RU2003797C1 - Gear to feed spraying fluid to cutting tool of mining machine - Google Patents

Abstract

The inventive device for supplying irrigation fluid to the cutter of a mining machine includes a tool holder with a through longitudinal channel of a rectangular shape, a cutter with a rectangular holder, a locking element for fixing the cutter, a channel for passing the irrigation fluid, a sealing element, a locking device with an elastic element and a protective the puck. The body of the actuator is made with a supporting surface, which forms a working chamber with the walls of the longitudinal channel in the tool holder. The locking device is made in the form of a rectangular base with an axial channel and a rod with a central socket and with radial channels. The protective washer is made with radial grooves located at its end. A protective washer is installed in the working chamber between the end face of the holder and the elastic element. The sealing element is placed in the working chamber between the supporting surface of the housing and the base of the locking element 7 zpf-ly, 7 silt.

Description

The invention relates to the mining industry, mainly to the coal industry, and can be used to combat dust and its explosions from frictional heating of cutters and cutting grooves during the operation of mining machines in treatment and tunneling workings.

A device for supplying irrigation fluid to the cutter of a mining machine 1 is known, which can be used for fighting and explosion protection during operation of mining machines, including a tool holder attached to an actuator body with a hollow longitudinal channel of circular shape, a sleeve mounted in a longitudinal channel of the tool holder, mounted in the sleeve with the possibility of limited rotation and axial movement of the cutter with a cylindrical holder, a locking element for fixing the sleeve in the tool holder and a locking device, o channel for the passage of irrigating fluid, sealing and elastic elements placed in the annular grooves of the sleeve and holder, a ring placed in the annular groove of the holder and mounted on the elastic element with the possibility of interaction with the bracket fixing the cutter, formed by the outer lateral surface of the holder and the walls of the sleeve and a channel for supplying irrigation fluid located in the housing of the actuator.

The disadvantages of this device are the design complexity and low reliability, since it has a sleeve with an annular groove at its end to accommodate the sealing element and an annular groove on its outer surface to accommodate the additional sealing element. The annular groove at the end face of the sleeve is made in the zone of increased load and abrasion when the cutter deviates from the longitudinal axis during contact of the cutter with destructible rock. Increased load and abrasion can lead to deformation of the annular groove and the sealing element located in it, while the ring placed in the holder’s annular groove and mounted on the elastic element when the cutter deviates from the longitudinal axis with an increase in the deformation of the annular groove at the end of the sleeve does not provide complete sealing and will lead to to leaks of irrigation fluid in the absence of load on the cutter. In addition, cutters with a cylindrical holder do not withstand the loads during the destruction of strong and especially strong rocks. When mining powerful seams, executive

shearer bodies are constructed using mixed types of cutters. Cutters with a cylindrical holder are installed in the cutting line, and from the side

Zabo - cutters with a rectangular holder, the latter withstand heavy loads and work under more severe conditions for gas and dust. From the side, gas and dust concentrations exceed the corresponding concentrations in the cutting line,

as this area is poorly ventilated and

probability of gas ignition and explosion

gas and dust under these conditions is higher.

The closest in technical essence is a device for supplying irrigation fluid to the cutter of the mining machine G2, including a tool holder mounted on the body of the executive body with a through longitudinal channel of a rectangular shape, mounted in the longitudinal channel of the tool holder with the possibility of limited axial movement of the tool with a rectangular holder and with a support protrusion, which is installed with the possibility of interacting with the end surface of the tool holder, which is located in the recess on the holder an element for fixing the cutter in the tool holder, formed by the outer lateral surface of the holder and the walls of the longitudinal channel in the tool holder, a channel for the passage of irrigating fluid, a sealing element with an axial hole, the diameter of which exceeds the diameter of the channel for supply

5 of the irrigation fluid, a locking device with an elastic element, a channel for supplying the irrigation fluid and a protective washer located in the housing of the actuator.

0 The disadvantage of this device is the low reliability of its operation, due to the frequent clogging of nozzles of irrigators or nozzles with mechanical impurities both from the inside and from the outside. For each sprinkler, the channel for supplying irrigation fluid, made in the tool holder, has at least two turns, which initiate the accumulation of mechanical impurities with subsequent clogging

0 either nozzle or channel. Clogging of the nozzles of the irrigators worsens the cooling of the cutters and cutting furrows, reduces the efficiency of dust explosion protection and dust suppression, as a result of which the working conditions are worsened

5, the safety of miners in the treatment and preparation workings is reduced. In addition, the channels for supplying fluid are made in the cutter, which weaken it and also reduce the reliability of the device.

A positive effect of the invention is achieved in that, taking into account the above-described general features of the device closest in technical essence, the housing of the actuator is made with a supporting surface which forms a working chamber with the walls of the longitudinal channel in the tool holder and with the end surface of the holder for receiving the locking device. and the locking device is made in the form of a rectangular base installed in the working chamber with an axial channel and a rod rigidly connected to the base with a price ral socket and with radial channels located at two sockets, while the protective washer is made with radial grooves located on its end to communicate the output of each radial channel in the rod with a channel for the passage of irrigation fluid and is installed in the working chamber between the end of the holder and the elastic element and the sealing element is placed in the working chamber between the supporting surface of the housing of the actuating body and the base of the locking device, the elastic element being located coaxially on the rod behind the locking device between the protective washer and the base of the locking device and is installed with the possibility of sealing the output of each radial channel of the locking device rod, and the channel for supplying irrigation fluid through the axial hole of the sealing element, the axial channel of the base of the locking device and the internal cavity of the socket in the locking device rod is in communication with the input each radial channel in the rod of the locking device, while the length of the elastic element along the longitudinal axis is longitudinal The channel in the chisel holder equal to the length of the rod locking device on the same axis, and the total length of the protective washers and that the elastic elements along the longitudinal axis of the longitudinal channel in the chisel holder with the deformation of the maximum load on the cutter length exceeds -sterzhn locking device on the same axis. In addition, at least two radial channels are formed in the shutter rod, and the protective washer is made with at least two radial grooves. The locking element is made in the form of a bolt placed on the threaded section of the nut bolt and rubber sealing elements, and the tool holder is made with a transverse channel for accommodating the bolt, the inner cavity of which is sealed by rubber sealing elements, and with recesses located at the inlet and outlet of the transverse channel, respectively the head of the bolt and nut, the depth of which is not less than the thickness of the head of the bolt and nut, while the cutter is installed with the possibility of interaction the recess wall facing the working head of the recess on the holder for receiving the locking element with the body of the bolt, and the recess on the holder to accommodate the locking element and the support protrusion on the holder are located on the same edge of delay, the longitudinal axis of symmetry of the recess on the holder to accommodate the locking element is parallel to the longitudinal the axis of the transverse channel in the tool holder, and the distance between the body of the bolt and the wall of the recess on the re-assembly with the maximum exit of the tool from the longitudinal channel in the tool holder along the longitudinal the axis of the longitudinal channel in the tool holder exceeds the distance between the support protrusion on the tool and the end surface of the tool holder at the maximum exit of the tool from the longitudinal channel in the tool holder along the same axis. The recess in the holder for receiving the locking element has a rectangular cross-sectional shape, with adjacent walls of the recess in the holder being mated to each other along a cylindrical surface. The radius of the cylindrical surface is equal to the radius of the bolt body. The length of the protective washer along the longitudinal axis of the longitudinal channel in the tool holder exceeds the distance between the support protrusion on the tool and the end surface of the tool holder at the maximum exit of the tool from the longitudinal channel of the tool holder along the same axis, and the distance between the end face of the shutter bar and the lower edge of the radial channel exit in the rod of the locking device along the longitudinal axis of the longitudinal channel in the tool holder is equal to the distance between the support protrusion on the tool and the end surface of the tool holder th same axis. The elastic element is made with an annular bore to accommodate the insert, and the locking device has an insert located in the annular bore of the elastic element, which is installed to interact with the locking device rod in the zone of exits of its radial channels, while the insert is made of a material whose wear resistance is higher than the wear resistance of the material of which the elastic element is made, and the insertion length

along the longitudinal axis of the longitudinal channel in the tool holder, at least twice the distance from the longitudinal axis of the radial channel in the shutter bar to the end of the shutter bar along the same axis.

Fig. 1 shows a general diagram of the device in the absence of interaction of the cutter with destructible rock; in FIG. 2 is a diagram of a locking device in the absence of interaction of the cutter with the rock (closed position, node A enlarged); Fig. 3 is a diagram of a locking device with a load on the cutter, i.e. when the cutter interacts with the rock (the position is open); in FIG. 4 is a section BB in FIG. 1; in FIG. 5 shows a recess in a holder for receiving a locking element and a circuit for coupling the walls of the recess with the body of the locking element (bolt); and FIG. 6 - elastic element with an insert; in FIG. 7 - same, top view.

A device for supplying irrigation fluid to the cutter of a mining machine comprises a tool holder 2 with a through longitudinal channel 3 of rectangular shape mounted on the housing 1 (see Fig. 1-4) of the actuator, mounted in the longitudinal channel of the tool holder with limited axial movement of the tool 4 with a angular holder 5 and with a support protrusion 6, which is mounted to interact with the end surface 7 of the tool holder, a locking element 9 is placed in the recess 8 on the holder for fixing the tool in the tool holder a channel 10 for irrigation fluid passage formed by the outer lateral surface of the holder and the walls of the longitudinal channel in the tool holder, a sealing element 11 with an axial bore 12, the diameter of which exceeds the diameter of the irrigation fluid supply channel, a locking device 13 with an elastic element 14 located in the actuator housing body channel 15 for supplying irrigation fluid and a protective washer 16. The housing 1 of the Executive body is made with a supporting surface 17, which forms with the wall 18 of the longitudinal channel in the tool holder and with the end surface 19 of the holder, the working chamber 20 to accommodate the locking device. The locking device is made in the form of a rectangular base 21 installed in the working chamber with an axial channel 22 and rigidly connected to the base of the rod 23 with a central socket 24 and with radial channels 26 located at the bottom of the socket 25, while the protective washer is made with an axial hole and with at its end facing the surface 19 of the holder 5, radial grooves 27 to communicate the output of each

a radial channel in the rod with a channel 10 for the passage of irrigating fluid and is installed in the working chamber between the surface 19 of the holder and the elastic element 14. The sealing element 11 is placed in the working chamber between the supporting surface 17 of the housing of the actuator and the base 21 of the locking device. The elastic element 14 is located coaxially on the rod 23 of the locking device

5 between the protective washer 16 and the base 21 of the locking device and is installed with the possibility of sealing the output of each radial channel 26 of the rod of the locking device, Channel 15 for supply

0 of irrigation fluid through the axial hole 12 of the sealing element, the axial channel 22 of the base of the locking device and the internal cavity of the socket 24 in the rod of the locking device is connected to the inlet of each radial channel in the rod of the locking device. The length of the elastic element along the longitudinal axis o-o of the longitudinal channel in the tool holder is equal to the length of the rod of the locking device along the same axis, and the total length of the protective washer and the elastic element along the longitudinal axis of the longitudinal channel in the tool holder when it is deformed from the maximum load on the tool exceeds

5 the length of the stem of the locking device along the same axis. At least two radial channels 26 are made in the rod 23 of the locking device. The protective washer 16 is made with at least two radial grooves 27. The locking element 9 (Fig. 4) is made in the form of a bolt 28 located on the threaded section of the nut bolt 29 and rubber sealing elements 30 and 31, and the tool holder 2 is made with a transverse

5 by a channel 32 for receiving a bolt, the inner cavity of which is sealed by rubber sealing elements, and with recesses 33 located at the inlet and outlet of the transverse channel and

0 34 to accommodate respectively the head 35 of the bolt and nut 29, the depth of which is not less than the thickness of the head of the bolt and nut, respectively. Cutter 4 is installed with the ability to interact with its inverted

5 to the working head by the wall 36 of the recess 8 on the holder 5 for receiving the locking element with the body of the bolt 28, and the recess on the holder for receiving the locking element and the supporting protrusion 6 on the holder are located on one face of the holder.

The longitudinal axis of symmetry c-in of the recess on the holder for receiving the locking element is parallel to the longitudinal axis cc of the transverse channel 32 in the tool holder. The distance And (Fig. 1, 5) between the body of the bolt and the wall 37 of the recess on the holder with a maximum exit of the cutter from the longitudinal channel 3 in the tool holder 2 along the longitudinal axis o-o of the longitudinal channel in the tool holder exceeds the distance 12 between the support protrusion on the tool and the end surface of the tool holder at the maximum exit of the tool from the longitudinal channel in the tool holder along the same axis. The recess 8 on the holder for receiving the locking element has a rectangular cross-sectional shape, while the adjacent walls of the recess on the holder are interconnected along a cylindrical surface 38.

The value of the radius n of the cylindrical surface 38 is equal to the value of the radius gg of the body of the bolt 28 (Fig. 5). The length 1z (Fig. 2) of the protective washer 16 along the longitudinal axis o-o of the longitudinal channel in the tool holder exceeds the distance h between the support protrusion 6 on the tool and the end surface 7 of tool holder 2 at the maximum exit of the tool from the longitudinal channel of the tool holder on the same axis. The distance M between the end face of the shutter bar and the bottom exit edge of the radial channel 26 in the shutter bar 23 along the longitudinal axis o-o of the longitudinal channel in the tool post is equal to the distance 2 between the support protrusion on the tool and the tool end face on the same axis. The elastic element 14 is made with an annular bore 39 (Fig. 6) to accommodate the insert, and the locking device has an insert 40 located in the annular bore of the elastic element, which is mounted to interact with the rod 23 of the locking device in the area of the exits of its radial channels 26, while the insert is made of a material whose wear resistance is higher than the wear resistance of the material of which the elastic element is made, and the length IB of the insert along the longitudinal axis o-o of the longitudinal channel in the tool holder is not less than doubled the distance 1e (Fig. 2) from the longitudinal axis of the radial channel in the rod of the locking device to the end 41 of the rod 23 of the locking device in the same axis.

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

Irrigation fluid is supplied from the pumping unit (not shown in the diagram) through channel 15 to node A (Fig. 1). In the absence of interaction of the incisor with destructible iop-5 rock, i.e. when there is no load on the cutter (Fig. 2), the liquid supplied under pressure enters through the opening 12 of the sealing element 11 and the axial channel 22 into the radial channels 26 From the radial

From the channels 26, the elastic element 14, which tightly encapsulates the rod 23 and the radial channels, impedes the liquid exit. When the cutter interacts with destructible rock, i.e. in the presence of a load on

5 the cutter (Fig. 3), the end surface 19 of the holder 5 presses on the protective washer 16 and the elastic element 14 until the supporting protrusion 6 of the cutter 4 comes into contact with the end surface 7 of the tool holder 2

0 (see Fig. 1). At this moment, the protective washer 16 and the elastic element 14, under the influence of the end surface 19 of the holder 5, will completely open the radial channels 26. Irrigated under pressure

5, the fluid from the radial channels enters the axial hole and the radial grooves 27 of the protective washer 16 and then through the channel 10 for the irrigation fluid to pass into the dust formation zone and heat the cutter and the furrow

0 cut. When the load on the cutter is removed, the supply of irrigation fluid to the above-mentioned azgene zone ceases, since the combined actions of the elastic forces of the elastic element 14 and the sealing element

5 11, the protective washer 16 and the cutter 4 are returned to the initial spring-loaded position (Fig. 2), while the elastic element 14 will block the radial channels 26, i.e. will block the path of fluid flow. Further processes

0, the supply and termination of the irrigation fluid will alternate depending on whether or not there is a load on the cutter. Limited reciprocating axial movement of the cutter and its rectangular

5, the holder allows you to grind mechanical impurities that have entered the channel 10 for passage of the irrigation liquid, and the irrigation liquid allows the abrasion products to be washed out. The structural arrangement of the elastic and sealing elements softens shock loads at the moment of contact of the cutter with the rock and significantly prevents the destruction of its cutting insert,

5

A device for supplying irrigation fluid to the cutter of a mining machine to increase the reliability of its operation, since there are no irrigators or nozzles whose nozzles are often clogged by mechanical impurities from the inside and from the outside. Elimination of the space gap by mechanical impurities will improve the cooling of cutters and cutting furrows, increase the efficiency of dust explosion protection and dust suppression, which will lead to improved working conditions and increased

safety of miners in treatment and preparatory workings.

(56) Copyright certificate of the USSR No. 1686156. cl. E 21 C 25/38, 1991.

UK Patent Mg 2186011, CL E21 C 35/18, 1987.

Claims (8)

1. DEVICE FOR SUBMITTING IRRIGATING LIQUID TO THE MINING MACHINE CUTTER, including a tool holder mounted on the body of the actuator with a through longitudinal channel of a rectangular shape, mounted in a longitudinal channel of the tool holder with the possibility of limited axial movement of the tool with a rectangular holder and a supporting protrusion, which is installed with interacting with the end surface of the tool holder, a locking element for securing the tool in the tool holder, formed in the recess on the holder, is formed The outer side of the holder and the walls of the longitudinal channel in the tool holder have a channel for irrigation fluid passage, a sealing element with an axial bore whose diameter exceeds the diameter of the channel for supplying the irrigation fluid, a locking device with an elastic element located in the body of the actuator for the supply of irrigation fluid and a protective washer, characterized in that the housing of the actuator is made with a supporting surface, which forms with the walls of the longitudinal channel into the tool post holder and with the end surface of the holder the working chamber for placement of the locking device, and the locking device is made in the form of a rectangular base installed in the working chamber with an axial channel and rigidly connected to the base of the rod with a central socket and radial channels located at the bottom of the socket, with a protective washer made with radial holes located at its end to communicate the output of each radial channel in the rod with a channel for the passage of irrigating fluid and installed in the working second chamber between an end face of the holder and the resilient element and the sealing element is arranged in the working chamber between the supporting surface of the main valve body locking device and the base, wherein 0 5 0 5 0 the elastic element is located coaxially on the shutter bar between the protective washer and the base of the shutter and is installed with the possibility of sealing the output of each radial channel of the shutter bar, and the channel for supplying irrigation fluid through the axial hole of the sealing element, the axial channel of the base of the shutter and the internal cavity of the socket in the shutter bar is in communication with the inlet of each radial channel in the shutter bar, ohm, the length of the elastic element along the longitudinal axis of the longitudinal channel in the tool holder is equal to the length of the shutter rod along the same axis, and the total length of the protective washer and the elastic element along the longitudinal axis of the longitudinal channel in the tool holder when it deforms from the maximum load on the cutter exceeds the length of the shutter rod in same axis. 2. The device according to claim 1, characterized in that at least two radial channels are made in the rod of the locking device. 3. The device according to claim 1, characterized in that the protective washer is made with at least two radial grooves. 4. The device according to claim 1, characterized in that the locking element is made in the form of a bolt placed on a threaded 5 section of the nut bolt and rubber sealing elements, and the tool holder is made with a transverse channel for accommodating the bolt, the inner cavity of which is sealed with rubber sealing elements, and with recesses located at the inlet and outlet of the transverse channel to accommodate the bolt and nut heads, respectively which no less respectively 5 of the thickness of the head of the bolt and nut, while the cutter is mounted to interact with its recess wall facing the working head on the holder to accommodate the locking element with the body of the bolt, and the recess on the holder for neither the locking element and the supporting protrusion are located on one face of the holder, the longitudinal axis of symmetry of the recess on the holder to accommodate the locking element is parallel to the longitudinal axis of the transverse channel in the tool holder, and the distance between the bolt body and the recess wall on the holder at the maximum exit of the cutter from the longitudinal channel in the tool holder along the longitudinal axis of the longitudinal channel in the tool holder exceeds the distance between the support protrusion on the tool and the end surface of the tool holder at the maximum the cutter exit from the longitudinal channel in the tool holder along the same axis. 5. The device according to claim 1 or 4, characterized in that the recess in the holder for receiving the locking element has a rectangular shape in cross section, while adjacent walls of the recess are mated to each other along a cylindrical surface. 6. The device according to claim 5, characterized in that the radius of the cylindrical surface is equal to the radius of the body of the bolt. 7. The device according to claim 1, characterized in that the length of the protective washer along the longitudinal axis of the longitudinal channel in the tool holder exceeds the distance between 36 the supporting protrusion on the cutter and the end surface of the tool holder at the maximum exit of the tool from the longitudinal channel of the tool holder along the same axis, and the distance between the end face of the locking device rod and the lower edge of the radial channel output in the locking device along the longitudinal axis of the longitudinal channel in the tool holder is equal to the distance between supporting protrusion on the cutter and the end surface of the tool holder along the same axis, 8. The device according to claim 1, characterized in that the elastic element is made with an annular bore to accommodate the insert, and the locking device has an insert located in the annular bore of the elastic element, which is installed to interact with the rod of the locking device in the area of the exits of its radial channels; wherein the insert is made of a material whose wear resistance is higher than the wear resistance of the material of which the elastic element is made, and the insert length along the longitudinal axis of the longitudinal channel in the tool holder not less than twice the distance from the longitudinal axis of the radial channel into the rod of the locking device to the end of the rod of the locking device along the v: e axis. f (white) s tP / Г лx & t 4 xy ° xg7 (yS & wvedj5 7 / 2G M lx & j5 7 M 22 Fig.Z Bb in, # J L 32 . AT 2B Bg.5 Bj