CN112310876A - Bury formula heat dissipation transformer substation that takes precautions against earthquakes - Google Patents

Abstract

The invention discloses a buried heat-dissipation shockproof transformer substation, which comprises a ground, wherein a heat-insulating material is arranged in the ground, the upper end surface of the heat-insulating material is provided with a heat-insulating cavity with an upward opening, the inner wall surface of the heat-insulating cavity is fixedly provided with a clip-shaped moisture-proof shell, and a transformer room is arranged in the moisture-proof shell. This device can also prevent that the vibrations of transformer from empting, and the effectual hourglass outage that avoids takes place.

Description

Bury formula heat dissipation transformer substation that takes precautions against earthquakes

Technical Field

The invention relates to the field of transformer substations, in particular to a buried heat dissipation shockproof transformer substation.

Background

Buried transformer substation buries underground, can reduce the utilization in ground space, can also effectually utilize underground space, avoided sunshine direct irradiation and arouse the inside temperature of transformer substation to rise, buried transformer substation can form inclosed space simultaneously and effectually prevent the entering of external steam, owing to be in encapsulated situation, the temperature that the transformer substation during operation produced is not convenient for discharge, and then influences the life of transformer substation, simultaneously there is oversize vehicle to cause the transformer vibrations to topple over through or slight earthquake on ground, and then cause the outage electric leakage to take place easily, and then influence electric power transmission, the buried heat dissipation shockproof transformer substation that the invention set forth can solve above-mentioned problem.

Disclosure of Invention

In order to solve the problems, the embodiment designs a buried heat-dissipation shockproof transformer substation, which comprises a ground, wherein a heat insulation material is arranged inside the ground, a heat insulation cavity with an upward opening is arranged on the upper end surface of the heat insulation material, a clip-shaped damp-proof shell is fixedly arranged on the inner wall surface of the heat insulation cavity, a transformer chamber is arranged inside the damp-proof shell, a cooling water cavity is arranged inside the heat insulation material and can continuously supply a cooling water source, damping hydraulic columns which are bilaterally symmetrical are fixedly arranged on the lower wall surface of the transformer chamber, damping plates which can be lifted are fixedly arranged on the upper end surfaces of the damping hydraulic columns on the left side and the right side, transformer placing cavities which are bilaterally symmetrical are communicated with each other, and a heat-dissipation organism storing cavity with an upward opening is communicated with the upper end surface of the damping plate between the transformer placing cavities, a low-voltage transformer extending upwards is placed on the lower wall surface of the transformer placing cavity on the left side, a high-voltage transformer extending upwards is placed on the lower wall surface of the transformer placing cavity on the right side, a heat radiating body extending upwards is fixedly arranged on the lower wall surface of the heat radiating body storing cavity, the left wall surface and the right wall surface of the transformer room are communicated and provided with mutually symmetrical anti-falling cavities, anti-falling plates capable of sliding left and right are arranged between the upper wall surface and the lower wall surface of each anti-falling cavity, side-falling plates are fixedly arranged between the upper end surface and the lower end surface of each side-falling plate, three linear array protection cavities are communicated and provided between the upper end surface and the lower end surface of each side-falling plate, the upper ends of the high-voltage transformer, the high-voltage transformer and the heat radiating body respectively penetrate through the protection cavities at corresponding positions, fan cavities with outward openings are communicated on the left end surface of the heat radiating, the piston chamber inner wall face is equipped with the piston that can the horizontal slip, piston chamber right side internal face is fixed to be equipped with can the confined closing plate, the intercommunication is equipped with the intercommunicating pore of longitudinal symmetry between the closing plate left and right sides terminal surface, the heat dissipation organism is deposited the chamber downside and is equipped with the pulley chamber, with the bevel gear chamber corresponds the position the inside propelling movement chamber that is equipped with of insulation material, propelling movement chamber left side is equipped with the dust fall chamber, the dust fall intracavity portion is equipped with dust device, dust fall chamber right side wall with the intercommunication is equipped with the slip chamber between the chamber left side wall.

Preferably, the piston chamber left end downside the internal fixed heat dissipation motor that is equipped with of heat dissipation machine, with the heat dissipation motor corresponds the position the piston chamber upper wall rotates and is equipped with downwardly extending's bent axle, the bent axle lower extreme with heat dissipation motor up end power is connected, is located the piston intracavity portion the outer disc hinged joint of bent axle has the connecting rod that extends right, the connecting rod right-hand member with hinged joint between the piston left end face, with the upside the intercommunicating pore corresponds the position the closing plate right-hand member face with the intercommunication is equipped with the cooling water inlet tube under the cooling water cavity between the wall.

Preferably, the upper wall surface of the bevel gear cavity is rotatably provided with a power shaft extending upwards, the upper end of the power shaft is in power connection with the lower end surface of the heat dissipation motor, the lower end of the power shaft is fixedly provided with a driving bevel gear, the left side and the right side of the power shaft are fixedly provided with fan supports on the inner wall surface of the fan cavity, the left side and the right side of the bevel gear cavity are rotatably provided with fan shafts extending towards one side of the axis of the power shaft, one ends of the fan shafts, far away from the axis of the power shaft, extend into the fan supports at corresponding positions, one ends, far away from the axis of the power shaft, of the fan shafts are fixedly provided with fans, and one ends, close to the axis of the power.

Preferably, the wall surface of the belt wheel cavity at the position corresponding to the power shaft rotates to form a rotating roller extending upwards, a driving belt wheel is fixedly arranged on the upper end surface of the rotating roller, a spline shaft penetrating through the upper end surface and the lower end surface of the driving belt wheel and extending into the pushing cavity is rotatably arranged on the wall surface of the bevel gear cavity, the outer circular surface of the spline shaft is in splined connection with the driving belt wheel, driven bevel gears meshed with the fan bevel gears are fixedly arranged at the upper end of the spline shaft, water pump shafts extending upwards are rotatably arranged on the upper wall surfaces of the left side and the right side of the belt wheel cavity, driven belt wheels are fixedly arranged at the lower ends of the water pump shafts, and transmission belts are wound between the driven belt wheels and.

Preferably, a water pump is fixedly arranged inside the damping plate corresponding to the water pump shaft, the upper end of the water pump shaft is in power connection with the lower end face of the water pump corresponding to the water pump, a water-cooling radiating block is fixedly arranged on the upper end face of the damping plate corresponding to the water pump, a water-cooling radiating cavity is arranged inside the water-cooling radiating block, water-cooling radiating blades which are uniformly distributed are fixedly arranged on the outer circular face of the water-cooling radiating block, a cooling water outlet pipe which is divided into two parts is fixedly arranged on the right end face of the sealing plate corresponding to the communication hole at the lower side, the other end of the cooling water outlet pipe is mutually communicated with the upper end face of the water-cooling radiating cavity on the left side and the right side, a water inlet pipe is communicated between the upper end face of the water pump on the lower wall.

But preferably, with the integral key shaft corresponds the position the wall is equipped with can pivoted spline sleeve on the propelling movement chamber, the outer disc of integral key shaft with spline sleeve is splined connection, the fixed rolling disc that is equipped with of spline sleeve lower extreme, the rolling disc is kept away from terminal surface articulates under spline sleeve axle center one side has downwardly extending's hinge rod, the hinge rod lower extreme articulates there is the promotion dish that can remove about, the fixed being equipped with of promotion dish left end face can pass the sliding movement chamber just extends to the catch bar of dust fall intracavity portion, the catch bar left end is fixed and is equipped with the slurcam, the slurcam lower extreme with the mutual butt of dust fall chamber lower wall.

But preferably, fall the fixed atomizing board that is equipped with of dirt chamber upper end internal face, the inside atomizing chamber that is equipped with of atomizing board, the fixed atomizer that is equipped with of terminal surface under the atomizing board with the mutual intercommunication of terminal surface under the atomizing chamber, the atomizing chamber upper wall with the water pump is kept away from the intercommunication is equipped with the raceway between power axle center side end face, fall dirt chamber upper wall with the intercommunication is equipped with gas delivery pipe under the fan chamber between the wall, the anti-overturning plate is kept away from power axle center side end face and homonymy the anti-overturning chamber is kept away from fixed being equipped with between power axle center side wall and prevents empting the spring.

The invention has the beneficial effects that: the device can maintain the temperature inside the transformer substation to fluctuate within a certain range by utilizing the heat insulation material, meanwhile, the buried transformer substation is sealed, the corrosion of underground moist steam to the inside of the transformer substation can be effectively prevented, meanwhile, the device can also carry out heat dissipation treatment on the transformer in a high-temperature state, the temperature of the transformer is reduced, the service life of the transformer is favorably prolonged, dust inside the transformer substation can be timely collected and treated, the phenomenon that fire disasters occur due to dust accumulation caused by long-time use is avoided, the device can also prevent the transformer from vibrating and toppling over, and the occurrence of electricity leakage and power failure is effectively avoided.

Drawings

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

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

fig. 4 is an enlarged schematic view of C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a buried heat-dissipation shockproof transformer substation, which comprises a ground 11, wherein a heat-insulating material 12 is arranged in the ground 11, a heat-insulating cavity 13 with an upward opening is arranged on the upper end surface of the heat-insulating material 12, a clip-shaped dampproof shell 14 is fixedly arranged on the inner wall surface of the heat-insulating cavity 13, a transformer chamber 16 is arranged in the dampproof shell 14, a cooling water cavity 15 is arranged in the heat-insulating material 12, the cooling water cavity 15 can continuously supply a cooling water source, damping hydraulic columns 24 which are bilaterally symmetrical are fixedly arranged on the lower wall surface of the transformer chamber 16, damping plates 25 which can be lifted are fixedly arranged on the upper end surfaces of the damping hydraulic columns 24 on the left side and the right side, transformer placing cavities 35 which are bilaterally symmetrical are communicated with each other, a heat-dissipation machine body storing cavity 36 with an upward opening is communicated with the upper end surface of the, a low-voltage transformer 22 extending upwards is placed on the lower wall surface of the transformer placing cavity 35 on the left side, a high-voltage transformer 23 extending upwards is placed on the lower wall surface of the transformer placing cavity 35 on the right side, a heat radiating body 41 extending upwards is fixedly arranged on the lower wall surface of the heat radiating body storing cavity 36 on the right side, anti-falling cavities 17 symmetrical to each other are communicated and arranged on the left and right wall surfaces of the transformer chamber 16, anti-falling plates 18 capable of sliding left and right are arranged between the upper and lower wall surfaces of the anti-falling cavities 17, side-falling plates 20 are fixedly arranged between the upper and lower end surfaces of the side-falling plates 18 on the left and right sides, three linear array protection cavities 21 are communicated and arranged between the upper and lower end surfaces of the side-falling plates 20, the upper ends of the high-voltage transformer 23, the high-voltage transformer 23 and the heat radiating body 41 respectively penetrate, it is two to control be equipped with bevel gear chamber 44 between the fan chamber 42, bevel gear chamber 44 upside be equipped with piston chamber 56 in the heat dissipation organism 41, piston chamber 56 internal face is equipped with piston 57 that can the horizontal slip, piston chamber 56 right side internal face is fixed to be equipped with can confined closing plate 60, the intercommunication is equipped with the intercommunicating pore 61 of longitudinal symmetry between the terminal surface about the closing plate 60, the heat dissipation organism is deposited the chamber 36 downside and is equipped with pulley chamber 26, with bevel gear chamber 44 corresponds the position heat preservation material 12 is inside to be equipped with propelling movement chamber 64, propelling movement chamber 64 left side is equipped with dust fall chamber 69, the inside dust device that is equipped with in dust fall chamber 69, dust fall chamber 69 right wall with the intercommunication is equipped with sliding chamber 70 between the propelling movement chamber 64 left wall.

Beneficially, a heat dissipation motor 55 is fixedly disposed in the heat dissipation machine body 41 at the lower side of the left end of the piston cavity 56, a downwardly extending crankshaft 58 is rotatably disposed on the upper wall surface of the piston cavity 56 at a position corresponding to the heat dissipation motor 55, the lower end of the crankshaft 58 is in power connection with the upper end surface of the heat dissipation motor 55, a connecting rod 59 extending rightward is hinged to the outer circumferential surface of the crankshaft 58 located inside the piston cavity 56, the right end of the connecting rod 59 is hinged to the left end surface of the piston 57, and a cooling water inlet pipe 63 is communicated between the right end surface of the sealing plate 60 at a position corresponding to the communication hole 61 at the upper side and the lower wall surface of the cooling water cavity 15.

Beneficially, a power shaft 54 extending upwards is rotatably arranged on the upper wall surface of the bevel gear cavity 44, the upper end of the power shaft 54 is in power connection with the lower end surface of the heat dissipation motor 55, a driving bevel gear 50 is fixedly arranged at the lower end of the power shaft 54, fan support seats 43 are fixedly arranged on the inner wall surfaces of the fan cavities 42 at the left side and the right side, a fan shaft 46 extending towards one side far away from the axis of the power shaft 54 is rotatably arranged on the left wall surface and the right wall surface of the bevel gear cavity 44, one end, far away from the axis of the power shaft 54, of the fan shaft 46 extends into the fan support seat 43 at the corresponding position, one end, far away from the axis of the power shaft 54, of the fan shaft 46 is fixedly provided with a fan 47, and one end, close to the axis of the power.

Beneficially, a rotating drum 27 extending upward is rotatably disposed on a lower wall surface of the pulley cavity 26 corresponding to the power shaft 54, a driving pulley 28 is fixedly disposed on an upper end surface of the rotating drum 27, a spline shaft 53 extending through upper and lower end surfaces of the driving pulley 28 and extending into the pushing cavity 64 is rotatably disposed on a lower wall surface of the bevel gear cavity 44, an outer circumferential surface of the spline shaft 53 is in spline connection with the driving pulley 28, a driven bevel gear 52 engaged with the fan bevel gear 49 is fixedly disposed on an upper end of the spline shaft 53, water pump shafts 29 extending upward are rotatably disposed on upper wall surfaces of left and right sides of the pulley cavity 26, a driven pulley 30 is fixedly disposed at a lower end of the water pump shaft 29, and a transmission belt 31 is wound between the driven pulley 30 and the driving pulley 28 on the left and right sides.

Advantageously, a water pump 32 is fixedly arranged inside the damping plate 25 at a position corresponding to the water pump shaft 29, the upper end of the water pump shaft 29 is respectively in power connection with the lower end surface of the water pump 32 at the corresponding position, a water-cooling radiating block 37 is fixedly arranged on the upper end surface of the damping plate 25 at the position corresponding to the water pump 32, a water-cooling radiating cavity 38 is arranged inside the water-cooling radiating block 37, water-cooling radiating blades 39 which are uniformly distributed are fixedly arranged on the outer circular surface of the water-cooling radiating block 37, a cooling water outlet pipe 40 divided into two is fixedly arranged on the right end surface of the sealing plate 60 corresponding to the lower communicating hole 61, the other end of the cooling water outlet pipe 40 is respectively communicated with the upper wall surfaces of the water-cooling heat dissipation cavities 38 at the left side and the right side, the water inlet pipe 34 is communicated between the lower wall surface of the water-cooling heat dissipation cavity 38 and the upper end surface of the water pump 32 on the same side, and the check valves 62 are fixedly arranged in the communication holes 61 on the upper side and the lower side.

Beneficially, with spline shaft 53 corresponds the position the wall is equipped with can pivoted spline sleeve 65 on the propelling movement chamber 64, the outer disc of spline shaft 53 with spline sleeve 65 is splined connection, spline sleeve 65 lower extreme is fixed and is equipped with rolling disc 66, rolling disc 66 keeps away from spline sleeve 65 axle center one side lower extreme face articulates there is downwardly extending's articulated rod 67, articulated rod 67 lower extreme articulates there is pushing disc 68 that can remove about, pushing disc 68 left end face is fixed to be equipped with and to pass sliding chamber 70 and extend to the inside catch bar 71 of dust fall chamber 69, catch bar 71 left end is fixed and is equipped with slurcam 72, catch bar 72 lower extreme face with dust fall chamber 69 lower extreme face is mutual butt.

Beneficially, dust falling cavity 69 upper end internal wall face is fixed and is equipped with atomizing plate 73, atomizing plate 73 is inside to be equipped with atomizing chamber 74, atomizing plate 73 lower extreme terminal surface fixed be equipped with atomizing nozzle 75 that the wall surface communicates each other under atomizing chamber 74, atomizing chamber 74 upper wall with water pump 32 keeps away from it is equipped with raceway 33 to communicate between power shaft 54 axle center side end face, dust falling cavity 69 upper wall with it is equipped with gas delivery pipe 51 to communicate between the fan chamber 42 lower wall face, prevent empting board 18 and keep away from power shaft 54 axle center side end face and homonymy prevent empting the chamber 17 and keep away from it is fixed to be equipped with between power shaft 54 axle center side wall face and prevent empting spring 19.

The use steps of the buried heat dissipation and anti-vibration substation in this document are described in detail below with reference to fig. 1 to 4:

in the initial state, the damper plate 25 is at the upper limit position, and the spline shaft 53 is at the upper limit position.

When the temperature inside the transformer room 16 exceeds the upper limit during operation, the water-cooled heat-dissipating blades 39 absorb the temperature rise of hot gas, drive the heat-dissipating motor 55, so as to drive the crankshaft 58 to rotate, further drive the connecting rod 59 to swing, further drive the piston 57 to reciprocate left and right, when the piston 57 moves left, the upper check valve 62 opens the lower check valve 62 and closes, further absorb the cooling water inside the cooling water cavity 15 through the cooling water inlet pipe 63 and the upper communication hole 61 and enter the piston cavity 56, when the piston 57 moves right, the upper check valve 62 closes the lower check valve 62 and opens, further convey the cooling water inside the piston cavity 56 to the water-cooled heat-dissipating cavity 38 through the lower communication hole 61 and the cooling water outlet pipe 40, further cool the water-cooled heat-dissipating blades 39, and drive the power shaft 54 to rotate while the heat-dissipating motor 55 drives the drive bevel gear 50 to rotate, the fan bevel gear 49 is meshed with each other to drive the fan shaft 46 to rotate, so as to drive the fan 47 to rotate at a high speed, so that hot air and wind dust inside the transformer chamber 16 are sucked into the fan cavity 42 and then are conveyed into the dust-reducing cavity 69 through the gas conveying pipe 51, the fan bevel gear 49 rotates and simultaneously drives the driven bevel gear 52 to rotate, so as to drive the spline shaft 53 to rotate, so as to drive the driving belt wheel 28 in spline fit with the spline, so as to drive the driven belt wheel 30 to rotate through the driving belt 31, so as to drive the water pump shaft 29 to rotate, so as to drive the water pump 32 to operate, so as to suck cooling water inside the water-cooling heat dissipation cavity 38 through the water inlet pipe 34 and convey the cooling water into the atomization cavity 74 through the water conveying pipe 33, so that the cooling water inside the atomization cavity 74 is atomized and sprayed into the dust-reducing cavity 69 through the atomization nozzle 75, when the spline shaft 53 rotates, the spline sleeve 65 is driven to rotate through spline fit, the rotating disc 66 is driven to rotate, the pushing disc 68 is driven to reciprocate leftwards and rightwards through the rotating disc 66, the pushing plate 72 is driven to reciprocate leftwards and rightwards through the pushing rod 71, dust falling on the lower wall surface of the dust falling cavity 69 is pushed leftwards and rightwards, dust collection is achieved, when a cart passes through the upper side road surface of the transformer substation or ground vibration is caused by an earthquake, the whole damping effect is achieved through up-down movement of the rotating roller 27, left-right swinging of the side tilting plate 20 can be achieved when the transformer shakes left and right in vibration, left-right sliding of the anti-tilting plate 18 is pushed, the anti-tilting spring 19 is compressed and stretched, the upper end of the transformer is kept stable, and the transformer is placed to topple and electric leakage is caused to cause.

The invention has the beneficial effects that: the device can maintain the temperature inside the transformer substation to fluctuate within a certain range by utilizing the heat insulation material, meanwhile, the buried transformer substation is sealed, the corrosion of underground moist steam to the inside of the transformer substation can be effectively prevented, meanwhile, the device can also carry out heat dissipation treatment on the transformer in a high-temperature state, the temperature of the transformer is reduced, the service life of the transformer is favorably prolonged, dust inside the transformer substation can be timely collected and treated, the phenomenon that fire disasters occur due to dust accumulation caused by long-time use is avoided, the device can also prevent the transformer from vibrating and toppling over, and the occurrence of electricity leakage and power failure is effectively avoided.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a shockproof transformer substation of formula of burying heat dissipation, includes ground, its characterized in that: the ground is internally provided with a heat insulation material, the upper end surface of the heat insulation material is provided with a heat insulation cavity with an upward opening, the inner wall surface of the heat insulation cavity is fixedly provided with a clip-shaped damp-proof shell, the damp-proof shell is internally provided with a transformer chamber, the heat insulation material is internally provided with a cooling water chamber, the cooling water chamber can continuously supply a cooling water source, the lower wall surface of the transformer chamber is fixedly provided with damping hydraulic columns which are bilaterally symmetrical, the upper end surfaces of the damping hydraulic columns at the left and right sides are fixedly provided with damping plates which can be lifted, the upper end surfaces of the damping plates are communicated with transformer placing cavities which are bilaterally symmetrical, the upper end surfaces of the damping plates between the transformer placing cavities at the left and right sides are communicated with a radiating machine body storing cavity with an upward opening, the lower wall surface of the transformer placing cavity at, the heat dissipation machine body is characterized in that an upward extending heat dissipation machine body is fixedly arranged on the lower wall surface of a storage cavity of the heat dissipation machine body, the left wall surface and the right wall surface of a transformation chamber are communicated and provided with mutually symmetrical anti-falling cavities, anti-falling plates capable of sliding left and right are arranged between the upper wall surface and the lower wall surface of the anti-falling cavity, side-falling plates are fixedly arranged on the left side and the right side of the anti-falling plates, three linear array protection cavities are communicated and arranged between the upper end surface and the lower end surface of each side-falling plate, the upper ends of a high-voltage transformer, a high-voltage transformer and the heat dissipation machine body respectively penetrate through the protection cavities at corresponding positions, the left end surface of the heat dissipation machine body is communicated and provided with fan cavities with outward openings, bevel gear cavities are arranged between the left fan cavity and the right fan cavity, piston cavities are arranged in the heat dissipation machine body on the, the intercommunication that the intercommunication was equipped with longitudinal symmetry between the terminal surface about the closing plate, the heat dissipation organism is deposited the chamber downside and is equipped with the pulley chamber, with the bevel gear chamber corresponds the position the inside propelling movement chamber that is equipped with of insulation material, propelling movement chamber left side is equipped with the dust fall chamber, the dust fall intracavity portion is equipped with dust device, dust fall chamber right side wall with the intercommunication is equipped with the slip chamber between the left wall in propelling movement chamber.

2. A buried heat dissipating and anti-seismic substation according to claim 1, characterized in that: piston chamber left end downside the internal fixed heat dissipation motor that is equipped with of heat dissipation machine, with the heat dissipation motor corresponds the position the piston chamber upper wall rotates and is equipped with downwardly extending's bent axle, the bent axle lower extreme with heat dissipation motor up end power is connected, is located piston intracavity portion the outer disc hinged joint of bent axle has the connecting rod that extends right, the connecting rod right-hand member with hinged joint between the piston left end face, with the upside the intercommunicating pore corresponds the position the closing plate right-hand member face with the intercommunication is equipped with the cooling water inlet tube under the cooling water chamber between the wall.

3. A buried heat dissipating and anti-seismic substation according to claim 1, characterized in that: the bevel gear chamber upper wall face rotates and is equipped with the power shaft that upwards extends, power shaft upper end with terminal surface power is connected under the heat dissipation motor, the fixed initiative bevel gear that is equipped with of power shaft lower extreme, the left and right sides the fixed fan support that is equipped with of fan intracavity wall face, the bevel gear chamber is controlled the wall rotation and is equipped with to keeping away from the fan axle that power shaft axle center one side extends, the fan axle is kept away from power shaft axle center one end extends to corresponding position in the fan support, the fan axle is kept away from the fixed fan that is equipped with in power shaft axle center one end, the fan axle is close to power shaft axle center one end fixed be equipped with initiative bevel gear intermeshing's fan bevel gear.

4. A buried heat dissipating and anti-seismic substation according to claim 1, characterized in that: the wall rotates under the band pulley chamber with the power shaft corresponds the position and is equipped with the rotation cylinder that upwards extends, rotate the fixed driving pulley that is equipped with of cylinder up end, bevel gear chamber wall rotates down and is equipped with and runs through terminal surface and extend to the integral key shaft in the propelling movement intracavity about the driving pulley, the outer disc of integral key shaft with driving pulley is splined connection, integral key shaft upper end fixed be equipped with fan bevel gear intermeshing's driven bevel gear, the wall rotates on the band pulley chamber left and right sides and is equipped with the water pump axle that upwards extends, water pump axle lower extreme is fixed and is equipped with driven pulley, the left and right sides driven pulley with all around there being the drive belt between the driving pulley.

5. A buried heat-dissipating shockproof substation according to claim 4, characterized in that: the water pump is fixedly arranged in the damping plate corresponding to the water pump shaft, the upper end of the water pump shaft is in power connection with the lower end face of the water pump corresponding to the water pump, the upper end face of the damping plate corresponding to the water pump is fixedly provided with a water-cooling radiating block, a water-cooling radiating cavity is arranged in the water-cooling radiating block, water-cooling radiating blades which are uniformly distributed are fixedly arranged on the outer circular face of the water-cooling radiating block, a cooling water outlet pipe which is divided into two parts is fixedly arranged on the right end face of the sealing plate corresponding to the lower side of the intercommunicating pore, the other end of the cooling water outlet pipe is mutually communicated with the upper end face of the water-cooling radiating cavity on the left side and the right side respectively, a water inlet pipe is communicated between the upper end face of the water.

6. A buried heat dissipating and anti-seismic substation according to claim 1, characterized in that: with the integral key shaft corresponds the position the wall is equipped with can pivoted spline sleeve on the propelling movement chamber, the outer disc of integral key shaft with spline sleeve is splined connection, the fixed rolling disc that is equipped with in spline sleeve lower extreme, the rolling disc is kept away from the articulated hinge rod that has downwardly extending of terminal surface under spline sleeve axle center one side, the hinge rod lower extreme articulates there is the promotion dish that can remove about, the fixed slushing disk left end face that is equipped with can pass the sliding movement chamber just extends to the catch bar of dust fall intracavity portion, the catch bar left end is fixed and is equipped with the slurcam, the catch bar lower extreme with the mutual butt of dust fall chamber lower terminal surface.

7. A buried heat dissipating and anti-seismic substation according to claim 1, characterized in that: the fixed atomizing board that is equipped with of dust fall chamber upper end internal face, the inside atomizing chamber that is equipped with of atomizing board, the fixed atomizer that is equipped with of terminal surface under the atomizing board with the mutual intercommunication of terminal surface under the atomizing chamber, the atomizing chamber go up the wall with the water pump is kept away from the intercommunication is equipped with the raceway between power axle center side end face, dust fall chamber go up the wall with the intercommunication is equipped with gas conveying pipe under the fan chamber between the wall, prevent that the board that topples is kept away from power axle center side end face and homonymy prevent that the chamber of toppling is kept away from fixed being equipped with between power axle center side wall prevents toppling the spring.

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