RU4997U1 - DEVICE FOR DELIVERY OF IRRIGATING LIQUID TO THE MILLING MACHINE CUTTER - Google Patents

Abstract

1. A device for supplying irrigation fluid to the cutter of a mining machine, including a tool holder with a longitudinal channel mounted on the body of the executive body, mounted in the tool holder with the possibility of rotation and limited axial movement, a cutter with a cylindrical holder, a channel for supplying the irrigation liquid in the body of the executive body, which through the working chamber is communicated with a channel for supplying irrigation fluid to the bottom, a sealing element connected to the tool holder, which is placed in the working the chamber, and a locking device for fixing the cutter in the tool holder, characterized in that it has a check valve with a shut-off element, and the channel for supplying irrigation fluid is made with a bore located at its outlet to accommodate the check valve body, while the sealing element is installed with the possibility of interaction with shut-off valve of the non-return valve. 2. The device according to claim 1, characterized in that the working chamber is formed by the walls of the bore, made in the longitudinal channel of the tool holder, and the outer surface of the housing of the actuator. The device according to claim 1, characterized in that the channel for supplying irrigation fluid to the face has an annular shape. The device according to claims 2 and 3, characterized in that the channel for supplying irrigation fluid to the bottom is formed by the coaxially located surface of the longitudinal channel in the tool holder and the outer surface of the holder. The device according to claim 3, characterized in that the tool holder is made with a sleeve, which is placed in its longitudinal channel, while the channel for supplying irrigation fluid to the bottom is formed by a coax

Description

Device for supplying irrigation fluid to a cutter of a mining machine The invention relates to the mining industry, in particular to devices for supplying irrigating fluid to a cutter of a mining machine, and can be used in the construction of an executive body of a mining or tunneling mining machine equipped mainly with tangential cutters destruction of mineral and artificial materials. A device is known for supplying irrigation fluid to a cutter of a mining machine, which comprises a tool holder with a longitudinal channel mounted on the body of the actuator, mounted in the longitudinal channel of the tool holder with the possibility of rotation around its longitudinal axis of symmetry and limited axial movement of the cutter, a channel for supplying irrigation fluid, which is in communication with the channel for supplying irrigation fluid to the bottom, and a shut-off valve, the shut-off element of which is kinematically It is connected with the cutter by means of a connecting element and is installed with the possibility of opening a channel for supplying irrigating fluid when the cutter is offset (see, for example, USSR patent .Nb 1371502, class E21 C 25/38, publ. 1988). The disadvantages of the known device include the complexity of its design, which negatively affects the operational reliability of the executive body of the mining machine as a whole. In addition, in the event of loss of the cutter or breakage (separation) of the tool holder and / or cutter, the coolant flows unhindered to the bottom through the channel for supplying irrigation fluid, made in the body of the executive body. This circumstance leads to an increase in the flow rate of the coolant and, consequently, excessive flooding of the bottom of the formed mine. The closest in technical essence and the achieved technical result is a device for supplying irrigation fluid to the cutter of a mining machine, which contains a tool holder with a longitudinal channel mounted on the body of the executive body, mounted in the tool holder with the possibility of rotation and limited axial movement of the cutter with a cylindrical holder made in the housing the executive body a channel for supplying irrigation fluid, which through the working chamber is in communication with the channel for supplying irrigating fluid on the bottom, a sealing element connected to the holder, which is located in the working chamber, and a locking device for fixing the cutter in the tool holder (see, for example, USSR author's certificate No. 1686156, class E21 C 25/38, publ. 1991). MPKE21S35 / 22

In fact, more reliably in operation. However, during the operation of the executive body of a mining machine, a situation is possible in which one or more toolholders, under the influence of external influences, break away from the body of the executive body. Moreover, the separation of one tool holder does not have a significant impact on the destruction process and the work can be continued. But when the tool holder is torn off, the irrigated liquid flows out to the bottom, since the design of the described device does not prevent leakage of irrigation liquid when the tool holder is torn from the body of the executive body.

The utility model is aimed at solving the problem of creating such a device for supplying irrigation fluid to the cutter of a mining machine, which would ensure the prevention of the supply of irrigation fluid to the bottom of the formed mine when the cutter or tool holder breaks. The technical result that can be obtained by implementing the claimed utility model is to reduce leakage of irrigation fluid in case of failure of the cutter and / or tool holder.

The problem is solved due to the fact that the device for supplying irrigation fluid to the cutter of the mining machine, which contains a tool holder with a longitudinal channel mounted on the body of the actuator, is installed in the tool holder with the possibility of rotation and limited axial movement of the cutter with a cylindrical holder made in the body of the actuator a channel for supplying irrigation fluid, which is connected through a working chamber with a channel for supplying irrigation fluid to the bottom, connected to the tool holder the shuttering element, which is located in the working chamber, and the locking device for fixing the cutter in the tool holder, has a check valve with a shut-off element, and the channel for supplying irrigation fluid is made with a bore located at its outlet to accommodate the check valve body, and the sealing element is installed with the possibility of interaction with the shutoff valve of the check valve.

In addition, the task is solved due to the fact that the working chamber is formed by the walls of the bore, made in the longitudinal channel of the tool holder, and the outer surface of the body of the executive body. With this embodiment, the device has the simplest and most technological design, which increases its operational reliability.

In addition, the task is solved due to the fact that the channel for supplying irrigation fluid to the face has an annular shape. With this form of said channel, the dust suppression process is improved.

In addition, the task is solved due to the fact that the channel for supplying irrigation fluid to the bottom is formed by the coaxially located surface of the longitudinal channel in the tool holder and the outer surface of the holder. With this embodiment, the design of the device facilitates the rotation of the holder in the channel of the tool holder, since the flow of irrigation fluid prevents the penetration of the destruction products into the gap between the tool and the tool holder.

In addition, the task is solved due to the fact that the tool holder is made with a sleeve, which is placed in its longitudinal channel, while the channel for supplying irrigation fluid to the bottom is formed by the coaxially located inner surface of the sleeve and the outer surface of the holder. The presence of this sleeve allows you to increase the operational reliability of the device by preventing wear of the walls of the longitudinal channel in the tool holder and in case of wear of the mounting hole for the tool holder to restore size, it is necessary to replace only the sleeve, and not the entire tool holder ..

In addition, the task is solved due to the fact that the sleeve is fixed in the longitudinal channel of the tool holder by means of a clamp. With this embodiment, the design of the device simplifies the replacement, if necessary, of a worn sleeve.

In addition, the task is solved due to the fact that the sleeve is made with a persistent protrusion, which is installed with the possibility of interaction with the front end surface of the tool holder. The presence of a persistent protrusion on the sleeve allows to increase the accuracy of its orientation relative to the tool holder, as well as to reduce the likelihood of filling the gap between the sleeve and the tool holder body.

In addition, the task is solved due to the fact that the sleeve is made with annular grooves located on its outer side surface to accommodate respectively the retainer and the sealing element. With this embodiment, the design of the device reduces the likelihood of leakage of irrigation fluid along the mating surfaces of the sleeve and tool holder.

In addition, the task is solved due to the fact that the working chamber is formed by the walls of the longitudinal channel in the tool holder, the end surface of the sleeve and the outer surface of the housing of the actuator. This embodiment of the design of the working chamber can improve the manufacturability of the device and, therefore, reduce its cost.

In addition, the task is solved due to the fact that the cutter has a working head, at least part of which is formed by the lateral surface of the cone of rotation, and the locking device for fixing the cutter in the tool holder is made in the form of an annular protrusion located on the front end of the sleeve, while the inner surface the walls of the sleeve in the area formed by the annular protrusion, has the shape of a cone of rotation, the apex of which is oriented towards the cutting part of the cutter. With this embodiment, the design of the device increases the efficiency of irrigation fluid supply by improving the cooling conditions of the cutter. This simplifies the design of the device.

of the solid element, the design of the device as a whole is simplified and, consequently, the reliability of its operation is increased.

In addition, the task is solved due to the fact that the holder is made with a groove located on its rear part for stirring; the sealing element is used, which facilitates the replacement of the sealing element when replacing the cutter.

In addition, the problem is solved due to the fact that the device for supplying irrigating fluid to it: the cutter of the mining machine is made with an additional sleeve of cylindrical shape, which is mounted on the holder of the cutter, while the channel for supplying irrigating fluid to it is formed by the coaxially located side the outer surface of the auxiliary sleeve and the lateral inner surface of the main sleeve. With this embodiment, the design of the device increases the cooling efficiency of the cutter and dust suppression while reducing the flow rate of the coolant by reducing the hydraulic resistance to the flow of the irrigation fluid when it moves along the channel for supplying the irrigation fluid.

In addition, the task is solved due to the fact that the shut-off valve of the non-return valve is spring-loaded from the inlet side of the channel for supplying irrigation fluid. With this embodiment, the design of the shut-off element provides a more rapid shutdown of the flow of irrigating fluid in the event of a breakdown of the tool holder and / or cutter.

The invention is illustrated by drawings, where in FIG. 1 shows a device for supplying irrigation fluid to the cutter of a mining machine in the absence of supply of irrigation fluid to the face; FIG. 2 - also when applying irrigation fluid to the bottom, in FIG. 3 - one of the options for constructive execution of the working chamber, in FIG. 4 - one of the options for constructive execution of the channel for supplying irrigation fluid to the bottom and in FIG. 5 is a section along A - A in FIG. 2.

A device for supplying irrigation fluid to the cutter of a mining machine comprises a tool holder 2 attached to the housing 1 of the actuator. The connection of the tool holder 2 with the housing 1 of the actuator can be made using a detachable connection, for example, by means of bolts or by means of an integral connection, for example, by welding. A longitudinal channel 3 is made in the housing of the tool holder 2, in which the tool holder 4 of the tool 5 is placed. The tool holder 4 of the tool 5 has a cylindrical shape. The cutter 5 is mounted with the possibility of rotation around its longitudinal axis and with the possibility of limited axial movement relative to the housing of the tool holder 2. In the housing 1 of the actuator is a channel 6 for supplying irrigating liquid, the input of which is connected to a source for supplying irrigating liquid under pressure (not shown in the drawings ), for example, in the form of a water pump. Channel 6 for supplying irrigation fluid through the cavity of the working chamber 7 is in communication with channel 8 for supplying irrigation fluid to the bottom. On the holder 4 of the cutter 5 is installed a sealing element 9, which is designed to block the channel 8 for supplying irrigation fluid to the bottom. The sealing element 9 is located in the cavity of the working chamber 7. The channel 6 for supplying irrigation fluid is made with a bore 10 located at its outlet. A check valve body 11 is installed in the bore 10. The check valve has a shut-off element 12, made, for example, in the form of a ball. The sealing element 9 is installed with the possibility of interaction with the locking element 12 of the check valve. The device has a locking device for fixing the cutter 5 in the tool holder 2, is available; any of its known design and designed to prevent the holder 4 of the tool 5 from falling out of the longitudinal channel 3 of the tool holder 2 while mixing; the housing 1 of the actuator.

The working chamber 7 can be formed by the walls of the bore 13 (Fig. 3 and 4) in the longitudinal channel 3 of the tool holder 2 and the outer surface of the housing 1 of the executive body.

Channel 8 for supplying irrigation fluid to the bottom can be made in the housing of the tool holder 2 (Fig. 4) and an nozzle can be installed at its output (not shown in the drawings). Such an embodiment of the device is preferable in which the channel 8 for supplying irrigating liquid to the bottom has an annular shape (Figs. 1-3). With this shape of the channel 8, the irrigation fluid is supplied to the bottom by an annular torch, which provides effective cooling of the cutter 5 and dust suppression in the zone of material destruction.

With the annular shape of the channel 8 for supplying the irrigation fluid to the bottom, it can be formed by the coaxially located surface of the longitudinal channel 3 in the tool holder 2 and the outer surface of the holder 4 (Fig. 3).

The tool holder 2 can be made with a sleeve 14, which is installed in its longitudinal channel 3. In this case, the channel 8 for supplying irrigation fluid to the bottom is formed in this case by the coaxially located inner surface of the sleeve 14 and the outer surface of the holder 4 of the cutter 5. To reduce leakage of the irrigation fluid from the cavity of the working chamber 7 between the mating surfaces of the sleeve 14 and the housing of the tool holder 2 can be installed sealing elements, for example, ring rubber cuffs (not shown).

The sleeve 14 can be rigidly connected to the housing of the tool holder 2 or mounted to rotate around its longitudinal axis in the longitudinal channel 3 of the tool holder 2. Preferred is a variant of the embodiment of the device in which the sleeve 14 is fixed in the longitudinal channel of the tool holder 2 by means of a latch 15, in which can be used, for example, a pin or a bracket.

The sleeve 14 can be made with a persistent protrusion 16, which is installed with the possibility of interaction with the front end surface 17 of the tool holder 2.

The sleeve 14 can be made with located on its outer side surface of the annular grooves 18 to accommodate respectively the latch 15 and the sealing element (not shown in the drawings), for example, in the form of an annular rubber cuff. In this case, on the lateral surface of the walls of the longitudinal channel 3 in the tool holder, either annular grooves are made to accommodate the sealing element and / or retainer 15, respectively, or with a recess or transverse channel 19 to accommodate the retainer 15.

When performing the device with the sleeve 14, the working chamber 7 can be formed by the walls of the longitudinal channel 3 in the tool holder 2, the end surface of the sleeve 14 and the outer surface of the housing 1 of the actuator.

The cutter 5 can be made with a working head 20, at least part of which is formed by the lateral surface of the cone of rotation. In this case, it is advisable that the locking device for fixing the cutter 5 in the tool holder is made in the form of an annular protrusion 21 located on the front end of the sleeve 14. The inner surface of the walls of the sleeve 14 in the area formed by the annular protrusion 21 has the shape of a cone of rotation, the apex of which is oriented in the direction the cutting part of the tool 5. On the top of the cutting part of the tool 5 can be fixed carbide insert 22,

The sealing element 9 can be made in the form of a ring, which is installed with the possibility of blocking the entrance of the channel 8 for supplying irrigating liquid to the bottom during axial movement of the cutter 5.

The holder 4 of the cutter can be made with a groove 23 located on its tail portion to accommodate the sealing element 9.

A device for supplying irrigation fluid to the cutter of a mountain machine can be made with an additional sleeve 24 of cylindrical shape, which is mounted on the holder 4 of the cutter 5. In this case, the channel 8 for supplying irrigation fluid to the face is formed by the coaxially located lateral outer surface of the additional sleeve 24 and the lateral inner the surface of the main sleeve 14.

The check valve 12 can be spring-loaded from the inlet side of the channel 6 for supplying irrigation fluid by, for example, a spring 25, which is installed in the check valve body 11.

A device for supplying irrigating fluid to the cutter of a mining machine operates as follows.

Irrigating fluid under pressure enters the channel 6 for supplying irrigation fluid. In the absence of contact of the cutter 5 with the material to be destroyed, that is, in the absence of an axial load on the cutter 5, under the influence of the irrigation fluid pressure, the check valve 12 moves to the check valve seat and closes the channel 6. A similar situation is observed when the cutter 5 breaks or when it is torn off housing tool holder 2 from the housing 1 of the Executive body of the mining machine. Thus, the irrigation fluid does not enter the working chamber 7.

the sealing element 9, since the latter is connected to the holder 4 of the cutter 5, When moving, the sealing element 9 acts on the shut-off element 12 of the check valve and moves it to the position (Fig. 2), in which the irrigation fluid from the channel 6 for supplying the irrigation fluid enters the working chamber 7. From the working chamber 7, the irrigation fluid through the channel 8 enters the destructible material and the cutter 5, cooling the latter and dust suppression of the destruction products.

When the cutter 5 comes out of contact with the material to be destroyed, that is, when the load on the cutter 5 is removed, under the action of the pressure of the irrigating liquid on the sealing element 9 and on the end face of the holder 4, whose area exceeds the area of the sealing element 9, on the other hand, the cutter 5 moves in the direction of increasing its departure and the sealing element 9 blocks the channel 8 for supplying irrigation fluid to the face. Almost simultaneously (with some delay) with the cessation of the flow of irrigating fluid into the channel 8, the flow of irrigating fluid to the working chamber 7 is stopped.

Claims (14)

1. A device for supplying irrigation fluid to the cutter of a mining machine, including a tool holder with a longitudinal channel mounted on the body of the executive body, mounted in the tool holder with the possibility of rotation and limited axial movement, a cutter with a cylindrical holder, a channel for supplying the irrigation liquid in the body of the executive body, which through the working chamber is communicated with a channel for supplying irrigation fluid to the bottom, a sealing element connected to the tool holder, which is placed in the working the chamber, and a locking device for fixing the cutter in the tool holder, characterized in that it has a check valve with a shut-off element, and the channel for supplying irrigation fluid is made with a bore located at its outlet to accommodate the check valve body, while the sealing element is installed with the possibility of interaction with check valve body.  2. The device according to claim 1, characterized in that the working chamber is formed by the walls of the bore, made in the longitudinal channel of the tool holder, and the outer surface of the housing of the executive body.  3. The device according to claim 1, characterized in that the channel for supplying irrigation fluid to the face has an annular shape.  4. The device according to PP.2 and 3, characterized in that the channel for supplying irrigation fluid to the bottom is formed by the coaxially located surface of the longitudinal channel in the tool holder and the outer surface of the holder.  5. The device according to claim 3, characterized in that the tool holder is made with a sleeve, which is placed in its longitudinal channel, while the channel for supplying irrigation fluid to the bottom is formed by the coaxially located inner surface of the sleeve and the outer surface of the holder.  6. The device according to claim 5, characterized in that the sleeve is fixed in the longitudinal channel of the tool holder by means of a latch.  7. The device according to claim 5, characterized in that the sleeve is made with a persistent protrusion, which is installed with the possibility of interaction with the front end surface of the tool holder.  8. The device according to claim 5, characterized in that the sleeve is made with annular grooves located on its outer side surface to accommodate, respectively, the latch and the sealing element.  9. The device according to claim 1, characterized in that the working chamber is formed by the walls of the longitudinal channel in the tool holder, the end surface of the sleeve and the outer surface of the housing of the actuator.  10. The device according to claim 1, characterized in that the cutter has a working head, at least part of which is formed by the lateral surface of the cone of rotation, and the locking device for fixing the cutter in the tool holder is made in the form of an annular protrusion located on the front end of the sleeve, with an inner the surface of the walls of the sleeve in the area formed by the annular protrusion has the shape of a cone of rotation, the apex of which is oriented towards the cutting part of the cutter.  11. The device according to p. 1, characterized in that the sealing element is made in the form of a ring, which is installed with the possibility of blocking the inlet of the channel for supplying irrigation fluid to the face during axial movement of the cutter.  12. The device according to claim 1, characterized in that the holder is made with a groove located on its rear part to accommodate the sealing element.  13. The device according to claim 1, characterized in that it is made with an additional sleeve of cylindrical shape, which is mounted on the tool holder, while the channel for supplying irrigation fluid to the bottom is formed by the coaxially located lateral outer surface of the additional sleeve and the side inner surface of the main sleeve. 14. The device according to claim 1, characterized in that the shut-off valve of the non-return valve is spring-loaded from the inlet side of the channel for supplying irrigation fluid.