CN116044481A - Mine cooling monitoring device and monitoring method - Google Patents

Abstract

The invention belongs to the technical field of mine monitoring, in particular to a mine cooling monitoring device and a monitoring method, wherein the mine is generally cooled by a cooling air cooler so as to achieve the cooling effect; the cooling air cooler comprises a bottom plate, wherein a cooling air cooler is arranged on the bottom plate, a placement box is arranged on the top surface of the cooling air cooler, a telescopic control column is arranged on one surface of the placement box far away from the bottom plate, a placement plate is arranged at the output end of the telescopic control column, and the placement plate is connected with a power wheel through a tilting and buffering unit; the power wheel is connected with the lifting inclined plate, and the side surface of the lifting inclined plate is provided with the power-assisted transverse plate, so that dust and dust on the air outlet of the cooling air cooler are clear, and the cooling efficiency in a mine is improved.

Description

Mine cooling monitoring device and monitoring method

Technical Field

The invention belongs to the technical field of mine monitoring, and particularly relates to a mine cooling monitoring device and a mine cooling monitoring method.

Background

The mine is a generic term for forming a roadway, a chamber, equipment, a ground building and a structure of an underground coal mine production system; inclined shafts, vertical shafts, galleries and the like in underground mine development are sometimes also called mines; the determination of the size of the well Tian Fanwei, the production capacity and service life of each well is one of the key issues that must be addressed in the design of the well itself.

In the ground at certain positions, the temperature is higher than the normal temperature due to the existence of geothermal heat, the construction difficulty in a mine tunnel is increased by high temperature, the working efficiency is further reduced, the cooling treatment is generally carried out in a mine through a cooling air cooler, the cooling effect is further achieved, the cooling air cooler is used in the mine due to the fact that a plurality of dust or dust exists around the mine, and the air outlet of the cooling air cooler is blocked for a long time, so that the cooling efficiency is influenced, and the working efficiency is influenced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a mine cooling monitoring device and a mine cooling monitoring method, which effectively solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the mine cooling monitoring device comprises a bottom plate, wherein a cooling air cooler is arranged on the bottom plate, a placement box is arranged on the top surface of the cooling air cooler, a telescopic control column is arranged on one surface of the placement box far away from the bottom plate, a placement plate is arranged at the output end of the telescopic control column, and the placement plate is connected with a power wheel through an oblique movement relieving unit; the power wheel is connected with the lifting sloping plate, a power-assisted transverse plate is arranged on the side face of the lifting sloping plate, a limiting block is arranged on one side, close to the bottom plate, of the power-assisted transverse plate, the limiting block is in limiting connection with a limiting groove arranged on the placement box, a limiting column is arranged on the limiting groove, and two ends of the limiting column are connected with the inner side face of the limiting groove; a limiting spring is sleeved on the limiting post, one end of the limiting spring is connected with the inner side surface of the limiting groove, and the other end of the limiting spring is connected with the side surface of the limiting block; and one side of the power-assisted transverse plate is provided with a limiting U block, the limiting U block is in limiting connection with a limiting groove arranged on the side surface of the placement box, and the other side of the power-assisted transverse plate is connected with a driving force conversion mechanism.

Preferably, the driving force conversion mechanism comprises a fixed rack arranged on the side surface of the placement box, the fixed rack is meshed with a rotary gear, a rotary rotating shaft is arranged on the rotary gear, the rotary rotating shaft penetrates through a rotary base arranged on the side surface of the power-assisted transverse plate and is connected with a driving gear, the driving gear is connected with a driven gear through a connecting toothed chain, a driving rotating shaft is arranged on the driven gear, one end of the driving rotating shaft is connected with the top surface of the power-assisted transverse plate, the other end of the driving rotating shaft is connected with a driving pulley, and the driving pulley is connected with a driven pulley through a connecting conveyor belt; and a bolt moving seat is arranged on the side surface of the power-assisted transverse plate and is connected with the plate passing cleaning assembly.

Preferably, a driven rotating shaft is arranged on the driven pulley, the driven rotating shaft penetrates through a first bearing arranged on the power-assisted transverse plate to be connected with the connecting gear, a driving base is arranged on the driven rotating shaft, and the side face of the driving base is connected with the side face of the threaded sleeve box; the connecting gear is connected with the meshing gear through a driven toothed chain, a driving threaded shaft is arranged on the meshing gear, and two ends of the driving threaded shaft are connected with the inner side surface of the threaded sleeve box; the driving threaded shaft is provided with a threaded moving block, two sides of the threaded moving block are provided with braking blocks, the braking blocks are in limiting connection with grooves formed in the inner side face of the threaded sleeve box, the braking blocks are provided with guide rods, two ends of each guide rod are connected with two sides of each groove, each guide rod is sleeved with an extrusion spring, one end of each extrusion spring is connected with one side face of each groove, and the other end of each extrusion spring is connected with one side face of each braking block; the side of the thread moving block, which is far away from the thread sleeve box, is provided with a stress application extension plate, and one side of the stress application extension plate, which is close to the telescopic control column, is connected with the linkage flight control unit.

Preferably, the oblique movement relieving unit comprises a connecting rotating shaft connected with the power wheel, clamping plates are arranged at two ends of the connecting rotating shaft, a splicing plate is arranged at one side of the clamping plates, which is far away from the bottom plate, a connecting square column is arranged on the top surface of the splicing plate, and a limiting square plate is arranged at one end of the connecting square column, which is far away from the bottom plate; the connecting square column is sleeved with a connecting spring, one end of the connecting spring is connected with the top surface of the split plate, the other end of the connecting spring is connected with the bottom surface of the pulling plate, a bearing column is arranged on one side, far away from the placing box, of the pulling plate, one end, far away from the bottom plate, of the bearing column penetrates through the placing plate and is connected with the lifting plate, a lifting spring is sleeved on the bearing column, one end of the lifting spring is connected with the top surface of the placing plate, and the other end of the lifting spring is connected with the bottom surface of the lifting plate; and a pull ring is arranged on the top surface of the lifting plate through a bolt.

Preferably, the clear subassembly of moving of board that crosses includes the stay cord that sets up on the bolt moves the seat, and the one end that the stay cord is close to the bottom plate is connected with the take-up pulley and is set up, installs the take-up pivot on the take-up pulley, and the take-up pivot passes the second bearing on the afterburning extension board and is connected with the atress motor and set up, and the bottom surface of atress motor is connected with the bedplate that is equipped with on the afterburning extension board side and is set up, install the clear gear in the take-up pivot, clear gear engagement connects the safety gear, installs clear pivot on the safety gear, and clear one end of moving the pivot is connected with the third bearing on the afterburning extension board side and is set up, and the other end is connected with drive bevel gear and is set up.

Preferably, the moving flight control unit comprises a positioning column arranged on the stress application extension plate, two ends of the positioning column are connected with the inner side surface of the positioning sleeve box, a positioning spring is sleeved on the positioning column, one end of the positioning spring is connected with the inner side surface of the positioning sleeve box, the bottom surface of the other end of the stress application extension plate is connected with the positioning sleeve box, a through groove is formed in the side surface of the positioning sleeve box, L blocks arranged on the side surface of the stress application extension plate penetrate through the through groove and are connected with a movable rack, the movable rack is meshed with and connected with a large disc gear, a basic rotating shaft is arranged on the side surface of the large disc gear, a basic base is arranged on the basic rotating shaft, one side, close to a bottom plate, of the basic base is connected with the top surface of the connecting plate, and the connecting plate is connected with the side surface of the cooling air cooler.

Preferably, the driving bevel gear is meshed with the full-motion bevel gear, the full-motion bevel gear is provided with a full-motion rotating shaft, the full-motion rotating shaft is connected with a driving pulley through a fourth bearing arranged on an auxiliary base on the stress application extension plate, the driving pulley is connected with the motion pulley through a driving conveyor belt, the motion pulley is provided with a motion rotating shaft, one end, close to the bottom plate, of the motion rotating shaft is connected with a fifth bearing on the stress application extension plate, the motion rotating shaft is provided with a driving bevel gear, the driving bevel gear is meshed with the motion bevel gear, and the motion bevel gear is provided with the driving rotating shaft.

Preferably, the driving rotating shaft passes through the driving base arranged on the stress application extension plate and is connected with the driving gear, the driving gear is in meshed connection with the first gear, the first gear is in meshed connection with the second gear, the first gear and the second gear are respectively provided with a first rotating shaft and a second rotating shaft, two ends of the first rotating shaft and the second rotating shaft are connected with a sixth bearing and a seventh bearing on the auxiliary plate arranged on the side surface of the stress application extension plate, and the first rotating shaft and the second rotating shaft are respectively provided with a forward cleaning brush and a reverse cleaning brush.

Preferably, the large disc gear is meshed with the accelerating gear, the accelerating gear is provided with an accelerating rotating shaft, the accelerating rotating shaft penetrates through a speed base arranged on the top surface of the connecting plate and is connected with a safety bevel gear, the safety bevel gear is meshed with a stabilizing bevel gear, the stabilizing rotating shaft is arranged on the stabilizing bevel gear and is connected with the connecting plate, a stabilizing pulley is arranged on the stabilizing rotating shaft and is connected with the full-movable pulley through a stabilizing belt, a transmission rotating shaft is arranged on the full-movable pulley, the top end of the transmission rotating shaft is provided with a first pulley, the first pulley is connected with a second pulley through a transmission belt, the second pulley is provided with a connecting rotating shaft, and two ends of the connecting rotating shaft and the transmission rotating shaft are connected with a transmission base arranged on the side surface of the cooling air cooler; the connecting rotating shaft and the transmission rotating shaft are provided with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is provided with a pneumatic rotating shaft, and the pneumatic rotating shaft penetrates through a pneumatic base arranged on the side face of the cooling air cooler to be connected with fan blades.

The invention also provides a mine cooling monitoring method, which comprises the following steps:

when the cooling air cooler is in use, the telescopic control column is started to descend, the placing plate on the output end of the telescopic control column is driven to descend, and then the power wheel is rotated to drive the limiting block on the lifting sloping plate to move in the limiting column on the limiting groove in a limiting mode, and the limiting spring is in a compressed state;

step two, the power-assisted transverse plate drives a rotary gear meshed with the fixed rack to rotate when moving, so that the connecting gear drives the meshing gear to rotate through a driven toothed chain, the threaded shaft is driven to rotate and simultaneously drives the threaded moving block to move downwards, and meanwhile, the threaded moving block descends and simultaneously drives the take-up pulley to rotate through a pull rope fixed on a bolt moving seat on the side surface of the power-assisted transverse plate so as to drive the take-up rotating shaft to rotate;

step three, enabling a driving gear on a driving rotating shaft to rotate, enabling the driving gear to be meshed with a first gear to rotate, enabling the first gear to be meshed with a second gear to rotate, enabling a forward cleaning brush and a reverse cleaning brush on the first gear and the second gear to move oppositely, and cleaning a filter plate on an air outlet of a cooling air cooler;

step four, the stress application extension plate drives the movable racks on the L blocks to move when descending, so that the large disc gear meshed with the movable racks rotates, the large disc gear is meshed with the accelerating gear to rotate, and the accelerating gear is enabled to rotate rapidly through different settings; make connect pivot and epaxial first bevel gear of transmission rotate, drive engaged with second bevel gear and rotate then, make the flabellum fast rotation through pneumatic pivot, through the flabellum of setting in opposite directions simultaneously in opposite directions rotate for through the cooperation with forward cleaning brush and reverse cleaning brush, the dust that blows off it.

Compared with the prior art, the invention has the beneficial effects that:

(1) The movable racks on the L blocks are driven to move when the stress-adding extension plates descend, then the large disk gears meshed with the movable racks rotate, the large disk gears are meshed with the accelerating gears to rotate, the accelerating gears rotate rapidly through different settings, the accelerating rotating shafts on the accelerating gears drive the stabilizing pulleys to rotate, the first pulleys on the transmission rotating shafts drive the second pulleys to rotate through the transmission belt, the connecting rotating shafts and the six first bevel gears on the transmission rotating shafts rotate, then the meshed second bevel gears are driven to rotate, the fan blades rotate rapidly through the pneumatic rotating shafts, the six groups of fan blades arranged in opposite directions rotate in opposite directions at the same time, dust cleaned by the fan blades are blown away through cooperation of the positive cleaning brushes and the reverse cleaning brushes, the air outlet of the cooling air cooler is not adhered any more, and the cooling efficiency of the cooling air cooler is improved while the dust removal efficiency is improved;

(2) The power-assisted transverse plate enables a rotating gear meshed with the fixed rack to rotate when moving, the connecting gear drives the meshing gear to rotate through the driven toothed chain, the threaded shaft is driven to rotate and simultaneously drives the threaded moving block to move downwards, the brake blocks on two sides of the threaded moving block move in a limiting mode through the guide rods in the grooves, the extrusion springs are in a compressed state to enable movement to be stable, meanwhile, the threaded moving block descends and simultaneously drives the take-up pulley to rotate through a pull rope fixed on a bolt moving seat on the side face of the power-assisted transverse plate to drive the take-up rotating shaft to rotate, at the moment, the stressed motor is in a closed state and then rotates, the full-motion bevel gear rotates and then drives the meshing rotating shaft on the meshing pulley through the driving pulley to rotate, the driving gear on the driving rotating shaft rotates, the driving gear meshes with the first gear to rotate, and the first gear meshes with the second gear to rotate, so that a forward cleaning brush and a reverse cleaning brush on the first gear and the second gear move reversely, and clean a filter plate on an air outlet of the cooling air cooler, so that the cooling efficiency of a cooling air cooler in a cooling mine is improved;

(3) When the cooling air cooler is used, the telescopic control column is started to descend, the placing plate on the output end of the telescopic control column is driven to descend, then the power wheel is rotated to drive the limiting block on the lifting sloping plate to move in the limiting column on the limiting groove in a limiting mode when the power wheel moves downwards, and the limiting spring is in a compressed state, so that the movement of the limiting spring is stable;

(4) Through upward pulling pull ring, the pull ring moves through rising the pulling plate on the moving post of moving plate and then drive for rise and move the spring and be in tensile state, and then make the connecting spring on the pulling plate be in tensile state, and then supplementary flexible control post reset rise, make the power wheel move steadily on lifting the swash plate.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

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

FIG. 2 is a schematic view of a portion of the structure of the present invention;

FIG. 3 is a second schematic diagram of the overall structure of the present invention;

FIG. 4 is a schematic view of the structure of the reclining unit of the present invention;

FIG. 5 is a schematic diagram of a portion of a second embodiment of the present invention;

FIG. 6 is a schematic view of a partial enlarged structure at A in the present invention;

FIG. 7 is a third schematic view of a portion of the structure of the present invention;

FIG. 8 is a schematic diagram of a portion of the structure of the present invention;

FIG. 9 is a schematic view of a partially enlarged structure at B in the present invention;

FIG. 10 is a schematic diagram of a portion of the structure of the present invention;

in the figure: 1. a bottom plate; 2. cooling the air cooler; 3. placing a box; 4. a telescoping control column; 5. placing a plate; 6. a power wheel; 7. lifting the sloping plate; 8. a power-assisted transverse plate; 9. a limiting block; 10. a limit groove; 11. a limit column; 12. a limit spring; 13. a stop U block; 14. a stopper groove; 15. a fixed rack; 16. a rotary gear; 17. rotating the rotating shaft; 18. rotating the base; 19. a drive gear; 20. connecting a toothed chain; 21. a driven gear; 22. a driving rotating shaft; 23. a driving pulley; 24. connecting a conveyor belt; 25. a driven pulley; 26. a bolt moving seat; 27. a driven rotating shaft; 28. a first bearing; 29. a connecting gear; 30. an active base; 31. a threaded sleeve; 32. a driven toothed chain; 33. a meshing gear; 34. driving a threaded shaft; 35. a thread moving block; 36. a brake block; 37. slotting; 38. a guide rod; 39. extruding a spring; 40. a stress application extension plate; 41. a loading rotating shaft; 42. a clamping plate; 43. splicing plates; 44. connecting square columns; 45. limiting the square plate; 46. a connecting spring; 47. pulling the plate; 48. a bearing column; 49. a lifting plate; 50. a lifting spring; 51. a pull ring; 52. a pull rope; 53. a wire winding wheel; 54. a wire-collecting rotating shaft; 55. a second bearing; 56. a force-bearing motor; 57. a seat plate; 58. a cleaning gear; 59. a safety gear; 60. the rotating shaft is cleared; 61. a third bearing; 62. driving a bevel gear; 63. positioning columns; 64. positioning a sleeve box; 65. a positioning spring; 66. a through groove; 67. l blocks; 68. moving the rack; 69. a large disc gear; 70. a base rotating shaft; 71. a base; 72. a connecting plate; 73. full-motion bevel gears; 74. a full-motion rotating shaft; 75. an auxiliary base; 76. a fourth bearing; 77. a drive pulley; 78. driving the conveyor belt; 79. a movable pulley; 80. a connecting shaft; 81. a fifth bearing; 82. a driving bevel gear; 83. a bevel gear is engaged; 84. driving the rotating shaft; 85. a drive base; 86. a drive gear; 87. a first gear; 88. a second gear; 89. a first rotating shaft; 90. a second rotating shaft; 91. an auxiliary plate; 92. a sixth bearing; 93. seven bearings; 94. a forward cleaning brush; 95. a reverse cleaning brush; 96. an acceleration gear; 97. accelerating the rotating shaft; 98. a speed base; 99. a safety bevel gear; 100. stabilizing the bevel gear; 101. stabilizing the rotating shaft; 102. a stabilizing pulley; 103. a stabilizing belt; 104. a full movable pulley; 105. a transmission rotating shaft; 106. a first pulley; 107. a drive belt; 108. a second pulley; 109. the connecting rotating shaft; 110. a transmission base; 111. a first bevel gear; 112. a second bevel gear; 113. a pneumatic rotating shaft; 114. a pneumatic base; 115. and (3) a fan blade.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The first embodiment is shown in fig. 1 to 10, the invention comprises a bottom plate 1, a cooling air cooler 2 is arranged on the bottom plate 1, a placement box 3 is arranged on the top surface of the cooling air cooler 2, a telescopic control column 4 is arranged on one surface of the placement box 3 far away from the bottom plate 1, a placement plate 5 is arranged at the output end of the telescopic control column 4, and the placement plate 5 is connected with a power wheel 6 through a tilting buffer unit; the power wheel 6 is connected with the lifting inclined plate 7, a power-assisted transverse plate 8 is arranged on the side face of the lifting inclined plate 7, a limiting block 9 is arranged on one side, close to the bottom plate 1, of the power-assisted transverse plate 8, the limiting block 9 is in limiting connection with a limiting groove 10 arranged on the placement box 3, a limiting column 11 is arranged on the limiting groove 10, and two ends of the limiting column 11 are connected with the inner side face of the limiting groove 10; a limit spring 12 is sleeved on the limit post 11, one end of the limit spring 12 is connected with the inner side surface of the limit groove 10, and the other end of the limit spring is connected with the side surface of the limit block 9; a limiting U block 13 is arranged on one side of the power-assisted transverse plate 8, the limiting U block 13 is in limiting connection with a limiting groove 14 arranged on the side surface of the placement box 3, and the other side of the power-assisted transverse plate is connected with a driving force conversion mechanism;

when the cooling air cooler 2 is in use, the telescopic control column 4 is started to descend, the placing plate 5 on the output end of the telescopic control column 4 is driven to descend, then the power wheel 6 is rotated to drive the limiting block 9 on the lifting inclined plate 7 to move in the limiting column 11 on the limiting groove 10 in a limiting mode, and the limiting spring 12 is in a compressed state, so that the movement of the limiting spring is stable.

The driving force conversion mechanism of the embodiment comprises a fixed rack 15 arranged on the side surface of the placement box 3, the fixed rack 15 is in meshed connection with a rotary gear 16, a rotary rotating shaft 17 is arranged on the rotary gear 16, the rotary rotating shaft 17 is connected with a driving gear 19 through a rotary base 18 arranged on the side surface of the power-assisted transverse plate 8, the driving gear 19 is connected with a driven gear 21 through a connecting toothed chain 20, a driving rotating shaft 22 is arranged on the driven gear 21, one end of the driving rotating shaft 22 is connected with the top surface of the power-assisted transverse plate 8, the other end of the driving rotating shaft is connected with a driving pulley 23, and the driving pulley 23 is connected with a driven pulley 25 through a connecting conveying belt 24; a bolt moving seat 26 is arranged on the side surface of the power-assisted transverse plate 8, and the bolt moving seat 26 is connected with the plate passing cleaning assembly; the driven pulley 25 is provided with a driven rotating shaft 27, the driven rotating shaft 27 passes through a first bearing 28 arranged on the power-assisted transverse plate 8 and is connected with a connecting gear 29, the driven rotating shaft 27 is provided with a driving base 30, and the side surface of the driving base 30 is connected with the side surface of a threaded sleeve box 31; the connecting gear 29 is connected with a meshing gear 33 through a driven toothed chain 32, a driving threaded shaft 34 is arranged on the meshing gear 33, and two ends of the driving threaded shaft 34 are connected with the inner side surface of the threaded sleeve 31; the driving threaded shaft 34 is provided with a threaded moving block 35, two sides of the threaded moving block 35 are provided with a brake block 36, the brake block 36 is in limit connection with a slot 37 arranged on the inner side surface of the threaded sleeve 31, the brake block 36 is provided with a guide rod 38, two ends of the guide rod 38 are connected with two sides of the slot 37, the guide rod 38 is sleeved with an extrusion spring 39, one end of the extrusion spring 39 is connected with the side surface of the slot 37, and the other end of the extrusion spring 39 is connected with the side surface of the brake block 36; a stress extension plate 40 is arranged on one side of the thread moving block 35 far away from the thread sleeve box 31, and one side of the stress extension plate 40 close to the telescopic control column 4 is connected with the engagement flight control unit; the plate passing and cleaning assembly comprises a pull rope 52 arranged on a bolt moving seat 26, one end of the pull rope 52, which is close to a bottom plate 1, is connected with a wire collecting wheel 53, a wire collecting rotating shaft 54 is arranged on the wire collecting wheel 53, the wire collecting rotating shaft 54 penetrates through a second bearing 55 on a stress extension plate 40 to be connected with a stress motor 56, the bottom surface of the stress motor 56 is connected with a seat plate 57 arranged on the side surface of the stress extension plate 40, a cleaning gear 58 is arranged on the wire collecting rotating shaft 54, the cleaning gear 58 is meshed with a safety gear 59, a cleaning rotating shaft 60 is arranged on the safety gear 59, one end of the cleaning rotating shaft 60 is connected with a third bearing 61 on the side surface of the stress extension plate 40, and the other end of the cleaning rotating shaft 60 is connected with a driving bevel gear 62; the drive bevel gear 62 is in meshed connection with the full-motion bevel gear 73, the full-motion bevel gear 73 is provided with a full-motion rotating shaft 74, the full-motion rotating shaft 74 passes through a fourth bearing 76 arranged on an auxiliary base 75 on the stress application extension plate 40 to be connected with a drive pulley 77, the drive pulley 77 is connected with a connecting pulley 79 through a drive conveying belt 78, the connecting pulley 79 is provided with a connecting rotating shaft 80, one end, close to the bottom plate 1, of the connecting rotating shaft 80 is connected with a fifth bearing 81 on the stress application extension plate 40, the connecting rotating shaft 80 is provided with a drive bevel gear 82, the drive bevel gear 82 is in meshed connection with a connecting bevel gear 83, and the connecting bevel gear 83 is provided with a drive rotating shaft 84; the driving rotating shaft 84 is connected with the driving gear 86 by penetrating through the driving base 85 arranged on the stress application extension plate 40, the driving gear 86 is in meshed connection with the first gear 87, the first gear 87 is in meshed connection with the second gear 88, the first rotating shaft 89 and the second rotating shaft 90 are respectively arranged on the first gear 87 and the second gear 88, two ends of the first rotating shaft 89 and the second rotating shaft 90 are connected with a sixth bearing 92 and a seventh bearing 93 on an auxiliary plate 91 arranged on the side surface of the stress application extension plate 40, and a forward cleaning brush 94 and a reverse cleaning brush 95 are respectively arranged on the first rotating shaft 89 and the second rotating shaft 90;

the booster diaphragm 8 rotates the rotary gear 16 meshed with the fixed rack 15 when moving, the connecting gear 29 drives the meshing gear 33 to rotate through the driven toothed chain 32, the threaded shaft 34 is driven to rotate and simultaneously drives the threaded moving block 35 to move downwards, the guide rods 38 on the two sides of the threaded moving block 35 are limited to move by the brake blocks 36 in the grooves 37, the extrusion springs 39 are in a compressed state to enable the movement to be stable, meanwhile, the threaded moving block 35 descends and simultaneously drives the take-up pulley 53 to rotate and further drives the take-up shaft 54 to rotate through the pull rope 52 fixed on the bolt seat 26 on the side surface of the booster diaphragm 8, the stressed motor 56 is in a closed state at the moment and rotates along with the rotation, the rotation of the full-motion bevel gear 73 further drives the meshing shaft 80 on the meshing pulley 79 to rotate through the driving pulley 77, the driving gear 86 on the driving shaft 84 is meshed with the first gear 87 to rotate, the first gear 87 is meshed with the second gear 88 to rotate, and the forward brushes 94 and the reverse brushes 95 on the first gear 87 and the second gear 88 are in reverse movement, and the cooling efficiency of the cooling and cleaning efficiency of the cooling fan 2 are improved, and the cooling efficiency of the cooling fan 2 is improved; when the thread moving block 35 ascends, the stress motor 56 is started, so that the wire winding rotating shaft 54 on the stress motor 56 drives the wire winding wheel 53 to wind the pull rope 52 and simultaneously assist the stable movement of the thread moving block 35.

The oblique movement relieving unit of the embodiment comprises a connecting rotating shaft 41 connected with the power wheel 6, clamping plates 42 are arranged at two ends of the connecting rotating shaft 41, a splicing plate 43 is arranged at one side, far away from the bottom plate 1, of the clamping plates 42, a connecting square column 44 is arranged on the top surface of the splicing plate 43, and a limiting square plate 45 is arranged at one end, far away from the bottom plate 1, of the connecting square column 44; the connecting square column 44 is sleeved with a connecting spring 46, one end of the connecting spring 46 is connected with the top surface of the split plate 43, the other end of the connecting spring 46 is connected with the bottom surface of the pulling plate 47, one side, far away from the placing box 3, of the pulling plate 47 is provided with a bearing column 48, one end, far away from the bottom plate 1, of the bearing column 48 penetrates through the placing plate 5 and is connected with a lifting plate 49, the bearing column 48 is sleeved with a lifting spring 50, one end of the lifting spring 50 is connected with the top surface of the placing plate 5, and the other end of the lifting spring 50 is connected with the bottom surface of the lifting plate 49; a pull ring 51 is mounted on the top surface of the lifting plate 49 through bolts;

by pulling the pull ring 51 upwards, the pull ring 51 drives the pulling plate 47 on the bearing post 48 to move through the lifting plate 49, so that the lifting spring 50 is in a stretching state, the connecting spring 46 on the pulling plate 47 is in a stretching state, and the resetting and lifting of the telescopic control post 4 are assisted, so that the power wheel 6 moves stably on the lifting inclined plate 7.

The moving flight control unit of the embodiment comprises a positioning column 63 arranged on a stress application extension plate 40, wherein two ends of the positioning column 63 are connected with the inner side surface of a positioning sleeve box 64, a positioning spring 65 is sleeved on the positioning column 63, one end of the positioning spring 65 is connected with the inner side surface of the positioning sleeve box 64, the bottom surface of the other end of the stress application extension plate 40 is connected with the positioning sleeve box 64, a through groove 66 is formed in the side surface of the positioning sleeve box 64, an L block 67 arranged on the side surface of the stress application extension plate 40 penetrates through the through groove 66 to be connected with a movable rack 68, the movable rack 68 is meshed with a large disc gear 69, a basic rotating shaft 70 is arranged on the side surface of the large disc gear 69, a basic base 71 is arranged on the basic rotating shaft 70, one side, close to a bottom plate 1, of the basic base 71 is connected with the top surface of a connecting plate 72, and the connecting plate 72 is connected with the side surface of a cooling air cooler 2; the large disc gear 69 is in meshed connection with the accelerating gear 96, the accelerating gear 96 is provided with an accelerating rotating shaft 97, the accelerating rotating shaft 97 passes through a speed base 98 arranged on the top surface of the connecting plate 72 and is connected with a safety bevel gear 99, the safety bevel gear 99 is in meshed connection with a stable bevel gear 100, the stable bevel gear 100 is provided with a stable rotating shaft 101, the stable rotating shaft 101 is connected with the connecting plate 72, the stable rotating shaft 101 is provided with a stable pulley 102, the stable pulley 102 is connected with a full movable pulley 104 through a stable belt 103, the full movable pulley 104 is provided with a transmission rotating shaft 105, the top end of the transmission rotating shaft 105 is provided with a first pulley 106, the first pulley 106 is connected with a second pulley 108 through a transmission belt 107, the second pulley 108 is provided with a connection rotating shaft 109, and two ends of the connection rotating shaft 109 and the transmission rotating shaft 105 are connected with a transmission base 110 arranged on the side surface of the cooling air cooler 2; a first bevel gear 111 is arranged on the connecting rotating shaft 109 and the transmission rotating shaft 105, the first bevel gear 111 is in meshed connection with a second bevel gear 112, a pneumatic rotating shaft 113 is arranged on the second bevel gear 112, and the pneumatic rotating shaft 113 is connected with fan blades 115 by penetrating through a pneumatic base 114 arranged on the side surface of the cooling air cooler 2;

the force-adding extension plate 40 drives the movable rack 68 on the L block 67 to move when descending, then, the large-disc gear 69 meshed with the movable rack 68 rotates, the large-disc gear 69 is meshed with the accelerating gear 96 to rotate, the accelerating gear 96 is enabled to rotate rapidly through different settings, then the accelerating rotating shaft 97 on the accelerating gear 96 drives the stabilizing pulley 102 to rotate, the first pulley 106 on the transmission rotating shaft 105 further drives the second pulley 108 to rotate through the transmission belt 107, the connecting rotating shaft 109 and the six first bevel gears 111 on the transmission rotating shaft 105 rotate, then the meshed second bevel gears 112 are driven to rotate, the fan blades 115 are enabled to rotate rapidly through the pneumatic rotating shaft 113, the six groups of fan blades 115 oppositely arranged are enabled to rotate simultaneously and oppositely, dust cleaned by the fan blades is blown away through the cooperation of the positive cleaning brush 94 and the reverse cleaning brush 95, the dust is not adhered to the air outlet of the cooling air cooler 2 any more, and the cooling efficiency of the cooling air cooler 2 is improved.

The invention also provides a mine cooling monitoring method, which comprises the following steps:

step one, when the cooling air cooler 2 is in use, the telescopic control column 4 is started to descend, the placing plate 5 on the output end of the telescopic control column 4 is driven to descend, then the power wheel 6 is rotated when moving downwards, the limiting block 9 on the lifting sloping plate 7 is driven to move in a limiting column 11 on the limiting groove 10 in a limiting mode, and the limiting spring 12 is in a compressed state;

step two, the power-assisted transverse plate 8 drives the rotary gear 16 meshed with the fixed rack 15 to rotate when moving, so that the connecting gear 29 drives the meshing gear 33 to rotate through the driven toothed chain 32, the threaded shaft 34 is driven to rotate and simultaneously drives the threaded moving block 35 to move downwards, and meanwhile, the threaded moving block 35 descends and simultaneously drives the take-up pulley 53 to rotate through the pull rope 52 fixed on the bolt seat 26 on the side surface of the power-assisted transverse plate 8 and further drives the take-up rotary shaft 54 to rotate;

step three, a driving gear 86 on a driving rotating shaft 84 is rotated, the driving gear 86 is meshed with a first gear 87 to rotate, the first gear 87 is meshed with a second gear 88 to rotate, so that a forward cleaning brush 94 and a reverse cleaning brush 95 on the first gear 87 and the second gear 88 are moved oppositely to clean a filter plate on an air outlet of the cooling air cooler 2;

step four, the force-adding extension plate 40 drives the movable rack 68 on the L-shaped block 67 to move when descending, so that the large disc gear 69 meshed with the movable rack 68 rotates, the large disc gear 69 is meshed with the accelerating gear 96 to rotate, and the accelerating gear 96 is rapidly rotated through different settings; the first bevel gear 111 on the connecting rotating shaft 109 and the transmission rotating shaft 105 is rotated, then the meshed second bevel gear 112 is driven to rotate, the fan blades 115 are enabled to rotate rapidly through the pneumatic rotating shaft 113, and the fan blades 115 arranged in opposite directions are enabled to rotate in opposite directions at the same time, and dust cleaned by the cleaning brush is blown off through cooperation with the forward cleaning brush 94 and the reverse cleaning brush 95.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, 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.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a mine cooling monitoring devices which characterized in that: the cooling air cooler comprises a bottom plate (1), wherein a cooling air cooler (2) is arranged on the bottom plate (1), a placement box (3) is arranged on the top surface of the cooling air cooler (2), a telescopic control column (4) is arranged on one surface, far away from the bottom plate (1), of the placement box (3), a placement plate (5) is arranged at the output end of the telescopic control column (4), and the placement plate (5) is connected with a power wheel (6) through a tilting and buffering unit; the power wheel (6) is connected with the lifting inclined plate (7), a power-assisted transverse plate (8) is arranged on the side face of the lifting inclined plate (7), a limiting block (9) is arranged on one side, close to the bottom plate (1), of the power-assisted transverse plate (8), the limiting block (9) is in limiting connection with a limiting groove (10) arranged on the placement box (3), a limiting column (11) is arranged on the limiting groove (10), and two ends of the limiting column (11) are connected with the inner side face of the limiting groove (10); a limiting spring (12) is sleeved on the limiting column (11), one end of the limiting spring (12) is connected with the inner side surface of the limiting groove (10), and the other end of the limiting spring is connected with the side surface of the limiting block (9); one side of the power-assisted transverse plate (8) is provided with a limiting U block (13), the limiting U block (13) is in limiting connection with a limiting groove (14) arranged on the side face of the placement box (3), and the other side of the power-assisted transverse plate is connected with a driving force conversion mechanism.

2. The mine cooling monitoring device of claim 1, wherein: the driving force conversion mechanism comprises a fixed rack (15) arranged on the side surface of the placement box (3), the fixed rack (15) is meshed with a rotary gear (16), a rotary rotating shaft (17) is arranged on the rotary gear (16), the rotary rotating shaft (17) penetrates through a rotary base (18) arranged on the side surface of the power-assisted transverse plate (8) to be connected with a driving gear (19), the driving gear (19) is connected with a driven gear (21) through a connecting toothed chain (20), a driving rotating shaft (22) is arranged on the driven gear (21), one end of the driving rotating shaft (22) is connected with the top surface of the power-assisted transverse plate (8), the other end of the driving rotating shaft is connected with a driving pulley (23), and the driving pulley (23) is connected with a driven pulley (25) through a connecting conveyor belt (24); the side of the power-assisted transverse plate (8) is provided with a bolt moving seat (26), and the bolt moving seat (26) is connected with the plate passing cleaning assembly.

3. A mine cooling monitoring device as claimed in claim 2, wherein: the driven pulley (25) is provided with a driven rotating shaft (27), the driven rotating shaft (27) passes through a first bearing (28) arranged on the power-assisted transverse plate (8) and is connected with a connecting gear (29), the driven rotating shaft (27) is provided with a driving base (30), and the side surface of the driving base (30) is connected with the side surface of the threaded sleeve box (31); the connecting gear (29) is connected with the meshing gear (33) through the driven toothed chain (32), a driving threaded shaft (34) is arranged on the meshing gear (33), and two ends of the driving threaded shaft (34) are connected with the inner side surface of the threaded sleeve box (31); the novel brake device is characterized in that a thread moving block (35) is arranged on the driving threaded shaft (34), brake blocks (36) are arranged on two sides of the thread moving block (35), the brake blocks (36) are in limit connection with grooves (37) formed in the inner side face of the thread sleeve (31), guide rods (38) are arranged on the brake blocks (36), two ends of each guide rod (38) are connected with two sides of each groove (37), an extrusion spring (39) is sleeved on each guide rod (38), one end of each extrusion spring (39) is connected with the side face of each groove (37), and the other end of each extrusion spring is connected with the side face of each brake block (36); the side of the thread moving block (35) far away from the thread sleeve box (31) is provided with a stress application extension plate (40), and one side of the stress application extension plate (40) close to the telescopic control column (4) is connected with the engagement flight control unit.

4. The mine cooling monitoring device of claim 1, wherein: the oblique movement relieving unit comprises a continuous loading rotating shaft (41) connected with the power wheel (6), clamping plates (42) are arranged at two ends of the continuous loading rotating shaft (41), a splicing plate (43) is arranged at one side, far away from the bottom plate (1), of the clamping plates (42), a connecting square column (44) is arranged on the top surface of the splicing plate (43), and a limiting square plate (45) is arranged at one end, far away from the bottom plate (1), of the connecting square column (44); the connecting square column (44) is sleeved with a connecting spring (46), one end of the connecting spring (46) is connected with the top surface of the split plate (43), the other end of the connecting spring is connected with the bottom surface of the pulling plate (47), one side, far away from the placing box (3), of the pulling plate (47) is provided with a bearing column (48), one end, far away from the bottom plate (1), of the bearing column (48) penetrates through the placing plate (5) and is connected with the lifting plate (49), the bearing column (48) is sleeved with a lifting spring (50), one end of the lifting spring (50) is connected with the top surface of the placing plate (5), and the other end of the lifting spring is connected with the bottom surface of the lifting plate (49); a pull ring (51) is mounted on the top surface of the lifting plate (49) through bolts.

5. A mine cooling monitoring device as claimed in claim 2, wherein: the plate passing and cleaning assembly comprises a pull rope (52) arranged on a bolt moving seat (26), one end of the pull rope (52) close to a bottom plate (1) is connected with a wire collecting wheel (53), a wire collecting rotating shaft (54) is arranged on the wire collecting wheel (53), the wire collecting rotating shaft (54) penetrates through a second bearing (55) on a stress extension plate (40) to be connected with a stress motor (56), the bottom surface of the stress motor (56) is connected with a seat plate (57) arranged on the side surface of the stress extension plate (40), a cleaning gear (58) is arranged on the wire collecting rotating shaft (54), a safety gear (59) is meshed with the cleaning gear, a cleaning rotating shaft (60) is arranged on the safety gear (59), one end of the cleaning rotating shaft (60) is connected with a third bearing (61) on the side surface of the stress extension plate (40), and the other end of the cleaning rotating shaft is connected with a driving bevel gear (62).

6. A mine cooling monitoring device as set forth in claim 3, wherein: the automatic control device comprises a connecting flight control unit, wherein the connecting flight control unit comprises a positioning column (63) arranged on a stress application extension plate (40), two ends of the positioning column (63) are connected with the inner side surface of a positioning sleeve box (64), a positioning spring (65) is sleeved on the positioning column (63), one end of the positioning spring (65) is connected with the inner side surface of the positioning sleeve box (64), the bottom surface of the other end of the stress application extension plate (40) is connected with a set, a through groove (66) is formed in the side surface of the positioning sleeve box (64), L blocks (67) arranged on the side surface of the stress application extension plate (40) penetrate through the through groove (66) to be connected with a movable rack (68), the movable rack (68) is meshed with a large-disc gear (69), a basic rotating shaft (70) is arranged on the side surface of the large-disc gear (69), one side, close to a base (71) of a base plate (1) is connected with the top surface of a connecting plate (72), and the connecting plate (72) is connected with the side surface of a cooling air cooler (2).

7. The mine cooling monitoring device of claim 5, wherein: the driving bevel gear (62) is connected with the full-motion bevel gear (73) in a meshed mode, the full-motion bevel gear (73) is provided with a full-motion rotating shaft (74), the full-motion rotating shaft (74) penetrates through a fourth bearing (76) arranged on an auxiliary base (75) on the stress application extension plate (40) to be connected with a driving pulley (77), the driving pulley (77) is connected with the driving pulley (79) through a driving conveying belt (78), the driving pulley (79) is provided with a driving rotating shaft (80), one end, close to a bottom plate (1), of the driving rotating shaft (80) is connected with a fifth bearing (81) on the stress application extension plate (40), the driving rotating shaft (80) is provided with a driving bevel gear (82), the driving bevel gear (82) is connected with a driving bevel gear (83) in a meshed mode, and the driving rotating shaft (84) is arranged on the driving bevel gear (83).

8. The mine cooling monitoring device of claim 7, wherein: the driving rotating shaft (84) passes through a driving base (85) arranged on the stress application extension plate (40) and is connected with a driving gear (86), the driving gear (86) is connected with a first gear (87) in a meshed manner, the first gear (87) is connected with a second gear (88) in a meshed manner, a first rotating shaft (89) and a second rotating shaft (90) are respectively arranged on the first gear (87) and the second gear (88), two ends of the first rotating shaft (89) and the second rotating shaft (90) are connected with a sixth bearing (92) and a seventh bearing (93) on an auxiliary plate (91) arranged on the side surface of the stress application extension plate (40), and a forward cleaning brush (94) and a reverse cleaning brush (95) are respectively arranged on the first rotating shaft (89) and the second rotating shaft (90).

9. The mine cooling monitoring device of claim 6, wherein: the large-disc gear (69) is meshed with the accelerating gear (96), the accelerating gear (96) is provided with an accelerating rotating shaft (97), the accelerating rotating shaft (97) penetrates through a speed base (98) arranged on the top surface of the connecting plate (72) and is connected with the safety bevel gear (99), the safety bevel gear (99) is meshed with the stabilizing bevel gear (100), the stabilizing bevel gear (100) is provided with a stabilizing rotating shaft (101), the stabilizing rotating shaft (101) is connected with the connecting plate (72), the stabilizing rotating shaft (101) is provided with a stabilizing pulley (102), the stabilizing pulley (102) is connected with the full-movable pulley (104) through a stabilizing belt (103), the full-movable pulley (104) is provided with a transmission rotating shaft (105), the top end of the transmission rotating shaft (105) is provided with a first pulley (106), the first pulley (106) is connected with a second pulley (108) through a transmission belt (107), the second pulley (108) is provided with a connecting rotating shaft (109), and two ends of the connecting rotating shaft (109) and the transmission rotating shaft (105) are connected with a transmission base (110) arranged on the side surface of the cold air cooler (2); a first bevel gear (111) is arranged on the connecting rotating shaft (109) and the transmission rotating shaft (105), a second bevel gear (112) is connected with the first bevel gear (111) in a meshed mode, a pneumatic rotating shaft (113) is arranged on the second bevel gear (112), and the pneumatic rotating shaft (113) penetrates through a pneumatic base (114) arranged on the side face of the cooling air cooler (2) to be connected with fan blades (115).

10. A mine cooling monitoring method comprising the mine cooling monitoring device of any one of claims 1-9, comprising the steps of:

step one, when the cooling air cooler (2) is used, the telescopic control column (4) is started to descend, the placing plate (5) on the output end of the telescopic control column (4) is driven to descend, then the power wheel (6) is rotated to drive the limiting block (9) on the lifting inclined plate (7) to limit and move in the limiting column (11) on the limiting groove (10), and the limiting spring (12) is in a compressed state;

step two, the power-assisted transverse plate (8) drives a rotary gear (16) meshed with the fixed rack (15) to rotate when moving, so that the connecting gear (29) drives the meshing gear (33) to rotate through the driven toothed chain (32), the threaded shaft (34) is driven to rotate and simultaneously drives the threaded moving block (35) to move downwards, and meanwhile, the threaded moving block (35) descends and simultaneously drives the take-up pulley (53) to rotate through a pull rope (52) fixed on a bolt moving seat (26) on the side surface of the power-assisted transverse plate (8) so as to drive the take-up rotary shaft (54) to rotate;

step three, enabling a driving gear (86) on a driving rotating shaft (84) to rotate, enabling the driving gear (86) to mesh with a first gear (87) to rotate, enabling the first gear (87) to mesh with a second gear (88) to rotate, enabling a forward cleaning brush (94) and a reverse cleaning brush (95) on the first gear (87) and the second gear (88) to move oppositely, and cleaning a filter plate on an air outlet of a cooling air cooler (2);

step four, the stress application extension plate (40) drives the movable racks (68) on the L blocks (67) to move when descending, so that the large disc gears (69) meshed with the movable racks (68) rotate, the large disc gears (69) meshed with the accelerating gears (96) rotate, and the accelerating gears (96) rotate rapidly through different settings; the first bevel gear (111) on the connecting rotating shaft (109) and the transmission rotating shaft (105) are enabled to rotate, then the meshed second bevel gear (112) is driven to rotate, the fan blades (115) are enabled to rotate rapidly through the pneumatic rotating shaft (113), and the fan blades (115) arranged in opposite directions rotate in opposite directions simultaneously, so that dust cleaned by the cleaning brush is blown away through cooperation with the forward cleaning brush (94) and the reverse cleaning brush (95).

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