RU2729084C1 - Device for mine working dust treatment - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to mining, in particular to equipment for prevention of explosions of dust-air mixtures in coal mines hazardous by gas and dust, and is intended for application of inert dust on sides and roof of mine workings by mechanized method. Device includes a hopper, at least two spreaders and at least two windows in the hopper wall connecting the hopper inner volume with the spreaders. Each spreader is a centrifugal air compressor, the supply of which is connected to the window in the bin wall, and the end of the pressure pipe is connected to the angular shape chamber, which is limited by the upper wall, the outer wall, the bottom wall, the inner wall. Upper and outer walls of the chamber are made in the form of a confusor ending with an angular slot provided with a flow divider.EFFECT: improving efficiency of mechanized mine working dust treatment in automatic mode, including in the presence of air flows in the mine working.8 cl, 6 dwg

Description

The invention relates to mining, in particular to equipment for the prevention of explosions of dust-air mixtures in coal mines, hazardous in gas and dust, and is intended for applying inert dust on the sides and roof of mine workings.

One of the ways to neutralize the explosive properties of coal dust in coal mines is the dusting of mine workings, which consists in artificial ashing of coal dust that has settled on the surface of mine workings, adding to it non-combustible (inert) dust in such an amount to eliminate the ability to explode. To increase productivity, a mechanized method of polishing is used. In particular, devices that move along the mine workings in the process of polishing and apply inert dust to the sides and roof in an automatic mode have become widespread.

There is a known device for polishing mine workings (Patent of the Republic of Poland for invention No. 226045, publ. 06/30/2017), which is a bunker equipped with augers, in one of the walls of which there is a hole connecting the inner volume of the bunker with the compressor supply. The compressor discharge pipe is connected to the tee with a flexible hose. Rigid hoses of various lengths can be installed on the tee. The tee is mounted vertically on the device frame using an axis. A connecting rod of the crank mechanism is attached to the tee, allowing the tee and rigid hoses to swing in the vertical plane. The device is installed on an overhead monorail track, hooked up to an overhead diesel locomotive and moves along the mine jointly with it. At the same time, in order to polish the mine workings, the augers of the device move the inert dust in the hopper to the opening, from where it is sucked into the air compressor and thrown out through the sleeves into the mine workings. In this case, inert dust is sprayed through the sleeve in a small spot. The slating of the entire section of the mine is carried out by means of a crank mechanism that pumps a tee with rigid sleeves.

The disadvantage of this device is the low speed of polishing, the presence of an additional mechanism, low reliability of the flexible sleeve, which constantly experiences deformation during operation.

The closest to the claimed is a device for dazzling mine workings (US patent for invention No. 4510883, publ. 04.16.1985). The device consists of a hopper for storing a stock of inert dust, near the bottom of which there is a conveyor. On the outer side of the front wall of the hopper, two spreaders are symmetrically placed, each of which is a unit consisting of a rotating disk with radial blades placed on it, a rotation drive, a cylindrical casing that covers the disk and creates an arc-like gap along the periphery of the rotating disk. Moreover, the disc, casing and slot are located vertically. Near the front wall of the bunker, there is a device for sucking inert dust from the bunker into the spreaders. When carrying out work on the dusting of mine workings, the device is installed in a vehicle, and its drives are connected to an external hydraulic system. When the device drives are switched on, the conveyor moves the inert dust in the hopper to the front wall, from where it is sucked into the spreaders. The inert dust in the spreaders is carried away by the radial blades of the rotating discs and is thrown out by centrifugal force through the slots in the casings. Each of the two spreaders creates a uniform fan of dust, which makes it possible to shale the roof and sides of the mine workings along the entire section at any time. When the device moves in conjunction with the vehicle, the mine is flashed at a predetermined length in automatic mode.

The disadvantages of this device are a small distance of inert dust emission due to resistance to the movement of inert dust particles in the air, as well as a decrease in the efficiency of dusting in the presence of air flows blowing along the mine, which slow down and carry inert dust particles from the roof and sides of the mine.

The technical problem to be solved by the invention is the development of a new design of a device that provides an increase in the efficiency of mechanized dusting of mine workings in automatic mode, including in the presence of air flows in the workings.

The designated problem is solved by the proposed invention, according to which the device for polishing a mine working includes a bunker, at least two spreaders, and at least two windows in the wall of the bunker, connecting the inner volume of the bunker with spreaders, each of the spreaders is a centrifugal air compressor , the supply of which is connected to a window in the wall of the bunker, and the end of the discharge pipe is connected to an angular chamber, which is bounded by an upper wall, an external wall, a lower wall, an internal wall, and the upper and external walls of the chamber are made in the form of a confuser ending in an angular slot equipped with flow divider.

In addition, it is preferable if the flow divider is made in the form of at least three plates installed across the corner slot along its contour.

In addition, it is preferable if the plates are installed with a variable angle of rotation relative to the spreader, and the angle of rotation of the plates uniformly changes from an angle approximately equal to the angle of inclination of the inner wall of the angular chamber to a value approximately equal to the angle of inclination of the lower wall of the angular chamber.

In addition, it is preferable if the plates are installed with a variable pitch, which varies in the range from 0.018L to 0.062L, where L is the length of the corner slot.

In addition, it is preferable if the flow divider is made in the form of at least one removable element installed in / on the corner slot.

In addition, it is preferable if the width of the corner slot of the confuser is from 0.25b to 0.4b, where b is the width of the corner-shaped chamber.

In addition, if the device has a predominantly rectangular cross-section, it is preferable that the angle between the upper and outer wall of the angular chamber is approximately 90 degrees.

In addition, the device can contain at least two spreaders, differing in size and / or location relative to the device.

The technical result obtained from the invention consists in increasing the range of emission of inert dust and ensuring a rational distribution of the emission.

The invention is illustrated in more detail by drawings, which show the following. FIG. 1 shows a longitudinal section of the device, FIG. 2 shows a section of the device along the transverse screw, FIG. 3 shows a section of the device for spreaders, FIG. 4 is an axonometric projection of the spreader. FIG. 5 shows a diagram of the distribution of the velocities of air flows coming from the spreaders, obtained from the results of factory tests, and a table of the distribution of air velocities. FIG. 6 shows a section of a mine and the location of the device in it during its operation and during performance tests.

The device includes a body 1, consisting of a frame 2 with two runners 3 and a hopper 4. Hopper 4 consists of two side walls 5, a rear wall 6 and a front wall 7. The hopper is covered with hinged covers 8. Load loops 9 are fixed on the frame 2. Near the bottom 10 of the bunker 4 there is a longitudinal auger 11, driven by a hydraulic drive. Near the front wall of the hopper is a transverse auger 12 with two helical surfaces in the opposite direction, driven by a hydraulic drive. On the front wall 7 of the hopper opposite the transverse auger, for example, two windows 13 are made, each of which is connected to the supply 14 of one of the spreaders 15. The spreaders are symmetrically placed on the frame from the outside relative to the front wall. The spreader consists of a centrifugal air compressor 16, to the outlet 17 of which an angular chamber 18 is connected. The angular chamber is bounded by the upper wall 19, the outer wall 20, the lower wall 21 and the inner wall 22. The outer and upper walls of the chamber are made in the form of a confuser 23 ending in an angular slot 24. The angular slot is made in the form of a flow divider, for which purpose along the contour of the angular slot plates 25 are installed. The angle of rotation of the plates changes uniformly from an angle value approximately equal to the angle of inclination of the inner wall 22 of the angular chamber 18 to a value approximately equal to the angle of inclination of the lower wall 21 of the angular chamber 18. The plates cover the corner slot 24 in the transverse direction.

The device works as follows. The device is delivered by means of load loops 9 and is installed on an overhead monorail track, clings to an overhead diesel locomotive and is connected to its hydraulic system as an energy source. Through the hinged lids 8, the hopper 4 is filled with inert dust. Then the device drives are switched on. At the same time, the device moves along an overhead monorail track by an overhead diesel locomotive. When the device drives are turned on, the longitudinal auger 11, the transverse auger 12 and the impellers of centrifugal air compressors 16 begin to rotate. In this case, the longitudinal auger 11 moves the inert dust to the transverse auger 12, which in turn supplies inert dust to the windows 13. Through the windows 13 inert dust together with air, it is sucked through inlets 14 into centrifugal air compressors 16, forming a dust-air mixture. Under the influence of the impeller blades, the dust-air mixture acquires energy and is pumped into the angular chamber 18, passes through the confuser 23, which increases the kinetic energy of the dust-air mixture, and is ejected through the corner slot 24 towards the sides and roof of the mine. In this case, the plates 25 set the direction of movement of the dust-air mixture.

In this embodiment of the device, the width s of the angular slot of the confuser is from 0.25b to 0.4b, where b is the width of the angular chamber, and the pitch t between the plates along the angular slot is variable and ranges from 0.018L to 0.062L, where L = a + c is the length of the corner slot.

The orientation of the plates and their pitch on various devices can be changed depending on the cross-section of the shale working to redistribute the air flows emanating from the corner slot.

In addition, the divider can be made in the form of a removable element or several removable elements installed in a corner slot or on a corner slot. Removable elements can be selected to improve the efficiency of using the device in a particular mine.

The dimensions of the angular chamber and the angular slot on various devices can be changed depending on the requirements for the range of emission of inert dust, the performance of flashing, as well as on the characteristics of the centrifugal air compressors used in the device. The angle α (shown in Fig. 3) between the upper and outer walls of the angular chamber depends on the shape of the device in cross-section, which is determined by the available dimensions of the mine section and the requirements for manufacturability of its design. For a device with a rectangular cross-section, the angle α is preferably equal to approximately 90 degrees, which makes it possible to bring the angular slot as close as possible to the roof and sides of the mine, increasing the efficiency of polishing without going beyond the dimensions of the device.

Cameras of angular shape and / or spreaders can be made removable and selected to increase the efficiency of the device in a particular mine. For asymmetric mine workings or with an asymmetrical arrangement of the device in a mine workings, the spreaders installed on the device may differ in size and location on the device.

The body 1 of the device, the augers 11 and 12, as well as the spreaders 15 are mainly made of metal materials. To reduce the weight of the device and increase its efficiency, the body 1 of the device, the augers 11 and 12, as well as the spreaders 15 can be fully or partially made of other materials, in particular, polymer materials approved for use in coal mines, hazardous in terms of gas and dust.

FIG. 5 shows a diagram of the distribution of the speed of air flows along the contour of the confuser, obtained during factory tests of the spreader of the design shown in FIG. 4, as well as a table with the measurement results. The arrows in the diagram show the direction of the air flow and their length is proportional to the flow rate. The tests were carried out at an air flow rate of 32.55 m / s supplied by an air compressor and a flow rate of 5400 m ³ / h. The diagram shows that for the given spreader design, the maximum values of the air flow velocity are provided in the area from window No. 5 to window No. 18 in the corner slot, providing sector 26 of the most effective emission of inert dust. This distribution of air flow velocities and their direction ensures the application of inert dust to the most inaccessible areas of the mine.

FIG. 6, the sectors 26 of the most efficient discharge of inert dust are aligned with the arrangement of the device 27 in the mine working 28. The arrangement of the device in FIG. 6 corresponds to its location during operation and during performance tests. The device is suspended by a load chain 29 through a lifting device 30 to a monorail 31. In this case, it can be seen from Fig. 6 that the sector 26 of the most effective emission of inert dust covers the most difficult-to-reach sections 32 of the mine roof. A small section 33 on the roof of the mine is shaded due to the turbulence generated by the collision of the dust-air mixture flow with the roof of the mine. The working sections 34 are slackened due to the settling of inert dust from the main flow of the dust-air mixture under the action of gravity.

The device, according to the proposed invention, has passed operational tests, which have confirmed the provision of flashing of workings with a cross-sectional area of up to 20 m ² , including in the presence of air flows blowing along the workings at a speed of up to 2 m / s.

The advantages of the claimed invention, which favorably position it in comparison with the known analogs, are determined by the design features below.

An angular chamber and a corner slot with a diffuser allow to equalize the pressure, ensure a rational distribution of velocity in different parts of the corner slot and set the direction of emission of the dust-air mixture. The confuser increases the kinetic energy of the air flow with a dense suspension of inert dust. Due to the fact that the dust is thrown out in a uniform fan using a stream of air with high kinetic energy, an increase in the range of dust emission is provided, which makes it possible to polish workings with a cross-sectional area of up to 20 m ² , and the possibility of effective polishing in workings in the presence of air flows blowing along the working , at a speed of up to 2 m / s.

It should also be noted that the additional advantages of the claimed invention are that the device for polishing mine workings does not require constant attention of operators, as well as performing a large amount of maintenance, has high mobility and transportability, does not violate the schedule of mining.

Thus, the invention solves the technical problem and provides the claimed technical result in terms of increasing the efficiency of mechanized dusting of mine workings in automatic mode, including in the presence of air flows generated along the mine, by increasing the range of emission of inert dust and ensuring rational distribution of the emission.

Claims (8)

1. A device for silting up mine workings, including a bunker, at least two spreaders and at least two windows in the bunker wall connecting the inner volume of the bunker with spreaders, characterized in that each of the spreaders is a centrifugal air compressor, the supply of which is connected to a window in the wall of the bunker, and the end of the discharge pipe is connected to an angular chamber, which is bounded by an upper wall, an external wall, a lower wall, an internal wall, and the upper and external walls of the chamber are made in the form of a confuser ending in an angular slot equipped with a flow divider. 2. A device according to claim 1, characterized in that the flow divider is made in the form of at least three plates installed across the corner slot along its contour. 3. The device according to claim 2, characterized in that the plates are installed with a variable angle of rotation relative to the spreader, and the angle of rotation of the plates changes uniformly from an angle value approximately equal to the angle of inclination of the inner wall of the angular chamber to a value approximately equal to the angle of inclination of the lower wall of the angular chamber ... 4. The device according to claim 2 or 3, characterized in that the plates are installed with a variable pitch, which varies in the range from 0.018L to 0.062L, where L is the length of the corner slot. 5. The device according to PP. 1-4, characterized in that the flow divider is made in the form of at least one removable element installed in / on the corner slot. 6. The device according to PP. 1-5, characterized in that the width of the angular slot of the confuser is from 0.25b to 0.4b, where b is the width of the angular chamber. 7. The device according to PP. 1-6, characterized in that the angle between the upper and outer walls of the angular chamber is approximately 90 degrees, the device having a predominantly rectangular cross-section. 8. The device according to PP. 1-6, characterized in that it contains at least two spreaders, differing in size and / or location relative to the device.

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