RU91080U1 - SHOCK DEVICE (OPTIONS) - Google Patents

Abstract

1. The percussion device, comprising a housing with a nozzle and inlet and exhaust / exhaust openings, mounted in the housing with the ability to move the firing pin, forward and reverse cameras, a guiding element for the firing pin, a channel in the firing pin for communicating forward and reverse cameras, a shut-off valve moreover, an annular groove is made on the outer surface of the striker in its front part, the housing contains an anvil, on the inner surface of which there is a front annular protrusion and a backstop limiter rnika, and the shut-off valve is made in the form of an elastic ring installed in the specified annular groove of the striker with the possibility of interaction with the inner surface of the housing, and the limiter of the return stroke of the striker is made in the form of recesses, and the surface of the front annular protrusion is made spherical or conical, the elastic ring in cross section is made rectangular or round, the guiding element for the hammer is made in the form of an annular series of protrusions on the inner surface of the housing or on the outer surface of Arnica, characterized in that it has an additional forward-facing chamber, an additional shutoff valve, an additional annular groove, a rear annular protrusion made on the inner surface of the housing, wherein the additional forward-facing chamber is formed by the housing, the outer surface of the pipe and an additional shutoff valve made in in the form of an elastic ring installed in an additional annular groove in the rear of the striker with the possibility of interaction with the cylindrical surface of the body, and the exhaust

Description

The technical solution relates to mining and construction equipment and is intended for drilling holes in the soil, destroying rocks, driving core elements into the soil, tamping the soil, etc.

Known pneumatic percussion mechanism according to copyright certificate No. 395251, class. B25d 17/00, publ. in BI No. 35 for 1973, containing a cylinder with a differential piston-drummer and an axial spring loaded in the working direction. The piston drummer has a calibrated hole connecting the over- and sub-piston spaces, and the head of the working tip is made in the form of a valve that blocks the connection between the sub-piston space and the atmosphere.

A disadvantage of the known pneumatic impact mechanism is the slow and at varying speed opening of the valve for exhaust into the atmosphere of air from the piston space, which leads to a decrease in energy and frequency of impacts, as well as their instability. In addition, this mechanism is unreliable in operation, since the entire shock is transmitted through the valve, which can lead to its rapid wear and failure.

The closest analogue in technical essence and the totality of essential features is a percussion device according to the patent of the Russian Federation No. 2105881, class. E21C 3/24, E02F 5/18, publ. in BI No. 6 for 1998, containing a housing with inlet and exhaust openings, mounted in the housing with the ability to move the firing pin, forward and reverse cameras, a channel in the drummer for communicating the forward and reverse cameras, a shut-off valve. An annular groove is made on the outer surface of the striker, a front annular protrusion and a backstop are made on the inner surface of the housing, and the shut-off valve is made in the form of an elastic ring mounted in the annular groove of the striker with the possibility of interaction with the inner surface of the housing. The striker backstop is made in the form of recesses or through holes on the inner cylindrical surface of the body, and the surface of the front annular protrusion is made spherical or conical, the elastic ring in cross section is made rectangular or round. The device is equipped with a guiding element for the striker, made in the form of an annular row of protrusions on the inner surface of the housing or on the outer surface of the striker, while the housing is equipped with an anvil, and the annular protrusion and backstop are made on the inner surface of the anvil.

The disadvantage of this device is the small, compared to the transverse dimension of the machine, effective area of the striker on the side of the forward motion chamber, which reduces the energy of a single impact. Conclusion: the device does not work efficiently.

The technical problem of the proposed solution is to increase work efficiency by increasing the energy of a single impact of a percussion device by increasing the ratio of the effective area of the percussion unit from the forward camera to the cross-sectional area of the device.

The problem is solved as follows. A shock device is proposed, including a housing with a nozzle and inlet and exhaust / exhaust openings, mounted in the housing with the ability to move the firing pin, forward and reverse cameras, a guiding element for the firing pin, a channel in the firing pin for communicating forward and reverse cameras, a shut-off valve. An annular groove is made on the outer surface of the striker in its front part, the housing contains an anvil, on the inner surface of which there is a front annular protrusion and a striker backstop, and the shut-off valve is made in the form of an elastic ring mounted in the specified annular groove of the striker with the possibility of interaction with the inner housing surface. The striker backstop is made in the form of recesses, and the surface of the front annular protrusion is spherical or conical, the elastic ring is rectangular or round in cross section, the guiding element for the striker is made in the form of an annular row of protrusions on the inner surface of the body or on the outer surface of the striker. According to the technical solution, it has an additional forward chamber, an additional shutoff valve, an additional annular groove, a rear annular protrusion made on the inner surface of the housing, while the additional forward chamber is formed by the housing, the outer surface of the pipe and an additional shutoff valve made in the form of an elastic ring installed in an additional annular groove in the rear of the hammer with the possibility of interaction with the cylindrical surface of the housing, and the exhaust e / exhaust ports located at the rear side of the housing. An annular step or an annular row of depressions is made on the outer surface of the nozzle, and an annular row of depressions or an annular depression, respectively, is made on the inner surface of the impactor.

The specified set of features provides an increase in the effective area of the striker from the side of the additional forward-facing camera with a constant cross-sectional area of the device, which increases the energy of a single impact of the striker, and therefore increases the efficiency of the device.

In the second embodiment, a percussion device is proposed, comprising a housing with a nozzle and inlet and exhaust / exhaust openings installed in the housing with the ability to move the hammer, forward and reverse cameras, a guide element for the drummer, a channel in the drummer for communicating the forward and reverse cameras , stop valve. An annular groove is made on the outer surface of the striker in its front part, the housing contains an anvil, on the inner surface of which there is a front annular protrusion and a striker backstop, and the shut-off valve is made in the form of an elastic ring mounted in the specified annular groove of the striker with the possibility of interaction with the inner housing surface. The striker backstop is made in the form of recesses, and the surface of the front annular protrusion is made spherical or conical, the elastic ring in cross section is made rectangular or round. According to the technical solution, it has an additional exhaust / exhaust openings, an additional forward-facing chamber, an additional shut-off valve, an additional annular groove, a rear annular protrusion made on the inner surface of the housing. An additional forward-flow chamber is formed by the housing, the outer surface of the nozzle and an additional shut-off valve made in the form of an elastic ring installed in an additional annular groove in the rear of the striker with the possibility of interaction with the cylindrical surface of the housing; exhaust / exhaust holes are located in the rear side of the housing, additional exhaust / exhaust holes - in the front side of the housing. An annular step or an annular row of depressions is made on the outer surface of the nozzle, and an annular row of depressions or an annular depression, respectively, is made on the inner surface of the impactor. The guide element for the striker is made in the form of an annular protrusion on the outer surface of the striker or on the inner surface of the body.

The implementation of the guide element for the striker in the form of an annular protrusion on the outer surface of the striker or on the inner surface of the housing reduces the number of stress concentrators on the striker or in the housing and simplifies the manufacturing technology of the device by eliminating the operations of milling an annular row of protrusions on the outer surface of the striker or on the inner surface of the housing . This increases the reliability of the device and reduces the cost of its manufacture, while the efficiency of the device does not decrease compared with the device according to the first embodiment due to the rest of the set of features.

The essence of the technical solution is illustrated by a specific example and the drawings of figures 1, 2, where figure 1 shows a longitudinal section of a device with a shut-off valve of circular cross-section according to the first embodiment (to the left of the axis - the guide element for the hammer is made on the outer surface of the hammer, on the right - on the inner surface of the housing); figure 2 is a longitudinal section of a device with a shut-off valve with a square valve according to the second embodiment (to the left of the axis - the guide element for the hammer is made on the outer surface of the hammer, on the right - on the inner surface of the body).

The percussion device according to the first embodiment includes a housing 1 (Fig. 1), a hammer 2 mounted for displacement in the housing 1, a pipe 3, a forward chamber 4, an additional forward chamber 5, a reverse chamber 6, a shutoff valve 7, an additional shut-off valve 8. An additional forward-flow chamber 5 is formed by the housing 1, the outer surface of the nozzle 3 and the additional shut-off valve 8. The housing 1 includes an anvil 9 and a rear nut 10. In the housing 1, an inlet 11 is made through the nozzle 3, and exhaust / exhaust ports 12 at the rear. On the inner surface of the anvil 9 there are front 13 and rear 14 annular projections and a backstop (pos. Not indicated). The front annular protrusion 13 is located between the cylindrical inner surfaces 15 and 16 of the anvil 9, forming a reverse chamber 6, and the rear annular protrusion 14 is between the cylindrical surfaces 17 and 18 of the housing 1. In the hammer 2 there is a through channel 19 for communicating the forward chamber 4 with camera 6 reverse. On the outer surface of the hammer 2, an annular groove 20 is made in its front part, and an additional annular groove 21 is installed in its rear part, in which the shut-off valve 7 and the additional shut-off valve 8 are installed in the form of elastic rings having an outer 22 and an inner 23 surface. The shut-off valve 7 is installed with the possibility of interaction with the inner surface 15 of the anvil 9, and an additional shut-off valve 8 is with the possibility of interaction with the cylindrical surface 17 of the housing 1. The pipe 3 is installed with the possibility of interaction of its outer surface (pos. Not specified) with the inner surface (pos. (not indicated) of the striker 2. The outer surface of the pipe 3 has an annular step 24 or an annular row of depressions 24 (to the left of the axis), and the inner surface of the striker 2 has a corresponding annular row of depressions 25 or an annular cavity 25 (to the left of the axis), which form a channel for communicating the forward-facing camera 4 with an additional forward-facing camera 5 at the upper (according to the drawing) position of the hammer 2.

The shut-off valve 7 and the additional shut-off valve 8 can be made in the form of an elastic ring of circular cross-section (figure 1) or rectangular cross-section (figure 2).

The device has a guide element 26 (figure 1) for the hammer 2, made in the form of an annular row of protrusions on the inner surface of the housing 1 (to the right of the axis) or on the outer surface of the hammer 2 (to the left of the axis). The backstop is made in the form of recesses 27 on the cylindrical inner surface 16 of the anvil 9.

The surfaces of the front 13 and rear 14 annular protrusions are made spherical or conical.

The percussion device according to the second embodiment comprises a housing 1 (FIG. 2), a drummer 2 mounted for movement in the housing 1, a pipe 3, a forward chamber 4, an additional forward chamber 5, a reverse chamber 6, a shutoff valve 7, an additional shut-off valve 8. An additional forward-flow chamber 5 is formed by the housing 1, the outer surface of the nozzle 3 and the additional shut-off valve 8. The housing 1 includes an anvil 9 and a rear nut 10. In the housing 1, an inlet 11 is made through the nozzle 3, and exhaust / exhaust ports 12 at the rear. On the inner surface of the anvil 9 there are front 13 and rear 14 annular projections and a backstop (pos. Not indicated). The front annular protrusion 13 is located between the cylindrical inner surfaces 15 and 16 of the anvil 9, forming a reverse chamber 6, and the rear annular protrusion 14 is between the cylindrical surfaces 17 and 18 of the housing 1. In the hammer 2 there is a through channel 19 for communicating the forward chamber 4 with camera 6 reverse. On the outer surface of the hammer 2, an annular groove 20 is made in its front part, and an additional annular groove 21 is installed in its rear part, in which the shut-off valve 7 and the additional shut-off valve 8 are installed in the form of elastic rings having an outer 22 and an inner 23 surface. The shut-off valve 7 is installed with the possibility of interaction with the inner surface 15 of the anvil 9, and an additional shut-off valve 8 is with the possibility of interaction with the cylindrical surface 17 of the housing 1. The pipe 3 is installed with the possibility of interaction of its outer surface (pos. Not specified) with the inner surface (pos. not shown) of the hammer 2. The outer surface of the pipe 3 has an annular step 24 (to the right of the axis) or an annular row of depressions 24, and the inner surface of the hammer 2 has an annular row of depressions 2, respectively 5 (to the right of the axis) or an annular cavity 25, which form a channel for communication of the forward motion camera 4 with the additional forward motion camera 5 at the upper (according to the drawing) position of the hammer 2.

The shut-off valve 7 and the additional shut-off valve 8 (hereinafter, the valves 7, 8) can be made in the form of an elastic ring of circular cross-section (figure 1) or rectangular cross-section (figure 2).

The device has a guide element 26 (figure 2) for the hammer 2, made in the form of an annular row of protrusions on the inner surface of the housing 1 (to the right of the axis) or on the outer surface of the hammer 2 (to the left of the axis). The backstop limiter is made in the form of recesses 27 on the cylindrical inner surface 16 of the anvil 9. On the cylindrical inner surface of the housing 1 in its lower part there is an additional exhaust / exhaust holes 28 from the backward chamber 6.

The percussion device according to the first embodiment works as follows. Before turning on the device, the firing pin 2 (Fig. 1) is pressed against the anvil 9, and the shut-off valve 7 is in contact with the cylindrical surface 15. When the device is turned on, compressed air flows through the inlet 11, the forward-flow chamber 4 and the through channel 19 in the firing pin 2 the reverse chamber 6, and the pressure rises therein. Under the action of pressure, the elastic ring of the valve 7 is stretched and pressed by the outer surface 22 to the cylindrical surface 15. At the same time, the elastic ring of the valve 7 is pressed by pressure to the upper (according to the drawing) surface of the annular groove 20 of the hammer 2. Under the action of pressure in the reverse chamber 6 due to the difference in effective areas of the drummer 2 is moved to the upper (according to the drawing) position.

When the elastic ring of the valve 7 passes the recesses 27 on the cylindrical inner surface 16 of the anvil 9, compressed air is exhausted from the return chamber 6 through the recesses 27 and the additional exhaust / exhaust openings 12. At the same time, the elastic ring of the valve 8 comes into contact with the cylindrical surface 17 - there is a locking additional camera 5 forward motion.

Compressed air from the forward chamber 4 along the channel formed by the inner surface of the striker 2 and the outer surface of the pipe 3 enters the additional forward chamber 5. From the moment the valve 8 closes the additional forward-flow chamber 5, pressure rises in it. Under the action of pressure on the inner surface 23 of the elastic ring of the valve 8, it stretches and is pressed by the outer surface 22 to the inner surface 17 of the housing 1. At the same time, the elastic ring of the valve 8 is pressed against the lower (according to the drawing) surface of the additional groove 21. Under the action of pressure in the chamber 4 forward stroke and additional camera 5 forward stroke firing pin 2, not meeting resistance from the side of the reverse chamber 6, accelerates downward and strikes the anvil 9.

Before the impact, compressed air is exhausted from the additional forward-flow chamber 5 through the exhaust openings 12 when the elastic ring of the valve 8 exits onto the openings 12. At this moment, the pressure on the inner surface 23 of the elastic ring of the valve 8 decreases and the elastic ring of the valve 8 is compressed by elastic forces.

In the lowermost position of the hammer 2, the elastic ring of the valve 7 is in contact with the cylindrical surface 15, and the return chamber 6 is locked. Next, the cycle repeats.

The percussion device according to the second embodiment works as follows. Before turning on the device, the firing pin 2 (FIG. 2) is pressed against the anvil 9, and the shut-off valve 7 is in contact with the cylindrical surface 15. When the device is turned on, compressed air flows through the inlet 11, the forward-flow chamber 4 and the through channel 19 in the hammer 2 into the reverse chamber 6, and the pressure rises therein. Under the action of pressure, the elastic ring of the valve 7 is stretched and pressed by the outer surface 22 to the cylindrical surface 15. At the same time, the elastic ring of the valve 7 is pressed by pressure to the upper (according to the drawing) surface of the annular groove 20 of the hammer 2. Under the action of pressure in the reverse chamber 6 due to the difference in effective areas of the drummer 2 is moved to the upper (according to the drawing) position.

When the elastic ring of the valve 7 of the recesses 27 passes on the cylindrical inner surface 15 of the anvil 9, compressed air is exhausted from the return chamber 6 through the recesses 27 and the additional exhaust / exhaust openings 28. At the same time, the elastic ring of the valve 8 comes into contact with the cylindrical surface 17 - there is a locking additional camera 5 forward motion.

Compressed air from the forward chamber 4 along the channel formed by the inner surface of the striker 2 and the outer surface of the pipe 3 enters the additional forward chamber 5. From the moment the valve 8 closes the additional forward-flow chamber 5, pressure rises in it. Under the action of pressure on the inner surface 23 of the elastic ring of the valve 8, it stretches and is pressed by the outer surface 22 to the inner surface 17 of the housing 1. At the same time, the elastic ring of the valve 8 is pressed against the lower (according to the drawing) surface of the additional groove 21. Under the action of pressure in the chamber 4 forward stroke and additional camera 5 forward stroke firing pin 2, not meeting resistance from the side of the reverse chamber 6, accelerates downward and strikes the anvil 9.

Before the impact, compressed air is exhausted from the additional forward-flow chamber 5 through the exhaust openings 12 when the elastic ring of the valve 8 exits onto the openings 12. At this moment, the pressure on the inner surface 23 of the elastic ring of the valve 8 decreases and the elastic ring of the valve 8 is compressed by elastic forces.

In the lowermost position of the hammer 2, the elastic ring of the valve 7 is in contact with the cylindrical surface 15, and the return chamber 6 is locked. Next, the cycle repeats.

Claims (2)

1. The percussion device, comprising a housing with a nozzle and inlet and exhaust / exhaust openings, mounted in the housing with the ability to move the firing pin, forward and reverse cameras, a guiding element for the firing pin, a channel in the firing pin for communicating forward and reverse cameras, a shut-off valve moreover, an annular groove is made on the outer surface of the striker in its front part, the housing contains an anvil, on the inner surface of which there is a front annular protrusion and a backstop limiter rnika, and the shut-off valve is made in the form of an elastic ring installed in the specified annular groove of the striker with the possibility of interaction with the inner surface of the housing, and the limiter of the return stroke of the striker is made in the form of recesses, and the surface of the front annular protrusion is made spherical or conical, the elastic ring in cross section is made rectangular or round, the guiding element for the hammer is made in the form of an annular series of protrusions on the inner surface of the housing or on the outer surface of Arnica, characterized in that it has an additional forward-facing chamber, an additional shutoff valve, an additional annular groove, a rear annular protrusion made on the inner surface of the housing, wherein the additional forward-facing chamber is formed by the housing, the outer surface of the pipe and an additional shutoff valve made in in the form of an elastic ring installed in an additional annular groove in the rear of the striker with the possibility of interaction with the cylindrical surface of the body, and the exhaust / Exhaust ports located at the rear side of the housing, wherein the outer surface of the sleeve an annular notch or annular series of depressions and on the inner surface of the striker - respectively an annular series of annular depression or depressions. 2. Impact device, comprising a housing with a nozzle and inlet and exhaust / exhaust openings, mounted in the housing with the ability to move the firing pin, forward and reverse cameras, a guide element for the firing pin, a channel in the firing pin for communicating the forward and reverse cameras, a shut-off valve moreover, an annular groove is made on the outer surface of the striker in its front part, the housing contains an anvil, on the inner surface of which there is a front annular protrusion and a backstop limiter rnika, and the shutoff valve is made in the form of an elastic ring installed in the specified annular groove of the striker with the possibility of interaction with the inner surface of the housing, and the limiter of the return stroke of the striker is made in the form of recesses, and the surface of the front annular protrusion is made spherical or conical, the elastic ring in cross section is made rectangular or round, characterized in that it has an additional exhaust / exhaust openings, an additional forward-facing camera, an additional locking valve , an additional annular groove, a rear annular protrusion made on the inner surface of the housing, while the additional forward-facing chamber is formed by the housing, the outer surface of the nozzle and an additional shut-off valve made in the form of an elastic ring mounted in an additional annular groove in the rear of the striker with the possibility of interaction with a cylindrical surface of the body, exhaust / exhaust openings are located in the rear side of the body, additional exhaust / exhaust openings tia - in the front side of the housing, and on the outer surface of the nozzle an annular step or an annular row of troughs is made, and on the inner surface of the striker an annular row of troughs or an annular depression, respectively, while the guide element for the striker is made in the form of an annular protrusion on the outer surface of the striker or on the inside of the case.