CN117117658A - Power distribution cabinet for electrochemical energy storage power station - Google Patents

Abstract

The invention relates to the technical field of power distribution cabinets, in particular to a power distribution cabinet for an electrochemical energy storage power station, which comprises a cabinet body, wherein a fixed shell is fixedly connected to the inner wall of the cabinet body, an air hole is formed in the fixed shell, an air pump is fixedly connected to the top of the fixed shell, an air extraction pipe is arranged in the cabinet body, the air extraction pipe is connected with the air extraction end of the air extraction pump through a hose, a multi-position adjusting piece for driving the air extraction pipe to move is arranged in the cabinet body, an exhaust hood is fixedly connected to the exhaust end of the air extraction pump, two air pipes are arranged in the fixed shell, the bottom ends of the air pipes penetrate through the cabinet body, the air pipes are fixedly connected with the cabinet body, a sealing cover is arranged in the fixed shell, and the horizontal position of the bottom of the sealing cover is consistent with the horizontal position of the top of the air pipe; can be followed the internal discharge of cabinet to the dust impurity that is located the cabinet, avoid being located the external dust impurity of cabinet to enter into the cabinet simultaneously internal, reduce the dust of adhering to on the internal components and parts of cabinet, avoid increasing its consumption, be convenient for in-service use.

Description

Power distribution cabinet for electrochemical energy storage power station

Technical Field

The invention relates to the technical field of power distribution cabinets, in particular to a power distribution cabinet for an electrochemical energy storage power station.

Background

The electrochemical energy storage power station adopts the electrochemical cell as the energy storage component, can carry out electric energy storage, conversion and release's power station, the switch board that electrochemical energy storage power station used generally accelerates the inside air flow of switch board through the fan and dispels the heat to the inside switch board, among the prior art, chinese patent publication No. CN110071445a discloses the switch board, a plurality of fans rotate at a high speed in the switch board body and form annular heat dissipation vortex, the inside and external circulation of air of switch board body has been accelerated, wherein, external dust also enters into the switch board body easily, the dust can be attached to inside components and parts, increase its consumption, there is certain limitation.

Disclosure of Invention

In view of the above, the present invention aims to provide a power distribution cabinet for an electrochemical energy storage power station, so as to solve the problem that the external dust is easy to enter the power distribution cabinet body, and the dust can be attached to internal components to increase the power consumption.

Based on the above object, the invention provides a power distribution cabinet for an electrochemical energy storage power station, which comprises a cabinet body, wherein a fixed shell is fixedly connected to the inner wall of the cabinet body, an air vent is formed in the fixed shell, an air pump is fixedly connected to the top of the fixed shell, an air exhaust pipe is arranged in the cabinet body, the air exhaust pipe is connected with the air exhaust end of the air exhaust pipe through a hose, a multi-position adjusting piece for driving the air exhaust pipe to move is arranged in the cabinet body, an exhaust hood is fixedly connected to the air exhaust end of the air exhaust pipe, two air pipes are arranged in the fixed shell, the bottom end of each air pipe penetrates through the cabinet body, the air pipes are fixedly connected with the cabinet body, a sealing cover is arranged in the fixed shell, the bottom horizontal position of each sealing cover is consistent with the top horizontal position of each air pipe, a connecting pipe is fixedly connected to the sealing cover, one end of each connecting pipe, which is far away from each sealing cover, a bearing is arranged at the connecting position of each connecting pipe and each air exhaust cover, a first motor which is arranged in the fixed shell is fixedly connected to the inner wall of the cabinet body, the output end of each first motor is fixedly connected with a rotating shaft, the rotating shaft and the rotating shaft is connected with the sealing cover through a first connecting column, a filter screen is arranged in the air pipe, a dust-proof reciprocating turnover assembly is arranged in the air pipe, and a dust-proof pressing assembly is arranged on the air pipe;

the pressing reciprocating overturning assembly comprises baffle plates arranged at the top and the bottom of the dustproof filter screen respectively, the baffle plates are connected with an air pipe through guide pieces, the dustproof filter screen is fixedly connected with a first rotating shaft, one end of the first rotating shaft, which is far away from the dustproof filter screen, penetrates through the air pipe, the air pipe is fixedly connected with a fixed sleeve sleeved outside the first rotating shaft, a bearing is arranged at the joint of the first rotating shaft and the fixed sleeve, a first fixing plate is arranged on one side of the air pipe, the bottom of the first fixing plate is fixedly connected with a first supporting plate, a second rotating shaft penetrates through the first supporting plate, a bearing is arranged at the joint of the second rotating shaft and the first supporting plate, the second rotating shaft is connected with the first rotating shaft through a pressing rotating mechanism, and the second rotating shaft is connected with the first rotating shaft through a reciprocating overturning structure.

Optionally, push down rotary mechanism is including setting up the transmission shaft in second pivot top, the outside cover of transmission shaft is equipped with rotatory cover, the outside cover of rotatory cover is equipped with the second backup pad, the junction of rotatory cover and second backup pad is equipped with the bearing, second backup pad and first fixed plate fixed connection, rotatory cover and rotation axis pass through the driving medium and connect, first guide way has been seted up on the transmission shaft, fixedly connected with gib block on the rotatory cover, and the gib block is located first guide way, the bottom fixedly connected with first driving disk of transmission shaft, the top fixedly connected with second driving disk of second pivot, and first driving disk is located the top of second driving disk, the top of transmission shaft is equipped with the movable seat, the top and the movable seat of transmission shaft pass through the bearing connection, the top fixedly connected with lug of movable seat, fixedly connected with second spliced pole on the rotation axis, the bottom fixedly connected with second clamp plate of second spliced pole, be equipped with second clamp plate on the first clamp plate with lug matched with inclined plane on the transmission shaft, the bottom of second clamp plate's one side fixedly connected with second clamp plate, the top and the bottom of second clamp plate contacts the bottom of second driving disk and the bottom of second driving disk through the fixed connection unit of the second driving disk.

Optionally, the unit that resets is including setting up in the third backup pad of second fixed plate below, the bottom of third backup pad and the bottom inner wall fixed connection of the cabinet body, has seted up flutedly on the second fixed plate, and the top of third backup pad is located the recess, and the top of third backup pad and the top inner wall of recess pass through compression spring and connect.

Optionally, the driving medium includes the fixed cover locates the outside first gear of swivel mount, and the outside cover of rotation axis is equipped with the ring gear, and ring gear and rotation axis pass through the connecting rod and connect, and first gear and ring gear mesh mutually.

When the rotary shaft rotates, the rotary shaft drives the gear ring to rotate through the connecting rod, the gear ring drives the first gear and the rotary sleeve to rotate, the rotary sleeve drives the transmission shaft and the first transmission disc to rotate through the guide bar, the rotary shaft drives the first pressing plate to rotate through the second connecting column when the rotary shaft rotates, when the first pressing plate moves to one side of the protruding block, the protruding block contacts with the inclined surface on the first pressing plate, the first pressing plate pushes the protruding block and the movable seat to continuously move downwards along with the continuous rotation of the first pressing plate, so that the transmission shaft and the first transmission disc move downwards, meanwhile, the second fixed plate moves downwards relative to the third supporting plate, the compression spring is in a compression state, the top of the second pressing plate is not contacted with the bottom of the second transmission disc any more, the limitation to the position of the second transmission disc is relieved, when the protruding block moves to the bottom of the first pressing plate, the first transmission disc moves downwards to the lowest point, the first transmission disc contacts with the second transmission disc along with the continuous rotation of the rotary shaft, the first pressing plate drives the first transmission disc rotates through friction force, and the second transmission disc moves along with the continuous rotation of the first pressing plate, and the second pressing plate is not in contact with the second pressing plate, and the second rotation of the second pressing plate is not in contact with the second rotation plate, and the intermittent rotation of the second pressing plate is simultaneously, and the second rotation plate is not in contact with the second rotation plate is prevented.

Optionally, reciprocal flip structure is including setting up in the first connecting axle of trachea one side, the outside cover of first connecting axle is equipped with the third fixed plate, third fixed plate and trachea fixed connection, the junction of first connecting axle and third fixed plate is equipped with the bearing, the bottom fixedly connected with first bevel gear of first connecting axle, fixedly connected with and first bevel gear engaged with second bevel gear in the first pivot, the top fixedly connected with third driving disk of first connecting axle, the top of third driving disk is equipped with the fourth driving disk, the bottom of fourth driving disk contacts with the top of third driving disk, fourth driving disk and second pivot are connected through reciprocating unit.

Optionally, the reciprocating unit includes fixed mounting in the second connecting axle at fourth driving disk top, the top of second connecting axle is equipped with fourth fixed plate, fourth fixed plate and trachea fixed connection, the top and the fourth fixed plate of second connecting axle pass through the bearing connection, the outside fixed cover of second connecting axle is equipped with the second gear, the bottom fixedly connected with connecting plate of second pivot, the bottom fixedly connected with movable post of connecting plate, the outside cover of movable post is equipped with the rectangle ring, the rectangle ring passes through spacing unit connection with the trachea, fixedly connected with rack on the rectangle ring, rack and second gear mesh.

Optionally, the limiting unit comprises two fixing blocks fixedly installed on the rectangular ring, and the fixing blocks are penetrated with a first guide column which is fixedly connected with the air pipe.

Optionally, the guide piece includes fixed mounting in the guide block on the baffle, has seted up two second guide slots on the tracheal inner wall, and the guide block is located corresponding second guide slot.

Optionally, the multiposition adjusting piece is including setting up in the internal support of cabinet, runs through first lead screw and second guide post on the support, and the connected mode of first lead screw and support is threaded connection, the internal fixedly connected with second motor of cabinet, and the output of second motor and the bottom fixed connection of first lead screw, the both ends of second guide post respectively with the inner wall fixed connection of the cabinet, exhaust tube and support pass through horizontal sliding unit connection.

Optionally, the horizontal sliding unit includes the third motor of fixed mounting on the support, and the output fixedly connected with second lead screw of third motor, and the outside cover of second lead screw is equipped with the mount pad, and the connected mode of second lead screw and mount pad is threaded connection, and one side of mount pad contacts with one side of support, and exhaust tube fixed mounting is on the mount pad.

The invention has the beneficial effects that: hot air is discharged through the trachea that contacts with the sealed cowling, the hot air has dust impurity simultaneously, dust impurity in to the hot air filters through dustproof filter screen, dust impurity is stopped at the top of dustproof filter screen, the second pivot is through the intraductal dustproof filter screen upset one hundred eighty degrees of reciprocal flip structure drive, so that the dust impurity that stops at dustproof filter screen top overturns to the bottom of dustproof filter screen, the in-process hot air can blow down the dust impurity that adheres to dustproof filter screen from the bottom of dustproof filter screen, can be followed the internal discharge of cabinet to the dust impurity that is located the cabinet, avoid simultaneously being located the external dust impurity of cabinet to enter into the cabinet physically, reduce the dust that adheres to on the internal components and parts of cabinet, avoid increasing its consumption, convenient for in-service use.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only of the invention and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of the structure of the inside of a fixing case according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the area A of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the trachea in cross section according to an embodiment of the invention;

fig. 5 is a schematic structural view of a third support plate and a second fixing plate combination according to an embodiment of the present invention;

fig. 6 is a schematic diagram illustrating a structure of a third support plate and a second fixing plate detached according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a second shaft according to an embodiment of the invention.

Marked in the figure as:

1. a cabinet body; 2. a fixed case; 3. an air extracting pump; 4. an exhaust pipe; 5. a hose; 6. an exhaust hood; 7. an air pipe; 8. a sealing cover; 9. a connecting pipe; 10. a dust-proof filter screen; 11. a first rotating shaft; 12. a baffle; 13. a fixed sleeve; 14. a first fixing plate; 15. a first support plate; 16. a second rotating shaft; 17. a first motor; 18. a rotation shaft; 19. a first connection post; 20. a transmission shaft; 21. a rotating sleeve; 22. a second support plate; 23. a guide bar; 24. a first guide groove; 25. a first drive plate; 26. a second drive plate; 27. a movable seat; 28. a bump; 29. a first platen; 30. a second connection post; 31. a second fixing plate; 32. a second pressing plate; 33. a third support plate; 34. a groove; 35. a compression spring; 36. a first gear; 37. a gear ring; 38. a connecting rod; 39. a first connecting shaft; 40. a third fixing plate; 41. a first bevel gear; 42. a second bevel gear; 43. a third drive plate; 44. a fourth drive plate; 45. a second connecting shaft; 46. a fourth fixing plate; 47. a second gear; 48. a rack; 49. a rectangular ring; 50. a fixed block; 51. a first guide post; 52. a connecting plate; 53. a movable column; 54. a guide block; 55. a second guide groove; 56. a bracket; 57. a second motor; 58. a first screw rod; 59. a second guide post; 60. a third motor; 61. a second screw rod; 62. a mounting base; 63. and (5) ventilation holes.

Detailed Description

The present invention will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent.

The embodiment provides a power distribution cabinet for an electrochemical energy storage power station, as shown in fig. 1 to 7, the power distribution cabinet comprises a cabinet body 1, a fixed shell 2 is fixedly connected to the inner wall of the cabinet body 1, an air hole 63 is formed in the fixed shell 2, an air pump 3 is fixedly connected to the top of the fixed shell 2, an air suction pipe 4 is arranged in the cabinet body 1, the air suction ends of the air suction pipe 4 and the air pump 3 are connected through a hose 5, a multi-position adjusting part for driving the air suction pipe 4 to move is arranged in the cabinet body 1, an exhaust hood 6 is fixedly connected to the air discharge end of the air pump 3, two air pipes 7 are arranged in the fixed shell 2, the bottom ends of the air pipes 7 penetrate through the cabinet body 1, the air pipes 7 are fixedly connected with the cabinet body 1, a sealing cover 8 is arranged in the fixed shell 2, the bottom horizontal position of the sealing cover 8 is consistent with the top horizontal position of the air pipes 7, a connecting pipe 9 is fixedly connected to the sealing cover 8, one end of the connecting pipe 9, which is far away from the sealing cover 8, is positioned in the air hood 6, a bearing is arranged at the joint of the connecting pipe 9 and the air suction end of the air pump 3, a first motor 17 which is positioned in the fixed shell 2, is fixedly connected to the inner wall of the cabinet body 1, a first motor 17, the output end 17 of the first motor 17 is fixedly connected with the air pipe 18 is connected with the rotating shaft 18, and is connected with the rotating shaft 10 through the rotating shaft 10, and the rotating shaft 10 is connected with the rotating shaft 10 in a reciprocating mode, and is connected with the rotating shaft 10;

the pushing down reciprocating overturning assembly comprises a baffle 12 which is respectively arranged at the top and the bottom of a dustproof filter screen 10, the baffle 12 is connected with an air pipe 7 through a guide piece, a first rotating shaft 11 is fixedly connected to the dustproof filter screen 10, one end of the first rotating shaft 11 far away from the dustproof filter screen 10 penetrates through the air pipe 7, a fixed sleeve 13 sleeved outside the first rotating shaft 11 is fixedly connected to the air pipe 7, a bearing is arranged at the joint of the first rotating shaft 11 and the fixed sleeve 13, a first fixed plate 14 is arranged at one side of the air pipe 7, the bottom of the first fixed plate 14 is fixedly connected with the inner wall of the cabinet body 1, a first supporting plate 15 is fixedly connected to the first fixed plate 14, a second rotating shaft 16 penetrates through the first supporting plate 15, a bearing is arranged at the joint of the second rotating shaft 16 and the first supporting plate 15, the second rotating shaft 16 is connected with the rotating shaft 18 through a pushing down rotating mechanism, the second rotating shaft 16 is connected with the first rotating shaft 11 through a reciprocating overturning structure, the hot air is discharged through the air pipe 7 which is contacted with the sealing cover 8, dust impurities are carried in the hot air, the dust impurities in the hot air are filtered through the dustproof filter screen 10, the dust impurities stay at the top of the dustproof filter screen 10, the dustproof filter screen 10 in the air pipe 7 is driven by the second rotating shaft 16 to turn over one hundred eighty degrees through the reciprocating turnover structure, so that the dust impurities staying at the top of the dustproof filter screen 10 are turned to the bottom of the dustproof filter screen 10, the dust impurities adhered on the dustproof filter screen 10 can be blown down from the bottom of the dustproof filter screen 10 in the radiating process, the dust impurities positioned in the cabinet body 1 can be discharged from the cabinet body 1, the dust impurities positioned outside the cabinet body 1 are prevented from entering the cabinet body 1, the dust attached to components in the cabinet body 1 is reduced, the power consumption of the components is prevented from being increased, is convenient for practical use.

In some alternative embodiments, as shown in fig. 2, 3, 5, 6 and 7, the pressing rotating mechanism includes a transmission shaft 20 disposed above the second rotating shaft 16, a rotating sleeve 21 is sleeved outside the transmission shaft 20, a second supporting plate 22 is sleeved outside the rotating sleeve 21, a bearing is disposed at a connection position between the rotating sleeve 21 and the second supporting plate 22, the second supporting plate 22 is fixedly connected with the first fixing plate 14, the rotating sleeve 21 is connected with the rotating shaft 18 through a transmission member, a first guide groove 24 is formed on the transmission shaft 20, a guide bar 23 is fixedly connected on the rotating sleeve 21, the guide bar 23 is located in the first guide groove 24, a first driving disc 25 is fixedly connected at a bottom end of the transmission shaft 20, a second driving disc 26 is fixedly connected at a top end of the second rotating shaft 16, the first driving disc 25 is located above the second driving disc 26, a movable seat 27 is disposed above the transmission shaft 20, the top end of the transmission shaft 20 is connected with the movable seat 27 through a bearing, the top of the movable seat 27 is fixedly connected with a bump 28, the rotary shaft 18 is fixedly connected with a second connecting column 30, the bottom of the second connecting column 30 is fixedly connected with a first pressing plate 29, the first pressing plate 29 is provided with an inclined surface matched with the bump 28, the bottom of the movable seat 27 is fixedly connected with a second fixing plate 31, one side of the second fixing plate 31 is fixedly connected with a second pressing plate 32, the top of the second pressing plate 32 is contacted with the bottom of the second transmission disc 26, the second fixing plate 31 is connected with the bottom inner wall of the cabinet body 1 through a reset unit, the reset unit comprises a third supporting plate 33 arranged below the second fixing plate 31, the bottom of the third supporting plate 33 is fixedly connected with the bottom inner wall of the cabinet body 1, a groove 34 is formed in the second fixing plate 31, the top end of the third supporting plate 33 is positioned in the groove 34, the top of the third supporting plate 33 is connected with the top inner wall of the groove 34 through a compression spring 35, the transmission piece comprises a first gear 36 fixedly sleeved outside the rotary sleeve 21, a gear ring 37 is sleeved outside the rotary shaft 18, the gear ring 37 is connected with the rotary shaft 18 through a connecting rod 38, and the first gear 36 is meshed with the gear ring 37; when the rotary shaft 18 rotates, the rotary shaft 18 drives the gear ring 37 to rotate through the connecting rod 38, the gear ring 37 drives the first gear 36 and the rotary sleeve 21 to rotate, the rotary sleeve 21 drives the transmission shaft 20 and the first transmission disc 25 to rotate through the guide bar 23, the rotary shaft 18 drives the first pressing plate 29 to rotate through the second connecting post 30 while the rotary shaft 18 rotates, when the first pressing plate 29 moves to one side of the protruding block 28, the protruding block 28 contacts with the inclined surface on the first pressing plate 29, and as the first pressing plate 29 continuously rotates, the first pressing plate 29 pushes the protruding block 28 and the movable seat 27 to continuously move downwards so as to enable the transmission shaft 20 and the first transmission disc 25 to move downwards while the second fixing plate 31 moves downwards relative to the third supporting plate 33, the compression spring 35 is in a compressed state, the top of the second pressing plate 32 is no longer in contact with the bottom of the second transmission disc 26, the limitation of the position of the second transmission disc 26 is released, when the protruding block 28 moves to the bottom of the first pressing plate 29, the first driving disk 25 moves down to the lowest point, the first driving disk 25 contacts with the second driving disk 26, the driving shaft 20 drives the first driving disk 25 to rotate while the rotating sleeve 21 and the driving shaft 20 rotate along with the continuous rotation of the rotating shaft 18, the first driving disk 25 drives the second driving disk 26 and the second driving disk 16 to rotate through friction force, the compression spring 35 pushes the second fixing plate 31 and the movable seat 27 to move up when the first pressing plate 29 is not positioned at the top of the bump 28 along with the continuous rotation of the first pressing plate 29, so that the first driving disk 25 is not contacted with the second driving disk 26 any more, the top of the second pressing plate 32 contacts with the bottom of the second driving disk 26, the second pressing plate 32 presses the bottom of the second driving disk 26 to limit the position of the second driving disk 26, the second driving disk 26 and the second driving disk 26 are prevented from rotating due to non-human factors, the rotation shaft 18 may intermittently drive the second rotation shaft 16 to rotate synchronously.

In some alternative embodiments, as shown in fig. 2, 3, 4, 5 and 7, the reciprocating overturning structure comprises a first connecting shaft 39 arranged at one side of the air pipe 7, a third fixing plate 40 sleeved outside the first connecting shaft 39, the third fixing plate 40 fixedly connected with the air pipe 7, a bearing arranged at the joint of the first connecting shaft 39 and the third fixing plate 40, a first bevel gear 41 fixedly connected with the bottom end of the first connecting shaft 39, a second bevel gear 42 meshed with the first bevel gear 41 fixedly connected with the first rotating shaft 11, a third driving disc 43 fixedly connected with the top end of the first connecting shaft 39, a fourth driving disc 44 arranged at the top of the third driving disc 43, the bottom of the fourth driving disc 44 contacted with the top of the third driving disc 43, and the fourth driving disc 44 connected with the second rotating shaft 16 through a reciprocating unit, the reciprocating unit comprises a second connecting shaft 45 fixedly arranged at the top of a fourth transmission disc 44, a fourth fixed plate 46 is arranged above the second connecting shaft 45, the fourth fixed plate 46 is fixedly connected with an air pipe 7, the top end of the second connecting shaft 45 is connected with the fourth fixed plate 46 through a bearing, a second gear 47 is fixedly sleeved outside the second connecting shaft 45, a connecting plate 52 is fixedly connected with the bottom of the second rotating shaft 16, a movable column 53 is fixedly connected with the bottom of the connecting plate 52, a rectangular ring 49 is sleeved outside the movable column 53, the rectangular ring 49 is connected with the air pipe 7 through a limiting unit, a rack 48 is fixedly connected with the rectangular ring 49, the rack 48 is meshed with the second gear 47, the limiting unit comprises two fixed blocks 50 fixedly arranged on the rectangular ring 49, a first guide column 51 penetrates through the fixed blocks 50, the first guide column 51 is fixedly connected with the air pipe 7, the guide piece comprises a guide block 54 fixedly arranged on a baffle 12, two second guide grooves 55 are formed in the inner wall of the air pipe 7, and the guide blocks 54 are positioned in the corresponding second guide grooves 55; when the second rotating shaft 16 rotates, the second rotating shaft 16 drives the movable column 53 to rotate through the connecting plate 52, the movable column 53 slides in the rectangular ring 49, so that the movable column 53 drives the rectangular ring 49 and the rack 48 to move, the rack 48 drives the second gear 47 to rotate, the second gear 47 drives the fourth driving disk 44 to rotate through the second connecting shaft 45, the fourth driving disk 44 drives the third driving disk 43 and the first connecting shaft 39 to rotate through friction force, the first connecting shaft 39 drives the first rotating shaft 11 to rotate through the first bevel gear 41 and the second bevel gear 42, so that the first rotating shaft 11 drives the dust-proof filter 10 to turn over, one baffle 12 above the dust-proof filter 10 moves to the bottom of the dust-proof filter 10 along with the turning of the dust-proof filter 10, the other baffle 12 below the dust-proof filter 10 is pushed to the top of the dust-proof filter 10 by the dust-proof filter 10, the baffle plate 12 drives the guide block 54 to slide relative to the second guide groove 55, when the dustproof filter screen 10 is overturned for one hundred eighty degrees, the guide block 54 on the baffle plate 12 below the dustproof filter screen 10 is contacted with the bottom inner wall of the second guide groove 55, the guide block 54 on the baffle plate 12 above the dustproof filter screen 10 is contacted with the top inner wall of the second guide groove 55, the positions of the dustproof filter screen 10 are limited by the two baffle plates 12, the rack 48 drives the second gear 47 and the second connecting shaft 45 to continuously rotate along with the continuous movement of the rack 48, the third transmission disc 43 and the first connecting shaft 39 keep stationary due to the positions of the two baffle plates 12 limiting the dustproof filter screen 10, the second gear 47 and the second connecting shaft 45 are continuously driven to rotate to ensure that the dustproof filter screen 10 is overturned for one hundred eighty degrees, and when the rack 48 is moved to the preset position, the pressing rotating mechanism stops driving the second rotating shaft 16 to rotate, when the second rotating shaft 16 is driven to rotate by the rotating shaft 18 through the pressing rotating mechanism at the next time, the second rotating shaft 16 drives the movable column 53 to rotate through the connecting plate 52, and the movable column 53 slides in the rectangular ring 49, so that the rectangular ring 49 drives the rack 48 to move reversely, and the dustproof filter screen 10 can be turned back to the initial position again, and the dustproof filter screen 10 can be turned for one hundred eighty degrees periodically, so that the position of the dustproof filter screen 10 is changed.

In some alternative embodiments, as shown in fig. 1, the multi-position adjusting piece includes a bracket 56 disposed in the cabinet body 1, a first screw rod 58 and a second guide post 59 are penetrated through the bracket 56, the first screw rod 58 and the bracket 56 are connected in a threaded manner, a second motor 57 is fixedly connected in the cabinet body 1, an output end of the second motor 57 is fixedly connected with a bottom end of the first screw rod 58, two ends of the second guide post 59 are respectively fixedly connected with an inner wall of the cabinet body 1, the exhaust pipe 4 and the bracket 56 are connected through a horizontal sliding unit, the horizontal sliding unit includes a third motor 60 fixedly mounted on the bracket 56, an output end of the third motor 60 is fixedly connected with a second screw rod 61, a mounting seat 62 is sleeved outside the second screw rod 61, one side of the mounting seat 62 is contacted with one side of the bracket 56, and the exhaust pipe 4 is fixedly mounted on the mounting seat 62; the first screw rod 58 is driven to rotate by the second motor 57, the first screw rod 58 drives the support 56 to move vertically, the heights of the mounting seat 62 and the exhaust pipe 4 can be changed, the second screw rod 61 is driven to rotate by the third motor 60 through the design of the second guide post 59 so as to enable the support 56 to move stably in the vertical direction, the second screw rod 61 drives the mounting seat 62 to move horizontally on one side of the support 56, the position of the exhaust pipe 4 in the horizontal direction can be adjusted, one side of the mounting seat 62 is contacted with one side of the support 56, and when the second screw rod 61 rotates, the mounting seat 62 is prevented from rotating and shaking along with the second screw rod 61.

Working principle: when the heat dissipation is needed in the cabinet body 1, the first motor 17 drives the rotating shaft 18 to rotate, the rotating shaft 18 drives the sealing cover 8 and the connecting pipe 9 to rotate relative to the exhaust cover 6 through the first connecting column 19, so that the sealing cover 8 moves to the top of the first air pipe 7, the air pump 3 is started, hot air in the cabinet body 1 sequentially passes through the air exhaust pipe 4, the hose 5, the exhaust cover 6, the connecting pipe 9 and the sealing cover 8, finally the hot air is exhausted through the first air pipe 7 contacted with the sealing cover 8, dust impurities are contained in the hot air, dust impurities in the hot air are filtered through the dustproof filter screen 10, the dust impurities stay at the top of the dustproof filter screen 10, the positions of the air exhaust pipe 4 are adjusted through the multi-position adjusting piece, so that the air exhaust pipe 4 moves to different positions in the cabinet body 1, and the hot air and the dust impurities at different positions are adsorbed in the air pipe 4, air outside the cabinet body 1 enters the fixed shell 2 through the second air pipe 7 which is not contacted with the sealing cover 8, the air outside enters the cabinet body 1 through the air holes 63 on the fixed shell 2, dust and impurities in the air outside are filtered through the dustproof filter screen 10 in the second air pipe 7, the dust and impurities filtered by the outside air stay at the bottom of the dustproof filter screen 10, after the first heat dissipation is finished, the air pump 3 is closed, the first motor 17 drives the rotating shaft 18 to rotate when the second heat dissipation is needed, the rotating shaft 18 drives the sealing cover 8 and the connecting pipe 9 to rotate relative to the exhaust cover 6 through the first connecting column 19, so that the sealing cover 8 moves from the top of the first air pipe 7 to the top of the second air pipe 7, the rotating shaft 18 drives the second rotating shaft 16 to rotate through the pressing rotating mechanism in the rotating process of the rotating shaft 18, the second rotating shaft 16 drives the dustproof filter screen 10 in the first air pipe 7 to turn over one hundred and eighty degrees through the reciprocating turnover structure, so that dust impurities remained at the top of the dustproof filter screen 10 are turned over to the bottom of the dustproof filter screen 10, when the sealing cover 8 is turned back to the top of the first air pipe 7 in the next heat dissipation process, hot air can blow off the dust impurities adhered to the dustproof filter screen 10 from the bottom of the dustproof filter screen 10, the air suction pump 3 is started again, hot air in the cabinet 1 is discharged through the second air pipe 7 again, because the dustproof filter screen 10 in the second air pipe 7 filters dust impurities in the external air last time, the filtered dust impurities remain at the bottom of the dustproof filter screen 10, and when the hot air in the cabinet 1 is discharged through the second air pipe 7 again, the hot air blows dust impurities at the bottom of the dustproof filter screen 10 to fall off from the bottom of the dustproof filter screen 10, the hot air is discharged, the dust impurities on the second dustproof filter screen 10 can be cleaned, meanwhile, the dust impurities in the hot air in the cabinet 1 are filtered through the dustproof filter screen 10 in the second air pipe 7, the dust impurities stay at the top of the dustproof filter screen 10, when the second heat radiation is finished and the third heat radiation is needed, the air pump 3 is closed, the rotating shaft 18 is driven to rotate again through the first motor 17, so that the sealing cover 8 is moved back to the top of the first air pipe 7, the hot air can be blown to the dustproof filter screen 10 in the first air pipe 7 by starting the air pump 3, so that the dust impurities at the bottom of the dustproof filter screen 10 are blown off from the dustproof filter screen 10, and the sealing cover 8 is moved back to the top of the first air pipe 7, the rotary shaft 18 drives the dustproof filter screen 10 in the second air pipe 7 to turn over for one hundred eighty degrees through the pressing rotary mechanism and the reciprocating turnover structure, so that dust impurities remained at the top of the dustproof filter screen 10 in the second heat dissipation process are turned over to the lower part of the dustproof filter screen 10, hot air can blow down dust impurities adhered to the dustproof filter screen 10 from the bottom of the dustproof filter screen 10 in the next heat dissipation process, dust impurities in the cabinet body 1 can be discharged from the cabinet body 1, meanwhile, dust impurities outside the cabinet body 1 are prevented from entering the cabinet body 1, dust attached to components in the cabinet body 1 is reduced, power consumption is prevented from being increased, and the cabinet is convenient for practical use;

when the rotary shaft 18 rotates, the rotary shaft 18 drives the gear ring 37 to rotate through the connecting rod 38, the gear ring 37 drives the first gear 36 and the rotary sleeve 21 to rotate, the rotary sleeve 21 drives the transmission shaft 20 and the first transmission disc 25 to rotate through the guide bar 23, the rotary shaft 18 drives the first pressing plate 29 to rotate through the second connecting post 30 while the rotary shaft 18 rotates, when the first pressing plate 29 moves to one side of the protruding block 28, the protruding block 28 contacts with the inclined surface on the first pressing plate 29, and as the first pressing plate 29 continuously rotates, the first pressing plate 29 pushes the protruding block 28 and the movable seat 27 to continuously move downwards so as to enable the transmission shaft 20 and the first transmission disc 25 to move downwards while the second fixing plate 31 moves downwards relative to the third supporting plate 33, the compression spring 35 is in a compressed state, the top of the second pressing plate 32 is no longer in contact with the bottom of the second transmission disc 26, the limitation of the position of the second transmission disc 26 is released, when the protruding block 28 moves to the bottom of the first pressing plate 29, the first driving disk 25 moves down to the lowest point, the first driving disk 25 contacts with the second driving disk 26, the driving shaft 20 drives the first driving disk 25 to rotate while the rotating sleeve 21 and the driving shaft 20 rotate along with the continuous rotation of the rotating shaft 18, the first driving disk 25 drives the second driving disk 26 and the second driving disk 16 to rotate through friction force, the compression spring 35 pushes the second fixing plate 31 and the movable seat 27 to move up when the first pressing plate 29 is not positioned at the top of the bump 28 along with the continuous rotation of the first pressing plate 29, so that the first driving disk 25 is not contacted with the second driving disk 26 any more, the top of the second pressing plate 32 contacts with the bottom of the second driving disk 26, the second pressing plate 32 presses the bottom of the second driving disk 26 to limit the position of the second driving disk 26, the second driving disk 26 and the second driving disk 26 are prevented from rotating due to non-human factors, when the rotating shaft 18 rotates, the second rotating shaft 16 can be intermittently driven to synchronously rotate;

when the second rotating shaft 16 rotates, the second rotating shaft 16 drives the movable column 53 to rotate through the connecting plate 52, the movable column 53 slides in the rectangular ring 49, so that the movable column 53 drives the rectangular ring 49 and the rack 48 to move, the rack 48 drives the second gear 47 to rotate, the second gear 47 drives the fourth driving disk 44 to rotate through the second connecting shaft 45, the fourth driving disk 44 drives the third driving disk 43 and the first connecting shaft 39 to rotate through friction force, the first connecting shaft 39 drives the first rotating shaft 11 to rotate through the first bevel gear 41 and the second bevel gear 42, so that the first rotating shaft 11 drives the dust-proof filter 10 to turn over, one baffle 12 above the dust-proof filter 10 moves to the bottom of the dust-proof filter 10 along with the turning of the dust-proof filter 10, the other baffle 12 below the dust-proof filter 10 is pushed to the top of the dust-proof filter 10 by the dust-proof filter 10, the baffle plate 12 drives the guide block 54 to slide relative to the second guide groove 55, when the dustproof filter screen 10 is overturned for one hundred eighty degrees, the guide block 54 on the baffle plate 12 below the dustproof filter screen 10 is contacted with the bottom inner wall of the second guide groove 55, the guide block 54 on the baffle plate 12 above the dustproof filter screen 10 is contacted with the top inner wall of the second guide groove 55, the positions of the dustproof filter screen 10 are limited by the two baffle plates 12, the rack 48 drives the second gear 47 and the second connecting shaft 45 to continuously rotate along with the continuous movement of the rack 48, the third transmission disc 43 and the first connecting shaft 39 keep stationary due to the positions of the two baffle plates 12 limiting the dustproof filter screen 10, the second gear 47 and the second connecting shaft 45 are continuously driven to rotate to ensure that the dustproof filter screen 10 is overturned for one hundred eighty degrees, and when the rack 48 is moved to the preset position, the pressing rotating mechanism stops driving the second rotating shaft 16 to rotate, when the second rotating shaft 16 is driven to rotate by the rotating shaft 18 through the pressing rotating mechanism at the next time, the second rotating shaft 16 drives the movable column 53 to rotate through the connecting plate 52, and the movable column 53 slides in the rectangular ring 49, so that the rectangular ring 49 drives the rack 48 to move reversely, and the dustproof filter screen 10 can be turned back to the initial position again, the dustproof filter screen 10 can be turned for one hundred eighty degrees periodically, and the position of the dustproof filter screen 10 is changed;

the first screw rod 58 is driven to rotate by the second motor 57, the first screw rod 58 drives the support 56 to move vertically, the heights of the mounting seat 62 and the exhaust pipe 4 can be changed, the second screw rod 61 is driven to rotate by the third motor 60 through the design of the second guide post 59 so as to enable the support 56 to move stably in the vertical direction, the second screw rod 61 drives the mounting seat 62 to move horizontally on one side of the support 56, the position of the exhaust pipe 4 in the horizontal direction can be adjusted, one side of the mounting seat 62 is contacted with one side of the support 56, and when the second screw rod 61 rotates, the mounting seat 62 is prevented from rotating and shaking along with the second screw rod 61.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the invention (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The present invention is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a switch board for electrochemical energy storage power station, including cabinet body (1), a serial communication port, fixedly connected with fixed shell (2) on the inner wall of cabinet body (1), bleeder vent (63) have been seted up on fixed shell (2), top fixedly connected with aspiration pump (3) of fixed shell (2), be equipped with aspiration tube (4) in cabinet body (1), the aspiration end of aspiration tube (4) and aspiration pump (3) is connected through hose (5), be equipped with the multiposition regulating part that is used for driving aspiration tube (4) to remove in cabinet body (1), the exhaust end fixedly connected with exhaust hood (6) of aspiration pump (3), be equipped with two trachea (7) in fixed shell (2), cabinet body (1) are run through to the bottom of trachea (7), and trachea (7) and cabinet body (1) fixedly connected with, be equipped with sealed cowling (8) in fixed shell (2), the bottom horizontal position of sealed cowling (8) is unanimous with the top horizontal position of trachea (7), fixedly connected with (9) on sealed cowling (8), one end that sealed cowling (9) kept away from cowling (8) is located in motor (6) and is equipped with connecting pipe (17) in the fixed connection of the inner wall of cabinet (1) of the fixed connection of the motor (6), the output end of the first motor (17) is fixedly connected with a rotating shaft (18), the rotating shaft (18) is connected with the sealing cover (8) through a first connecting column (19), a dustproof filter screen (10) is arranged in the air pipe (7), and a downward-pressing reciprocating turnover assembly matched with the dustproof filter screen (10) is arranged on the air pipe (7);

the utility model provides a push down reciprocal upset subassembly is including setting up in baffle (12) of dustproof filter screen (10) top and bottom respectively, baffle (12) and trachea (7) are connected through the guide, fixedly connected with first pivot (11) on dustproof filter screen (10), one end that dustproof filter screen (10) was kept away from to first pivot (11) is run through trachea (7), fixedly connected with cover locates first pivot (11) outside fixed cover (13) on trachea (7), the junction of first pivot (11) and fixed cover (13) is equipped with the bearing, one side of trachea (7) is equipped with first fixed plate (14), the inner wall fixed connection of the bottom of first fixed plate (14) and cabinet body (1), fixedly connected with first backup pad (15) on first fixed plate (14), it has second pivot (16) to run through on first backup pad (15), the junction of second pivot (16) and first backup pad (15) is equipped with the bearing, second pivot (16) and rotation axis (18) are connected through pushing down rotary mechanism, second pivot (16) and first pivot (11) are connected through reciprocal upset structure.

2. The power distribution cabinet for the electrochemical energy storage power station of claim 1, wherein the downward-pressing rotating mechanism comprises a transmission shaft (20) arranged above a second rotating shaft (16), a rotating sleeve (21) is sleeved outside the transmission shaft (20), a second supporting plate (22) is sleeved outside the rotating sleeve (21), a bearing is arranged at the joint of the rotating sleeve (21) and the second supporting plate (22), the second supporting plate (22) is fixedly connected with a first fixing plate (14), the rotating sleeve (21) is connected with a rotating shaft (18) through a transmission piece, a first guide groove (24) is formed in the transmission shaft (20), a guide bar (23) is fixedly connected to the rotating sleeve (21), the guide bar (23) is positioned in the first guide groove (24), a first transmission disc (25) is fixedly connected to the bottom end of the transmission shaft (20), a second transmission disc (26) is fixedly connected to the top end of the second rotating shaft (16), a movable seat (27) is arranged above the second transmission disc (26), a movable seat (27) is arranged above the transmission shaft (20), a movable seat (27) is fixedly connected with a movable seat (28) through a movable seat (27), the bottom fixedly connected with first clamp plate (29) of second spliced pole (30), be equipped with on first clamp plate (29) with lug (28) matched with inclined plane, the bottom fixedly connected with second fixed plate (31) of movable seat (27), one side fixedly connected with second clamp plate (32) of second fixed plate (31), the top of second clamp plate (32) contacts with the bottom of second driving disk (26), the bottom inner wall of second fixed plate (31) and cabinet body (1) is through reset unit connection.

3. The power distribution cabinet for the electrochemical energy storage power station according to claim 2, wherein the reset unit comprises a third support plate (33) arranged below the second fixing plate (31), the bottom of the third support plate (33) is fixedly connected with the bottom inner wall of the cabinet body (1), a groove (34) is formed in the second fixing plate (31), the top end of the third support plate (33) is located in the groove (34), and the top of the third support plate (33) is connected with the top inner wall of the groove (34) through a compression spring (35).

4. The power distribution cabinet for the electrochemical energy storage power station according to claim 2, wherein the transmission member comprises a first gear (36) fixedly sleeved outside the rotary sleeve (21), a gear ring (37) is sleeved outside the rotary shaft (18), the gear ring (37) is connected with the rotary shaft (18) through a connecting rod (38), and the first gear (36) is meshed with the gear ring (37).

5. The power distribution cabinet for the electrochemical energy storage power station according to claim 1, characterized in that the reciprocating overturning structure comprises a first connecting shaft (39) arranged on one side of the air pipe (7), a third fixing plate (40) is sleeved outside the first connecting shaft (39), the third fixing plate (40) is fixedly connected with the air pipe (7), a bearing is arranged at the joint of the first connecting shaft (39) and the third fixing plate (40), a first bevel gear (41) is fixedly connected to the bottom end of the first connecting shaft (39), a second bevel gear (42) meshed with the first bevel gear (41) is fixedly connected to the first rotating shaft (11), a third driving disc (43) is fixedly connected to the top end of the first connecting shaft (39), a fourth driving disc (44) is arranged on the top of the third driving disc (43), the bottom of the fourth driving disc (44) is contacted with the top of the third driving disc (43), and the fourth driving disc (44) is connected with the second rotating shaft (16) through a reciprocating unit.

6. The power distribution cabinet for an electrochemical energy storage power station according to claim 5, wherein the reciprocating unit comprises a second connecting shaft (45) fixedly mounted at the top of a fourth transmission disc (44), a fourth fixing plate (46) is arranged above the second connecting shaft (45), the fourth fixing plate (46) is fixedly connected with a gas pipe (7), the top end of the second connecting shaft (45) is connected with the fourth fixing plate (46) through a bearing, a second gear (47) is fixedly sleeved on the outer portion of the second connecting shaft (45), a connecting plate (52) is fixedly connected with the bottom end of the second rotating shaft (16), a movable column (53) is fixedly connected with the bottom of the connecting plate (52), a rectangular ring (49) is sleeved on the outer portion of the movable column (53), the rectangular ring (49) and the gas pipe (7) are connected through a limiting unit, a rack (48) is fixedly connected on the rectangular ring (49), and the rack (48) is meshed with the second gear (47).

7. The power distribution cabinet for the electrochemical energy storage power station according to claim 6, wherein the limiting unit comprises two fixing blocks (50) fixedly installed on the rectangular ring (49), the fixing blocks (50) are penetrated with first guide posts (51), and the first guide posts (51) are fixedly connected with the air pipes (7).

8. The power distribution cabinet for the electrochemical energy storage power station according to claim 1, wherein the guide piece comprises a guide block (54) fixedly installed on the baffle plate (12), two second guide grooves (55) are formed in the inner wall of the air pipe (7), and the guide block (54) is located in the corresponding second guide groove (55).

9. The power distribution cabinet for the electrochemical energy storage power station according to claim 1, wherein the multi-position adjusting piece comprises a support (56) arranged in the cabinet body (1), a first screw rod (58) and a second guide post (59) penetrate through the support (56), the first screw rod (58) and the support (56) are connected in a threaded mode, a second motor (57) is fixedly connected in the cabinet body (1), the output end of the second motor (57) is fixedly connected with the bottom end of the first screw rod (58), two ends of the second guide post (59) are fixedly connected with the inner wall of the cabinet body (1) respectively, and the exhaust tube (4) and the support (56) are connected through a horizontal sliding unit.

10. The power distribution cabinet for the electrochemical energy storage power station according to claim 9, characterized in that the horizontal sliding unit comprises a third motor (60) fixedly mounted on the support (56), the output end of the third motor (60) is fixedly connected with a second screw rod (61), a mounting seat (62) is sleeved outside the second screw rod (61), the second screw rod (61) and the mounting seat (62) are connected in a threaded mode, one side of the mounting seat (62) is contacted with one side of the support (56), and the exhaust tube (4) is fixedly mounted on the mounting seat (62).