber and through axial channel for passage of rod with shutoff valve, fastening shell fixed relative to cylindrical case, supply air chamber formed by fastening shell with air feed channel and annular flange. Inner surface of cylindrical housing bushing is equipped with throttling bypass screw slot channel, without output to end of cylindrical housing bushing at side of annular chamber of working stroke. On rod part of stepped striker at side of annular chamber of working stroke, bypass channel is made without output to end of rod part of stepped striker. Throttling bypass screw slot channel of cylindrical housing bushing, and bypass channel are separated between each other, when annular chamber of working stroke is open to atmosphere via outlet channel.

EFFECT: higher energy of single impact and avoiding air wastage in annular chamber of working stroke.

1 cl, 1 dwg

Description

Pneumatic impact mechanism refers to the mechanisms used in construction and mining in impact machines for various purposes.

Known pneumatic percussion mechanism (AS USSR No. 275931, M. class. E21C 3/24, 1970), including a stepped cylinder, a control rod fixed in the flange relative to the cylinder, a drummer with a Central channel periodically interacting with the rod and dividing the stepped cylinder into chambers: network air formed by a cover, a replaceable sleeve and a flange, an intermediate annular working stroke and idle from the side of the working shank, exhaust ducts in the cylinder wall for the constant exhaust of exhaust air from annular chamber of atmospheric pressure and periodic release of network air from the chamber.

The pneumatic percussion mechanism has a drawback: the chamber formed in the interaction area of the cylinder drum and the sleeve is constantly in communication with the atmosphere, which excludes its participation in the formation of a power pulse and, as a result, a decrease in the impact energy, as well as the rod in the flange is rigidly fixed relative to the cylinder and periodically interacts with the mouth of the central channel of the striker, as a result of which the rod part of the striker breaks when the rod oscillates and is misaligned relative to the channel, and the rod acquires residual bending deformations causing it to break and stop the shock mechanism.

Also known is a pneumatic impact mechanism (RF patent No. 2477778, M. CL EV21 1/38, 2012), including a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step hammer with a rod and main parts with a central channel and a sleeve with a throttle bypass screw channel-groove and a hole 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 to a measure of idling 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 a flange fixed in a through axial channel of the annular flange, a rod with a shut-off valve constantly interacting with the longitudinal channel-groove in the aperture of the sleeve located in the central channel of the step striker connecting periodically, depending on the position of the step striker, the annular distribution chamber and the idle chamber to each other.

The disadvantage of this pneumatic mechanism is the constantly open throttle bypass screw channel-groove, which leads to increased air flow, and as a result to a decrease in the energy of a single blow and the efficiency of the mechanism.

Known pneumatic percussion mechanism (RF patent No. 2504635, M. CL EV21 1/30, 2014), related to shock machines for various purposes including a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step drummer with a rod and main parts with a central channel and a sleeve with a longitudinal channel-groove and a hole in the rod part of a step striker, dividing the cavity of the cylindrical body into an annular distribution chamber in the sleeve of the cylindrical body from the rods part of a step striker and an idle chamber on 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 to a through axial channel of the annular flange with a shut-off valve is constantly interacting connecting with a longitudinal channel-groove in the bore of the sleeve located in the central channel of the step striker, periodically connecting the annular distribution chamber and the idle chamber to each other depending on the position of the step striker.

The disadvantage of this pneumatic mechanism is the constantly open channel-groove, which leads to increased air flow and, as a result, to a decrease in the energy of a single impact.

Known pneumatic percussion mechanism (RF patent No. 2432442, M. CL EV 21/4, 2006 - prototype), related to construction and mining, in particular to pneumatic percussion devices, including a cylindrical body with exhaust channels, an annular flange with a through center hole, a working tool with a shank, a step striker with a rod part, a rod with a piston part permanently located in the through axial hole of a step blow installed in the center hole of the annular flange nickname, the annular chamber of the pneumatic buffer, the sleeve of the cylindrical body with an opening for the passage of the rod part and the ring isthmus forming on the side of the annular chamber of the pneumatic buffer of the ring isthmus, limiting the magnitude of the movement of the step striker, a glass with an air supply channel fixed to the cylindrical body, the annular distribution chamber in the sleeve of the cylindrical body , network air chamber from the side of the annular flange, idle chamber from the side of the shank of the working tool a held by a spring relative to the cylindrical body.

Pneumatic impact mechanism, as containing the largest number of essential features included in the proposed technical solution, adopted as a prototype.

The disadvantage of the prototype is the presence of an annular chamber of a pneumatic buffer that is not involved in the formation of a power pulse, which leads to an increase in air consumption and, as a result, a decrease in the efficiency of the mechanism.

The objective of the invention is to shut off the air supply to the annular chamber at the time of its communication with the atmosphere, which increases the total power impulse of the air pressure of the annular and distribution chambers during the stroke and eliminates the unproductive consumption of the annular chamber of the stroke and increases the kinetic energy of a single impact.

The technical solution of the pneumatic percussion mechanism is as follows: pneumatic percussion mechanism, comprising a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step striker with a rod and main parts with a central channel and an opening in the rod part of a step striker, 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 an idle annular chamber x yes, 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 a rod with a piston part and a groove channel formed on its side surface, a fixing cup fixed relative to the cylindrical body, a network air chamber formed a fixing cup with an air supply channel and an annular flange, according to the invention, the inner surface of the sleeve of the cylindrical body is equipped with a throttle bypass with a helical channel-groove without going out onto the end face of the sleeve of the cylindrical body from the side of the annular working chamber, and on the rod part of the step drum from the side of the annular working chamber, a bypass channel is made without going to the end of the rod part of the step striker and so that the throttle bypass screw the channel-groove of the sleeve of the cylindrical body and the bypass channel when communicating the annular chamber of the stroke through the exhaust channel with the atmosphere are disconnected from each other.

The execution of the pneumatic impact mechanism is illustrated by a drawing of a longitudinal section.

The pneumatic percussion mechanism comprises a cylindrical body 1, a step striker 2 with a rod part 3 and a main part 4, a sleeve 5, which is a 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 working chamber 9 formed by a cylindrical body 1, the rod part 3 and the obvious part 4 of the step striker 2, communicated, depending on the position of the step striker 2, with the distribution chamber 8 through the bypass channel 24, made in the form of either a groove, or flats, or a recess on the rod part 3 and a throttle bypass helical channel-groove 10, on the inner side surface of the sleeve 5 of the cylindrical body 1 and the idle chamber 11 formed by the cylindrical body 1, the step hammer 2 and the shank 12 of the working tool 13, which is held relative to the cylindrical body 1, for example p, 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, a rod 21 is installed in the hole 20 with a piston part 22 and a channel-groove 23 made on its lateral surface, constantly interacting with the rod part 3 of a step striker 2, including a bypass channel 24, made in the form of either a groove or a flat, or recesses and bead 25. The bypass channel 24, made in the form of either a groove, or flats, or undercut, depending on the position of the step striker 2, when interacting with the throttle bypass screw channel-groove 10 on the inner side surface of the sleeve 5 -cylindrical body 1 according annular distribution chamber 8 and the annular working stroke chamber 9 with each other. The cylindrical housing 1 is equipped with exhaust channels 26 and 27, periodically communicating, depending on the position of the step striker 2, the annular chamber 9 of the stroke and the idle chamber 11 with the atmosphere in order to exhaust the exhaust air from them. The magnitude of the possible radial movements, excluding pinching of the piston part 22 of the rod 21 in the through axial hole 6, is made greater than the possible radial movements of the rod part 3 of the step hammer 2 in the hole formed between the rod part 3 of the step hammer 2 and the sleeve 5.

Pneumatic impact mechanism operates 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. Then, through the air supply openings 19 in the annular flange 18, air enters the annular distribution chamber 8. From the annular distribution chamber 8, the air enters the channel-groove 23 made on the piston part 22 of the rod 21 and the wall of the through axial hole 6 of the rod part 3 of the stage drummer 2 through radial channels 7 to the idle chamber 11. At the beginning of the movement of the step striker 2, the filling of the idle chamber 11 with air continues, providing the estimated 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. With the subsequent movement, the step striker 2 closes the exhaust channel 26 in the cylindrical body 1 and the compression process of the air cut off in it begins in the annular chamber 9 of the working stroke. Further, the flange 25 of the rod part 3 of the step striker 2 opens, by means of a throttle bypass screw channel-groove 10 and a bypass channel 24, made in the form of either a groove, or flat, or undercut, the supply of compressed air to the annular chamber 9 of the working stroke. At the same time, the piston part 22 of the rod 21, the flow of air through the channel-groove 23 into the idle chamber 11 is stopped. After the main part 4 of the step drummer 2 opens the exhaust channel 27, the air pressure in the idle chamber 11 is equalized to atmospheric. In the annular chamber 9 of the working stroke, after separation from the atmosphere, compression of the air cut off in it and the air coming from the annular distribution chamber 8 through the bypass channel 24, made in the form of either a groove, flat, or undercut, 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 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 is braked and stopped 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 throttle bypass screw channel-groove 10 is disconnected from the bypass channel 24, made in the form of either a groove, or flat, or undercut. Step drummer 2 will open the exhaust channel 26 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 27 with its lateral surface, open the groove channel 23 made on the piston part 22 of the rod 21, as a result of which the compression of the air and the air cut off in it starts flowing through the central channel 6 and the radial channel 7 from the annular distribution chamber 8. After opening the exhaust channel 26, the pressure in the annular chamber 9 of the stroke will decrease to atmospheric.

Since the working area of the main 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 action of the difference of the air pressure pulses from the side of these chambers, the step striker 2, overcoming the backpressure from the side of the idle chamber 11, strikes the shank 12 of the working tool 13. Under the influence of pulses of rebound and air pressure from the side of the idle chamber 11, the step striker 2 starts idle. Next, the working cycle of the pneumatic impact mechanism is repeated.

Claims (1)

Pneumatic impact mechanism, including a cylindrical body with a sleeve and exhaust channels, a working tool with a shank, a step striker with a rod and main parts with a central channel and a hole in the rod part of a step striker, dividing the cavity of the cylindrical body into an annular distribution chamber in the sleeve of the cylindrical body from the side the rod part of the step striker and the idle chamber from the side of the working tool shank, an annular flange with air supply openings ha in the annular distribution chamber and the through axial channel for passing the rod with the shutoff valve, the mounting cup fixed relative to the cylindrical body, the network air chamber formed by the mounting cup with an air supply channel and an annular flange, characterized in that the inner surface of the sleeve of the cylindrical body is equipped with a throttle bypass a helical channel-groove without exiting it to the end of the sleeve of the cylindrical body from the side of the annular chamber of the stroke, and on the rod part atogo striker side annular chamber of the working stroke is executed without the exit passageway to the stepped end portion of the striker rod, wherein helical throttle bypass passage and groove of the sleeve and the cylindrical body passageway at message stroke the annular chamber through the exhaust passage to the atmosphere between a disconnected.

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