CN114452751A

CN114452751A - Mine dust collecting equipment for environmental protection

Info

Publication number: CN114452751A
Application number: CN202210151349.XA
Authority: CN
Inventors: 康建雄; 李新宽; 党愔
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-05-10
Anticipated expiration: 2042-02-18
Also published as: CN114452751B

Abstract

The invention discloses an environment-friendly mine dust removal device, which comprises a spray head for spraying water mist and a bracket for mounting the spray head, wherein the bracket comprises a circular bearing platform which is rotatably arranged, the upper surface of the bearing platform is provided with a plurality of sliding grooves, the back of the spray head is fixedly connected with a wedge-shaped plate extending out of the back of the spray head, the thinner side of the wedge-shaped plate is fixedly connected to the back of the spray head, and the surface of the thicker side of the wedge-shaped plate is contacted with one end of a push rod; the other end of the driving rod is arranged in each groove in a moving fit mode, the other end of the driving rod is connected with the side wall of the groove through a pressure-bearing spring, and the pressure-bearing spring is always in a compressed state; the center of the bottom of the piston plate is connected with the small end of a conical spring, the large end of the conical spring is connected to the inner bottom surface of the cylinder body, and the conical spring is always kept in a compressed state; the upper part of the bearing platform is connected with the bottom end of an adjusting screw rod, and the top end of the screw rod extends out of the top of the barrel. The invention can flexibly adjust the pitching height of the spray head and is suitable for various dust removal requirements.

Description

Mine dust collecting equipment for environmental protection

Technical Field

The invention relates to the field of mining equipment, in particular to environment-friendly mine dust removal equipment.

Background

Dust pollution is always a troublesome problem in the mining process, and in the mining process, ores need to be crushed, lifted, dry separated, screened, transported and the like. The ore in the processes is long in conveying distance and large in conveying fall, the extrusion strength in equipment is high or the vibration frequency is high, and due to the combined action of factors such as mechanical transmission kinetic energy, fall potential energy, natural wind power or induced wind power and the like in the process, a large amount of fine dust can be generated, so that the air quality of an operation area and the surrounding environment of the operation area is reduced, occupational diseases such as silicosis, coal lung, graphite lung, asbestos lung and the like are caused, the physical health and life safety of workers are harmed, machinery equipment can be damaged, various accidents are caused, and the economic benefits of production and enterprises are influenced. Therefore, the problem of dust pollution generated in the operation process is emphasized and measures are taken for prevention and treatment, the existing dust removal methods mainly comprise a closed dust removal method, a cloth bag dust removal method, an electric dust removal method and a water spray dust removal method, wherein for water spray dust removal, water is used as a dust removal medium, the realization is easy, the dust removal range is wide, accurate dust removal can be realized by changing the positions of a water pipe and a spray head, in the existing equipment, generally, equipment such as a water cannon and the like which is fixedly installed carries out water spray dust removal, the directions of water spray and mist spray are difficult to rapidly and swiftly adjust, dust removal in various directions cannot be accurately and timely carried out, the flexibility of work is insufficient, and the adaptability is insufficient.

Disclosure of Invention

The invention aims to solve the problems that the environment-friendly mine dust removal equipment is provided aiming at the defects in the prior art, and the problem that the dust removal direction and the dust removal range are difficult to accurately and rapidly adjust in the water dust removal process in the prior art is solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides an environment-friendly mine dust removal device, which comprises a spray head for spraying water mist and a bracket for mounting the spray head, wherein the bracket comprises a circular bearing platform which is rotatably arranged, the upper surface of the bearing platform is provided with a plurality of sliding grooves, each sliding groove is arranged along the radial direction of the bearing platform, all the sliding grooves are arranged on the bearing platform in an annular array manner, one side in each sliding groove is also horizontally and slidably provided with a push rod, one end of each push rod extends out of the bearing platform, the other end of each push rod is connected with the side wall at the top end of the bottom of a driving rod in a V-shaped structure, one end of each driving rod extends out of the outer side above the bearing platform and is hinged with the spray head, a spring piece is clamped between the spray head and the driving rod, a certain included angle is kept between the spray head and the driving rod by the spring piece, the back of the spray head is fixedly connected with a wedge-shaped plate extending out of the back of the spray head, the thinner side of the wedge-shaped plate is fixedly connected with the back of the spray head, the surface of the thicker side is contacted with one end of the push rod;

a cylinder is fixedly connected above the center of the bearing platform, a piston plate is arranged above the interior of the cylinder in a sliding fit manner, the bottom surface of the piston plate is provided with a plurality of grooves, the other end of the driving rod is arranged in each groove in a moving fit manner, the other end of the driving rod is connected with the side wall of each groove through a pressure-bearing spring, and the pressure-bearing springs are always in a compressed state; the center of the bottom of the piston plate is connected with the small end of a conical spring, the large end of the conical spring is connected to the inner bottom surface of the cylinder body, and the conical spring is always kept in a compressed state; the upper part of the bearing platform is connected with the bottom end of an adjusting screw rod, and the top end of the screw rod extends out of the top of the barrel.

Specifically, spout and slot cross section are the T type, the gyro wheel is installed to the other end of actuating lever, the gyro wheel with still install the slide between the pressure-bearing spring, slide one side is in sliding fit in the spout, outside the notch of spout is stretched out to its other end, the gyro wheel with slide one side surface extrusion contact in being located the spout.

The top of the bottom end of the driving rod is provided with a core column, the core column is perpendicular to the length direction of the sliding groove, two ends of the core column are respectively provided with a bearing, and the two bearings can roll on two opposite sides in the sliding groove respectively.

Secondly, the spring piece is of a V-shaped structure, and the vertex of the V-shaped structure is rounded, so that the intersection of two side plates of the spring piece is of an arc-shaped sheet structure, and the thickness of the arc-shaped sheet structure is thinner than that of the rest part of the spring piece.

The lower surface of the push rod is of a rack structure, a driven rack with one end extending out of the bearing platform is installed inside the bearing platform below the push rod in a sliding fit mode, the driven rack is connected with the rack structure through a gear assembly in a transmission mode, one end, extending out of the bearing platform, of the driven rack is connected with a pull rope, the pull rope is wound around a fixed pulley installed above the edge of the bearing platform and then connected to the upper side of the back face of the spray head, and therefore when the push rod moves towards the outer side of the bearing platform, the driven rack moves towards the inside of the bearing platform and pulls the spray head to overturn upwards.

More specifically, the inner wall of the cylinder body is further fixedly connected with a limiting block, and the limiting block limits the downward moving height of the piston plate. In addition, the hole on the side wall of the cylinder body for the driving rod to pass through is a rectangular hole, the rectangular hole is arranged along the height direction of the cylinder body, and all the rectangular holes are arranged on the side wall of the cylinder body in an annular array. During specific manufacturing, the bearing platform is fixedly connected to a conical platform, the bottom end of the conical platform is installed on a platform in a rotating fit mode, a gear ring is fixedly connected to the bottom of the conical platform close to the edge of the conical platform, and the gear ring is in meshing transmission with a driving gear rotatably installed on the platform.

In the invention, the center of the end surface of the driving gear is provided with a hexagonal blind hole, and the hexagonal blind hole can be in socket fit with a rocking handle with a hexagonal cross section. At the bottom end of the conical table is a sphere that is a rotating fit within the platform.

Compared with the prior art, the invention has the following beneficial effects: the invention adopts a simple and ingenious design structure, flexibly and timely realizes the adjustment of the water spraying directions of the plurality of spray heads, can adapt to the dust removal requirements under various complex environments, can effectively exert the efficient and flexible dust removal performance when being placed in the center of a smoke environment, selects the optimal water spraying angle and covers a larger range of smoke as far as possible.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic overall structure of one embodiment of the present invention;

FIG. 2 is a schematic view of the mounting structure between the spring plate and the nozzle;

FIG. 3 is a schematic view of the transmission between the push rod and the driven rack of FIG. 1;

FIG. 4 is a cross-sectional view of one mating configuration of the drive rod and the slide slot;

FIG. 5 is an enlarged view of the top of the structure shown in FIG. 1;

fig. 6 is a structural view of a slide board.

The reference numerals are explained below: the device comprises a bearing platform 1, a spray head 2, a driving rod 3, a push rod 4, a wedge-shaped plate 5, a barrel 6, a piston plate 7, a screw rod 8, a sliding groove 9, a groove 10, a pressure bearing spring 11, a sliding plate 12, a conical spring 13, a pull rope 14, a spring leaf 15, a driven rack 16, a gear ring 17, a driving gear 18, a conical platform 19, a platform 20, a gear assembly 21, a temporary water storage tank 22, an electromagnet 23, a motor 24, a gear column 25, a cylindrical gear 26, a scale mark 27, an air inlet nozzle 28, a control valve 29, a bearing 301 and a core column 302.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the invention clearer and easier to understand, the technical scheme of the invention is described in detail below. It should be understood by those skilled in the art that the following examples are illustrative of some, but not all, specific embodiments of the invention and therefore the scope of the invention is not limited thereto.

Referring to the structure shown in fig. 1, the embodiment discloses an environmental-friendly mine dust removal device, which includes a nozzle 2 for spraying water mist and a bracket for mounting the nozzle 2, and the difference is that the bracket in the embodiment specifically includes: a circular bearing platform 1 which is rotatably arranged, namely the bearing platform 1 can rotate to adjust the installation position of the spray head 2, a plurality of sliding grooves 9 are arranged on the upper surface of the bearing platform 1, each sliding groove 9 is arranged along the radial direction of the bearing platform 1, all the sliding grooves 9 are arranged on the bearing platform 1 in an annular array, a push rod 4 is further horizontally arranged on one side in each sliding groove 9 in a sliding manner, one end of each push rod 4 extends out of the bearing platform 1, the other end of each push rod 4 is connected with the side wall of the top end of the bottom of a driving rod 3 in a V-shaped structure, one end of each driving rod 3 extends out of the outer side above the bearing platform 1 and is hinged with the spray head 2, a spring piece 15 is clamped between the spray head 2 and the driving rod 3, as shown in figures 1-2, the spring piece 15 enables a certain included angle to be kept between the spray head 2 and the driving rod 3, a wedge-shaped plate 5 extending out of the back of the spray head 2 is fixedly connected to the back of the spray head 2, the thinner side of the wedge-shaped plate 5 is fixedly connected to the back of the spray head 2, and the surface of the thicker side of the wedge-shaped plate is contacted with one end of the push rod 4.

Meanwhile, with reference to fig. 1, in this embodiment, a cylinder 6 is fixedly connected above the center of the bearing platform 1, the cylinder 6 may be a cylindrical cup structure, a piston plate 7 is installed above the inside of the cylinder 6 in a sliding fit manner, a plurality of grooves 10 are formed in the bottom surface of the piston plate 7, and the other end of the driving rod 3 is installed in each groove 10 in a sliding fit manner, that is, the other end of the driving rod 3 can slide freely in the groove 10 under the driving of an external force. Specifically, the other end of the driving rod 3 is connected to the side wall of the groove 10 through the pressure spring 11, and the pressure spring 11 is always in a compressed state, so that an elastic force in the opposite direction of the movement of one driving rod 3 is always given. The center of the bottom of the piston plate 7 is connected with the small end of a conical spring 13, the large end of the conical spring 13 is connected to the inner bottom surface of the cylinder 6, and the conical spring 13 is always kept in a compressed state; the top of the bearing platform 1 is connected with the bottom end of an adjusting screw rod 8, the top end of the screw rod 8 extends out of the top of the barrel 6, so that the operating screw rod 8 can rotate, and during actual manufacturing, a hand wheel can be installed at the top end of the screw rod 8 to operate and rotate.

The mine dust collecting equipment for environmental protection of this embodiment moves down through adjusting screw 8 when using, extrudees piston plate 7, and the in-process that piston plate 7 moved down is promoting push rod 4 and is moving towards the cushion cap 1 outside, and specifically, push rod 4's removal is: the push rod 4 integrally moves towards the outer side of the bearing platform 1, in the moving process, the push rod 4 integrally rotates relative to the bottom end of the driving rod 3, namely the push rod 4 simultaneously rotates clockwise in the sliding groove 9, so that the spray head 2 turns upwards for a certain angle, namely the installation elevation angle of the spray head 2 is raised, the angle of spraying water mist is changed, meanwhile, when the spray head 2 rotates clockwise, the wedge-shaped plate 5 at the bottom of the spray head is close to the extended push rod 4 for a distance, the push rod 4 oppositely pushes the wedge-shaped plate 5 towards the outer side, the wedge-shaped plate 5 is an installation structure with a thin upper part and a thick lower part shown in the figure 1, the amplitude of the pushing wedge-shaped plate 5 is larger, the installation elevation angle of the spray head 2 is further increased, downward feeding of the screw rod 8 is realized, the installation elevation angle of the spray head 2 is cooperatively changed from two aspects, and the angle adjustment is sensitive and rapid. When the screw 8 is withdrawn outward, on the contrary, under the elastic restoring force of the spring plate 15, the nozzle 2 rotates counterclockwise, that is, rotates downward, so that the elevation angle of the nozzle 2 is lowered. The elastic force of the spring plate 15 and the conical spring 13 can promote the movement and the installation of the spray head 2 to be more stable. In particular, in the embodiment, the pressure-bearing spring 11 is mainly used for counteracting the reaction force of the spray head 2 during high-speed spraying, so as to realize the buffering and damping effects, the stiffness coefficient of the pressure-bearing spring 11 is selected according to specific requirements, so that the buffering and damping effects on the spray head 2 spraying water mist under high pressure can be realized, and the nearly rigid installation of the spray head 2 can be realized due to the extremely high stiffness coefficient, so that the use is flexible and reliable. As a special using method, the relation between the elasticity of the pressure spring 11 and the water mist sprayed by the spray head 2 is as follows: the reaction force generated by spraying water mist by the spray head 2 enables the end part of the driving rod 3 to extrude the pressure-bearing spring 11, and the pressure-bearing spring 11 intermittently extends and retracts in a reciprocating mode, so that the spray head 2 is in a front-back closing state within a certain angle range, the sprayed water mist is in a non-fixed path, and spraying dust removal within a denser range can be achieved.

For the above specific structure, the cross sections of the sliding groove 9 and the groove 10 are both T-shaped, the other end of the driving rod 3 is provided with a roller, a sliding plate 12 is further installed between the roller and the pressure-bearing spring 11, the structure of the sliding plate 12 can be made as shown in fig. 6, one side of the sliding plate 12 is in sliding fit in the sliding groove 9, the other end of the sliding plate extends out of the notch of the sliding groove 9, the roller is in pressing contact with the surface of one side of the sliding plate 12 located in the sliding groove 9, as shown in fig. 4, the vertex of the bottom end of the driving rod 3 is provided with a core column 302, the core column 302 is perpendicular to the length direction of the sliding groove 9, two ends of the core column 302 are respectively provided with a bearing 301, the two bearings 301 can roll on two opposite sides in the sliding groove 9 respectively, and the driving rod 3 can be moved well.

Secondly, as shown in fig. 2, the spring piece 15 is in a V-shaped structure, and the vertex of the V-shaped structure is rounded, so that the intersection of the two side plates of the spring piece 15 is in an arc-shaped sheet structure, and the thickness of the arc-shaped sheet structure is thinner than that of the rest part of the spring piece 15.

The lower surface of the push rod 4 in the embodiment is of a rack structure, a driven rack 16 with one end extending out of the bearing platform 1 is installed inside the bearing platform 1 below the push rod 4 in a sliding fit manner, the driven rack 16 is in transmission connection with the rack structure through a gear assembly 21, one end of the driven rack 16 extending out of the bearing platform 1 is connected with a pull rope 14, and the pull rope 14 is connected to the upper side of the back surface of the spray head 2 after bypassing a fixed pulley installed above the edge of the bearing platform 1, so that when the push rod 4 moves towards the outer side of the bearing platform 1, the driven rack 16 moves towards the inside of the bearing platform 1 to pull the spray head 2 to turn upwards, a third auxiliary function of rotating the spray head 2 upwards is formed, and the pitching adjustment of the spray head 2 is more rapid and timely; and also at least ensures that at least one of the pull cord 14 and push rod 4 assists in inverting the spray head 2, subject to extreme design size constraints.

In addition, the inner wall of the cylinder 6 is fixedly connected with a limiting block, and the limiting block limits the downward moving height of the piston plate 7. The piston plate 7 is in dynamic sealing fit with the inner wall of the cylinder 6, the top of the cylinder 6 is provided with an air inlet nozzle 28, and the air inlet nozzle 28 is connected with a compressed air source to realize pneumatic driving of the piston plate 7. In addition, supply on the barrel 6 lateral wall the hole that actuating lever 3 passed is rectangle strip hole, rectangle strip hole sets up along 6 direction of height of barrel, and all rectangle strip holes are arranged at 6 lateral walls of barrel annular array to when piston plate 7 moves down, the control volume of moving down can not be too big and damage actuating lever 3, still can not slide into the position at rectangle strip hole place simultaneously, cause the phenomenon of adopting gas leakage when atmospheric pressure promotes piston plate 7.

With continued reference to fig. 1, as a detailed implementation, the platform 1 is fixedly connected to a conical table 19, the bottom end of the conical table 19 is rotatably fitted to a platform 20, the bottom of the conical table 19 is fixedly connected to a gear ring 17 near the edge thereof, and the gear ring 17 is in mesh transmission with a driving gear 18 rotatably mounted on the platform 20. In the invention, the center of the end surface of the driving gear 18 is provided with a hexagonal blind hole which can be in socket fit with a rocking handle with a hexagonal cross section. The bottom end of the conical table 19 is provided with a sphere which is rotationally matched in the platform 20, and the arrangement is such that the hand crank is rotated when necessary, so that the conical table 19 is rotated to adjust the installation direction of the spray head 2, and the requirement of on-site dust removal is better met; of course, a special driving device can be arranged to drive the truncated cone to rotate, so that 360-degree rotary dust removal is realized.

When the spraying dust removal device is used, water can be firstly introduced into a temporary water storage tank 22, the platform 20 is fixedly installed on the temporary water storage tank 22, a plurality of water supply pipes are connected to the temporary water storage tank 22 and are respectively connected with the spray heads 2 in a one-to-one correspondence mode, and each water supply pipe is provided with a control valve 29, so that each pipe can be controlled independently, the spray heads 2 in certain positions or directions can be selectively closed or opened, and accurate spraying dust removal is achieved. In order to visually grasp the angle adjustment amount of the spray head 2, a rectangular groove is formed in the screw rod 8 along the length direction of the screw rod, a plurality of scale marks 27 are arranged at the bottom of the rectangular groove along the length direction of the rectangular groove, and the alignment positions of the scale marks 27 and the outer top surface of the barrel 6 are observed during rotation.

In order to realize the automatic adjustment of the screw 8, in the embodiment, as shown in fig. 5, a rectangular groove is formed on one side of the outer top surface of the cylinder 6 along the radial direction, the material of the rectangular groove is a sticky magnetic material, a rectangular electromagnet 23 is installed in the rectangular groove, the electromagnet 23 can move in the rectangular groove when the power is off, the top end of the electromagnet 23 is fixedly connected with a motor 24, a gear column 25 is installed on a main shaft of the motor 24, the gear column 25 is a gear with extremely thick thickness obtained by integrally processing a shaft, the overall structure of the gear column is similar to a spline shaft, and the gear column 25 is meshed with a cylindrical gear 26 installed on the screw 8, so that when the motor 24 rotates, the screw 8 can move in the vertical direction while rotating, which is why the gear column 25 with the spline shaft structure is made. When the automatic adjustment is needed, the motor 24 is started, the motor 24 is preferably a servo motor 24, if the spraying direction does not need to be adjusted frequently on site, and the dust removing direction is relatively stable, the power supply of the electromagnet 23 is switched off, the electromagnet 23 can be used as a sliding block and moved to the other side along the rectangular strip groove, so that the gear column 25 is separated from the cylindrical gear 26, and then the power supply of the electromagnet 23 is switched on, so that the motor 24 is fixedly arranged in a state that the gear column 25 is separated from the cylindrical gear 26.

To sum up, the screw 8 is rotated back and forth by the motor 24, and the bearing platform 1 is dynamically rotated under the action of the driving device, so that the three-dimensional and dynamic movement of the spray head 2 is realized, the spray head 2 can rotate and can continuously swing in a pitching manner to spray water and mist, the dust removal coverage is more flexible and changeable, and the effect is better.

It should be noted that, in the present invention, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Therefore, it should be understood by those skilled in the art that any modification and equivalent replacement of the embodiments disclosed herein without departing from the technical spirit of the present invention shall be included in the scope of the present invention.

Claims

1. The utility model provides an environmental protection is with mine dust collecting equipment, is including the shower nozzle that is used for spraying water smoke and being used for the installation the support of shower nozzle, its characterized in that: the support comprises a circular bearing platform which is rotatably arranged, a plurality of sliding grooves are formed in the upper surface of the bearing platform, each sliding groove is arranged along the radial direction of the bearing platform, all the sliding grooves are arranged on the bearing platform in an annular array mode, a push rod is horizontally arranged on one side in each sliding groove in a sliding mode, one end of each push rod extends out of the bearing platform, the other end of each push rod is connected with the side wall of the top end of the bottom of a driving rod in a V-shaped structure, one end of each driving rod extends out of the outer side above the bearing platform and is hinged with the corresponding spray head, a spring leaf is clamped between each spray head and the corresponding driving rod, a certain included angle is kept between each spray head and the corresponding driving rod through the corresponding spring leaf, a wedge-shaped plate extending out of the back face of each spray head is fixedly connected to the back face of each spray head, and the surface of the thicker side of each wedge-shaped plate is in contact with one end of each push rod;

2. The environment-friendly mine dust removal equipment as recited in claim 1, wherein: the cross sections of the sliding groove and the groove are T-shaped, the roller is installed at the other end of the driving rod, the sliding plate is further installed between the roller and the pressure-bearing spring, one side of the sliding plate is in sliding fit in the sliding groove, the other end of the sliding plate extends out of a groove opening of the sliding groove, and the roller is in surface extrusion contact with one side of the sliding plate, which is located in the sliding groove.

3. The environment-friendly mine dust removal equipment as recited in claim 1, wherein: the top of the bottom end of the driving rod is provided with a core column, the core column is vertical to the length direction of the sliding groove, two ends of the core column are respectively provided with a bearing, and the two bearings can roll on two opposite sides in the sliding groove respectively.

4. The environment-friendly mine dedusting apparatus as set forth in claim 1, wherein: the spring piece is of a V-shaped structure, and the top point of the V-shaped structure is subjected to chamfering treatment, so that the intersection of two side plates of the spring piece is of an arc-shaped sheet structure, and the thickness of the arc-shaped sheet structure is thinner than that of the rest part of the spring piece.

5. The environment-friendly mine dust removal equipment as recited in claim 1, wherein: the lower surface of the push rod is of a rack structure, a driven rack with one end extending out of the bearing platform is installed inside the bearing platform below the push rod in a sliding fit mode, the driven rack is connected with the rack structure through a gear assembly in a transmission mode, one end of the driven rack extending out of the bearing platform is connected with a pull rope, the pull rope is connected to the upper portion of the edge of the bearing platform after a fixed pulley installed above the edge of the bearing platform is wound on the pull rope, and therefore when the push rod moves towards the outer side of the bearing platform, the driven rack moves towards the inside of the bearing platform and pulls the nozzle to turn upwards.

6. The environment-friendly mine dust removal equipment as recited in claim 1, wherein: the inner wall of the cylinder body is further fixedly connected with a limiting block, and the limiting block limits the moving-down height of the piston plate.

7. The environment-friendly mine dust removal equipment as recited in claim 1, wherein: the hole that supplies on the barrel lateral wall the actuating lever passes is rectangle strip hole, rectangle strip hole sets up along the barrel direction of height, and all rectangle strip holes are arranged at barrel lateral wall annular array.

8. The environment-friendly mine dust removal equipment as recited in claim 1, wherein: the bearing platform is fixedly connected to a conical platform, the bottom end of the conical platform is installed on a platform in a rotating fit mode, a gear ring is fixedly connected to the bottom of the conical platform close to the edge of the conical platform, and the gear ring is in meshing transmission with a driving gear installed on the platform in a rotating mode.

9. The environment-friendly mine dust removal equipment as recited in claim 8, wherein: the center of the end face of the driving gear is provided with a hexagonal blind hole, and the hexagonal blind hole can be in socket fit with a rocking handle with a hexagonal cross section.

10. The environment-friendly mine dust removal equipment as recited in claim 8, wherein: the bottom end of the conical table has a sphere that fits rotationally within the platform.