RU2789977C1 - Pneumatic hammer - Google Patents

Abstract

FIELD: pneumatic impact machines.

SUBSTANCE: invention relates to pneumatic impact machines and can be used in construction, mining and mechanical engineering. The pneumatic hammer contains a cylindrical body, a working tool held relative to the cylindrical body, a handle with an air inlet device, a partition with an inlet throttle, an outlet channel and an axial hole in which a tube with a longitudinal outlet channel and a radial outlet channel extending into its side is installed and fixed. surfaces, an annular outlet chamber with an outlet formed by a partition, a cylindrical body and a handle body, an antechamber formed by a handle body and a partition and communicated through an air supply channel with a compressed air network, a striker with a through axial channel for passing the said tube, dividing the cavity of the cylindrical body into a working stroke chamber on the side of the partition, constantly communicated with the pre-chamber by means of an inlet throttle in the partition, and an idle chamber on the side of the working tool, periodically communicated by means of radial and longitudinal exhaust channels in the tube and the outlet channel in the partition with access to the annular outlet chamber and through the outlet hole in the handle body into the atmospheric chamber formed by the handle body and the air baffle ring, a recess in the cylindrical body from the side of the idle chamber, as well as a bypass screw channel-groove with permanently open outlets to the idle chamber and the working stroke chamber. In this case, the bypass screw channel-groove is made on the side surface of the inner cavity of the channel of the cylindrical body in the form of a drainage screw channel-groove with a cross-section in the shape of a circular arc with constant communication between the working stroke chamber and the idle chamber.

EFFECT: reduction in air consumption from the network, increase in impact energy transmitted to the working tool, as well as increase in the resource of the pneumatic hammer.

1 cl, 1 dwg

Description

The invention relates to the field of construction, in particular to impact pneumatic machines, and can be used in the destruction of hard materials, and can also be used in mining and mechanical engineering.

A pneumatic hammer is known (RF patent No. 2583575, 2016 B25D 9/04, B25D 9/26), containing a cylindrical body, a working tool held relative to the cylindrical body, a handle with an inlet device, a partition with an inlet throttle channel and an axial hole, in in which a tube with a longitudinal outlet channel is installed and fixed; a radial outlet channel extending in its side surface; an annular outlet chamber with an outlet formed by a baffle, a cylindrical body and a handle body; an antechamber formed by the body of the handle and a partition, communicated through an air outlet channel, with a network of compressed air; a striker with a through axial channel for passing said tube separating the cavity of the cylindrical body into the working stroke chamber from the baffle side, constantly communicating with the flow chamber by means of an inlet throttle in the baffle; an idle chamber on the side of the working tool, periodically communicated by means of radial and longitudinal outlet channels in the tube; an exhaust channel made in the partition with access to the annular outlet chamber and, through the outlet in the handle body, to the atmospheric chamber formed by the handle body and the air baffle ring in the cylindrical body; recess in the housing from the side of the idle chamber; a bypass channel on the side surface of the striker in the form of an inclined groove at an angle to the generatrix of the striker with a permanently open outlet at the end of the striker from the side of the working stroke chamber.

The disadvantage of the described design is: the presence of a significant counterpressure of air from the side of the working stroke chamber at the end of the idle stroke due to air compression by a moving drummer, which is enhanced by the constant intake of network air from the prechamber through a throttle channel in the partition, as a result of which the drummer starts braking prematurely and does not reach estimated stroke value; significant counterpressure of air in the idle chamber at the end of the working stroke before the striker collides with the tool shank due to the compression of the air cut off in the chamber and the air entering through the bypass channel made on the side surface of the striker, when its radial channel exits into the annular groove of the idle chamber with by a sharp bypass into its volume of air from the chamber of the working stroke, as a result of which the hammer is braked with a loss of impact speed, and, consequently, a loss of the shock impulse transmitted to the tool shank.

The closest, in terms of technical essence, to the claimed device (chosen as a prototype) is a pneumatic hammer (RF patent No. frame; a working tool held relative to the cylindrical body; handle with air inlet device; a partition with an inlet throttle, an outlet channel and an axial hole in which a tube with a longitudinal outlet channel and a radial outlet channel extending on its side surface is installed and fixed; an annular outlet chamber with an outlet formed by a baffle, a cylindrical body and a handle body; an antechamber formed by the body of the handle and a partition, communicated through an air outlet channel with a network of compressed air; a drummer with a through axial channel for passing said tube, separating the cavity of the cylindrical body into the working stroke chamber from the baffle side, constantly communicated with the pre-chamber by means of an inlet throttle in the baffle; an idle chamber on the side of the working tool, periodically communicating through radial and longitudinal outlet channels in the tube, as well as an outlet channel in the partition with access to the annular outlet chamber and, through the outlet hole in the handle body, to the atmospheric chamber formed by the handle body and the air baffle ring in a cylindrical body; a groove is made on the side of the idle chamber, and on the side surface of the drummer a bypass channel is made in the form of a screw groove with permanently open exits to the idle chamber and the striker working stroke chamber with constant communication of both chambers with each other in such a way that the open exit of the through screw groove is made with decreasing cross-sectional area towards the idle chamber.

The disadvantage of the prototype are: the presence of a significant number of areas of stress concentration in all turns of the helical channel-groove, which reduces the strength of the impactor in collisions with the shank of the working tool; the decrease in the strength of the striker is predetermined by the decrease in the diametrical cross-sectional area due to the placement of the channel-groove on its side surface.

The objective of the claimed invention is to relieve the load from the concentration of stresses, increase the strength properties of the impactor by eliminating screw channels-grooves from the side surface of the impactor, maintaining the drainage properties of the bypass channel, which acts as a drainage channel between the working and idle chambers.

The problem is solved by the fact that in a pneumatic hammer containing a cylindrical body, a working tool held relative to the cylindrical body, a handle with an air inlet device, a partition with an inlet throttle, an outlet channel and an axial hole in which a tube with a longitudinal outlet channel is installed and fixed and a radial outlet channel extending into its side surface, an annular outlet chamber with an outlet formed by a partition, a cylindrical body and a handle body, an antechamber formed by the handle body and a partition and communicated through an air supply channel with a compressed air network, a striker with a through axial channel for passing of the aforementioned tube dividing the cavity of the cylindrical body into the working stroke chamber from the baffle side, constantly communicated with the prechamber by means of the inlet throttle in the baffle, and the idle chamber from the side of the working tool, periodically communicated after means of radial and longitudinal outlet channels in the tube and the outlet channel in the partition with access to the annular outlet chamber and through the outlet hole in the handle body to the atmospheric chamber formed by the handle body and the air baffle ring, a recess in the cylindrical body from the side of the idle chamber, bypass screw channel - a groove with permanently open outlets to the idle chamber and the working stroke chamber, according to the invention, the bypass screw channel-groove is made on the side surface of the inner cavity of the channel of the cylindrical body in the form of a drainage screw channel-groove with a cross section in the form of a circular arc with a constant message to the chamber working stroke and idle chamber between themselves.

The drawing (Fig. 1) shows a longitudinal section of a pneumatic hammer with a drainage screw channel-groove with a cross section in the form of an arc of a circle in cross section with permanently open outlets to the working stroke chamber and a recess from the side of the idle chamber.

The pneumatic hammer contains a cylindrical body 1 with a recess 2, a working tool 3 held by a spring 4 relative to the body 1, a partition 5 with an inlet throttle 6 and an outlet channel 7, a tube 8 with a longitudinal outlet channel 9 and a side outlet channel 10, a radial outlet channel 11 on the side surface of the tube 8, the drummer 12, the idle chamber 13 with a recess 2 from the side of the shank 3, the working tool, the chamber 14 of the working stroke from the side of the partition 5, the drainage screw channel-groove 15 with a cross section in the shape of an arc of a circle and so that in any position of the drummer 12, the idle chamber 13 and the working stroke chamber 14 communicate with each other. The drummer 12 is provided with an axial through channel 16 for passing the tube 8. The handle 17, by means of a threaded connection on its body 18 and the cylindrical body 1, tightly presses the partition 5 against the end of the cylindrical body 1 from the side of the chamber 14 of the working stroke. The body 18 of the handle 17 contains the outlet channel 19, the inlet channel 20 and the pre-chamber 21 of the network air.

Between the body 18 of the handle 17 and the cylindrical body 1, an annular outlet chamber 22 is formed, which, through the outlet channel 19 in the body 18, communicates with the atmospheric chamber 23, formed by the body 18 and the air baffle ring 24 installed detachably with it.

The body 18 of the handle 17 is fixed relative to the cylindrical body 1 by the latch 25, held relative to the cylindrical body 1 and the body 18 of the handle 17, by the annular casing 26.

Pneumatic hammer works as follows.

After turning on the mains air supply device (not shown in the drawing, the connection is made in accordance with known design solutions), the air enters through the outlet channel 19 of the handle 17 into the pre-chamber 21 of the mains air, from where through the inlet throttle 6 in the partition 5 into the chamber 14 of the working stroke in a cylindrical building 1.

In the position of the pneumatic hammer shown in figure 1, the air from the chamber 14 of the working stroke through the drainage screw channel-groove 15 with a cross section in the form of an arc of a circle and further along the side surface of the drummer 12 enters the chamber 13 of the idle stroke, formed by a groove 2 in cylindrical body 1. When the idle chamber 13 and the working stroke chamber 14 communicate with each other, the functions of the chambers change: the working stroke chamber 14 acquires the functions of a chamber with partial air displacement, the idle chamber 13 acquires the functions of a pressurization flow chamber.

As a result of the above, in the chamber 14 of the working stroke, the air pressure rises slowly, and the air pressure in the chamber 13 of the idle stroke will be maintained higher due to its leakage from the chamber 14. Under the action of air pressure on the end face of the drummer 12 from the side of the idle chamber 13, the drummer moves towards the chamber 14 of the working stroke with high air pressure, idling.

In the idle chamber 13, the expansion process continues with a large amount of air, and in the working stroke chamber 14, the process of compressing the air remaining in it and the air that continues to flow through the inlet throttle 6 of the partition 5 from the prechamber 21 continues.

Continuing to move, the striker 12 with its end from the side of the idle chamber 13 will open the radial outlet channel 11 on the side surface of the tube 8, and through the longitudinal outlet channel 9 in the tube 8, as well as the side outlet channel 10 and the outlet channel 7 in the partition 5, the outlet annular chamber 22, the exhaust channel 19 in the body 18 of the handle 17 and the atmospheric chamber 23 formed by the body 18 and the air baffle ring 24, the air from the idle chamber 13 will be released into the atmosphere and the air pressure in the idle chamber 13 is equalized to atmospheric pressure.

Continuing to move, the drummer 12 under the action of inertia overcomes the air resistance from the side of the chamber 14 of the working stroke, slows down and stops in the calculated position.

After stopping, the drummer 12, under the action of air pressure from the side of the chamber 14 of the working stroke, begins an accelerated movement towards the chamber 13 of the idle stroke, making a working stroke.

With an increasing volume of the chamber 14 of the working stroke with the simultaneous flow of air into the chamber 14 of the working stroke through the inlet throttle 6 of the partition 5 from the pre-chamber 21 of the network air, the air in the chamber 14 of the working stroke will expand rapidly.

Continuing to move, the drummer 12 will block the radial outlet channel 11 in the tube 8, after which the idle chamber 13 will be separated from the atmosphere and the process of compressing the air cut off in it and the air flowing from the working stroke chamber 14 through the drainage screw channel-groove will be carried out in it. 15 and further along the side surface of the drummer 12.

As a result of such air distribution in the idle chamber 13, the process of compressing the cut-off air and the air coming from the working stroke chamber 14 will continue with less air counterpressure from the side of the idle chamber 13.

With the subsequent movement of the drummer 12, the air pressure due to the volume of air of the recess 2 from the side of the chamber 13 of the idle stroke will not significantly affect the growth of the counterpressure and premature braking of the drummer 12, but will significantly increase the air pressure pulse from the side of the chamber 13 of the idle stroke at the beginning of the idle stroke of the drummer 12 and will provide due to its greater speed when colliding with the working tool 3 the corresponding values of the energy parameters of the working process. After the collision, the working process of the pneumatic hammer will be repeated and the next idling of the striker 12 is carried out by adding an air pressure pulse from the idle chamber 13 and a rebound pulse of the striker 12 from the working tool.

The use of the claimed invention allows for constant air drainage between the working and idle chambers with a lower air counterpressure value, due to which, at the end of the stroke of the striker, partial displacement of air from the idle chamber during the pre-impact period is ensured, which makes it possible to increase the speed of the striker upon impact with the working tool and to increase the impact energy while reducing the air flow from the network by bypassing it into the working stroke chamber. When the striker is idling, the displacement of air from the working stroke chamber causes a decrease in air counterpressure from its side and prevents premature braking of the striker, which ensures the guaranteed value of the design stroke of the striker. Thus, the proposed technical solution for the working process of a pneumatic hammer with the use of a drainage screw channel-slot with a cross-section in the shape of an arc of a circle on the side surface of the inner cavity of the channel of a cylindrical body with constant communication between the working stroke chamber and the idle chamber between themselves allows to reduce the air consumption consumed from the network and increase the impact energy transmitted to the working tool, increase the efficiency of the pneumatic hammer, and also, by eliminating channels on the side surface of the striker, increase its strength and the resource of the pneumatic hammer.

Additional positive properties of the proposed technical solution lie in the properties of the constructive solution of the drainage screw channel-groove: cooling by air flow in the channel-groove of the side surface of the striker and the cylindrical body, reducing the contact surfaces between them.

The noted positive properties are enhanced by reducing the pitch between the turns of the channel-groove, i.e. by increasing the number of entries of the screw channels-grooves while maintaining the value of the calculated passage total area of the drainage channels-grooves.

Claims (1)

Pneumatic hammer containing a cylindrical body, a working tool held relative to the cylindrical body, a handle with an air inlet device, a baffle with an inlet throttle, an outlet channel and an axial hole in which a tube with a longitudinal outlet channel and a radial outlet channel extending into it is installed and fixed. side surface, an annular outlet chamber with an outlet formed by a partition, a cylindrical body and a handle body, an antechamber formed by a handle body and a partition and communicated through an air supply channel with a compressed air network, a striker with a through axial channel for passing the said tube, separating the cavity of the cylindrical body to the working stroke chamber on the side of the partition, constantly communicated with the pre-chamber by means of an inlet throttle in the partition, and the idle chamber on the side of the working tool, periodically communicated by means of a radial and longitudinal outlet channels in the tube and the outlet channel in the partition with access to the annular outlet chamber and through the outlet hole in the handle body into the atmospheric chamber formed by the handle body and the air baffle ring; open outlets to the idle chamber and the working stroke chamber, characterized in that the bypass screw channel-groove is made on the side surface of the inner cavity of the channel of the cylindrical body in the form of a drainage screw channel-groove with a cross-section in the form of an arc of a circle with constant communication with the working stroke chamber and idle chambers.

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