CN116278879B - SMC wireless charging pile housing for new energy automobile - Google Patents

Abstract

The invention relates to the technical field of automobile charging piles, in particular to an SMC wireless charging pile shell for a new energy automobile. Including first shell, first shell rigid coupling has the second shell, first shell rigid coupling has the cold water jar, the second shell rigid coupling has the air inlet fan, rigid coupling and intercommunication have the water-feeding pipeline between second shell and the cold water jar, the rigid coupling has the air discharge fan in the first shell, first shell is provided with the aqueous vapor passageway subassembly, the aqueous vapor passageway subassembly is including evenly distributed's water storage dish, and rigid coupling and intercommunication have first passageway between water storage dish and the second shell at top, adjacent water storage dish rigid coupling in proper order and intercommunication have the second passageway, the water storage dish and the inside rigid coupling of first shell of bottom communicate and have communicating pipe, the water storage dish and the cold water jar intercommunication of bottom, the rigid coupling has the subassembly that absorbs water in the first shell. According to the invention, the air inlet fan is matched with the cold water tank, so that the air and the cold water are mixed and contacted in the water storage disc and are subjected to heat exchange, the temperature of the air is reduced, and the heat dissipation efficiency is improved.

Description

SMC wireless charging pile housing for new energy automobile

Technical Field

The invention relates to the technical field of automobile charging piles, in particular to an SMC wireless charging pile shell for a new energy automobile.

Background

The charging equipment of the new energy automobile is gradually popularized, wireless charging is a mode of charging the new energy automobile, and the wireless charging is accelerated along with the acceleration of charging speed, current and voltage are increased, so that a great amount of heat is rapidly generated by electric elements in the charging equipment, if heat dissipation is not timely carried out, the service life of the electric elements can be drastically reduced, and the existing wireless charging pile mostly adopts SMC composite materials as base materials, so that the novel wireless charging pile has the advantages of sealing, water resistance, corrosion resistance, high thermal stability and long service life.

When the existing wireless charging pile dissipates heat, the air in the existing wireless charging pile is simply exhausted by simple air suction and air exhaust, the air in the existing wireless charging pile is continuously exchanged with the electric elements in the existing wireless charging pile, so that the existing wireless charging pile dissipates heat, the existing wireless charging pile is low in heat dissipation efficiency, dust in the air is accumulated on the electric elements in the existing wireless charging pile, the effect of heat dissipation of the existing wireless charging pile is further reduced, meanwhile, when the existing wireless charging pile is in butt joint with an automobile, the existing wireless charging pile cannot prompt a driver of the degree of butt joint, the driver cannot accurately butt joint with the wireless charging pile, the driver is caused to repeatedly butt joint, and the butt joint efficiency is further reduced.

Disclosure of Invention

In order to overcome the defect that the existing wireless charging pile is low in heat dissipation efficiency and cannot assist a driver in butt joint, the invention provides an SMC wireless charging pile shell for a new energy automobile, and aims to solve the problems.

The technical scheme of the invention is as follows: the utility model provides a wireless stake shell that fills of SMC for new energy automobile, includes first shell, the upper end fixedly connected with second shell of first shell, first shell fixedly connected with cold water jar, second shell fixedly connected with fan that admits air, fixedly connected with and intercommunication have the water supply line between second shell and the cold water jar, fixedly connected with air discharge fan in the first shell, its characterized in that: the lateral wall and the back wall of first shell all are provided with the water vapor channel subassembly, the water vapor channel subassembly is including evenly distributed's water storage dish, and fixedly connected with has first passageway between water storage dish and the second shell at top, adjacent water storage dish from top to bottom fixedly connected with in proper order and intercommunication have the second passageway, the water storage dish fixedly connected with of bottom and intercommunication have communicating pipe, the water storage dish and the cold water tank intercommunication of bottom, fixedly connected with is used for absorbing the subassembly that absorbs water of gas moisture in the first shell, intake fan and cold water tank cooperation make gas and cold water in water storage dish internal mixing contact, cold water carries out heat exchange with gas, reduce gaseous temperature.

Furthermore, it is particularly preferred that the second channel is fixedly connected and communicates with the middle part of the water storage tray for allowing the lower space of the water storage tray to store cold water.

In addition, it is particularly preferable that the first housing is fixedly connected with a hedging shell, the water storage disc at the bottom is communicated with the hedging shell through an adjacent communicating pipe, the cold water tank is fixedly connected with the hedging shell and is communicated with a water spraying pipe, and the water spraying pipe is positioned at one end of the hedging shell and is fixedly connected with a spray head.

In addition, it is particularly preferable that the communicating pipe has a level higher than that of the top of the cold water tank for allowing the gas to circulate inside the communicating pipe.

In addition, it is particularly preferable that a backflow pipeline is fixedly connected and communicated between the opposite flushing shell and the cold water tank, the backflow pipeline is sleeved outside the water spraying pipeline, and a water suction pump is arranged at the fixedly connected position of the opposite flushing shell and the backflow pipeline.

In addition, it is particularly preferred that the water absorbing assembly comprises water absorbing layers which are distributed vertically symmetrically, the water absorbing layers which are distributed vertically are fixedly connected in the first shell, the water absorbing layers which are distributed vertically are provided with through holes which are distributed uniformly, and reversing cavities are arranged between the water absorbing layers which are distributed vertically symmetrically.

In addition, it is particularly preferable that the through holes uniformly distributed on the water absorbing layer symmetrically distributed up and down are staggered for changing the gas movement state.

Furthermore, it is particularly preferred that the through holes are provided in a wave shape, the through holes being used to increase the gas flow distance.

In addition, it is particularly preferable that the first housing is slidably connected with symmetrically distributed sliding shafts, the symmetrically distributed sliding shafts are fixedly connected with baffles, the baffles are made of flexible materials, and symmetrically distributed first reset springs are fixedly connected between the first housing and the baffles.

In addition, it is particularly preferable that the first housing is fixedly connected with an alarm, a fixing frame is fixedly connected between symmetrically distributed sliding shafts, a trigger shaft is slidably connected with the fixing frame, a second reset spring is fixedly connected between the fixing frame and the trigger shaft, the first housing is fixedly connected with a pressure sensor, and the pressure sensor is electrically connected with the alarm.

1. Through the cooperation of air inlet fan and cold water jar, make gaseous and cold water in the water storage dish mixed contact, cold water and gaseous heat exchange in the water storage dish reduce gaseous temperature, improve the radiating efficiency to electrical components in the first shell.

2. When cold water in the water storage disc exchanges heat with gas, dust in the gas is adsorbed by the cold water, so that the dust content in the gas is reduced, and the phenomenon that the dust in the gas is attached to an internal electric element to cause a short circuit of the electric element is avoided.

3. The water storage disc is used for storing cold water to perform heat exchange on the gas inside the first shell, so that the temperature of the gas inside the first shell is reduced, further, heat dissipation is performed on the electrical components inside the first shell, water in the water storage disc absorbs heat through evaporation, the temperature of the gas inside the first shell is reduced, and further, the electrical components inside the first shell are in a low-temperature state.

4. Through the cooperation of communication pipeline and shower nozzle, make gas produce the hedging, make gas chaotic, the gaseous and the cold water contact of shower nozzle injection of hedging simultaneously, the cold water of shower nozzle injection carries out the heat exchange with the gaseous after the hedging, further reduces gaseous temperature, improves the radiating efficiency of gas to electrical components in the first shell.

5. Through the cooperation of water absorption layer and switching-over chamber, make gas diffusion, make gas turbulence, increase with the area of contact of water absorption layer, reduce the moisture in the gas, and then protect the electrical components in the first shell, increase its life, the through-hole is wave structure simultaneously, increases the distance of gas circulation, further absorbs the moisture in the gas.

6. The first reset spring of baffle cooperation is applied resistance for the car, and suggestion driver slows down and dock with wireless charging position, simultaneously through trigger axle and pressure sensor cooperation to the driver, suggestion driver dock and accomplish, reduces the dock duration, improves docking efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional perspective view of a first housing of the present invention.

Fig. 3 is a schematic perspective view of the second housing and the first channel according to the present invention.

Fig. 4 is a schematic perspective view of a water gas channel assembly according to the present invention.

Fig. 5 is a schematic perspective view of the water gas channel assembly, the opposite shell and the return pipe of the present invention.

Fig. 6 is a schematic perspective view of the water absorbing member of the present invention.

Fig. 7 is a schematic perspective view of a through hole according to the present invention.

Fig. 8 is a schematic perspective view of the slide shaft, baffle and the like according to the present invention.

Fig. 9 is a schematic perspective view of the trigger shaft and pressure sensor of the present invention.

In the figure: 101-first shell, 102-second shell, 103-cold water tank, 104-air inlet fan, 105-water supply pipeline, 106-exhaust fan, 2-water vapor channel component, 201-first channel, 202-water storage disc, 203-second channel, 301-opposite flushing shell, 302-communication pipeline, 303-spray head, 304-water spraying pipeline, 401-return pipeline, 402-water suction pump, 5-water absorption component, 501-water absorption layer, 502-through hole, 503-reversing cavity, 601-sliding shaft, 602-baffle, 603-first reset spring, 701-alarm, 702-fixed frame, 703-triggering shaft, 704-second reset spring, 705-pressure sensor.

Detailed Description

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

Example 1: the utility model provides a SMC wireless charging pile housing for new energy automobile, as shown in fig. 1-4, including first shell 101, the upper end fixedly connected with second shell 102 of first shell 101, second shell 102 is rectangular shell and round platform casing constitution of putting down, the right side fixedly connected with cold water tank 103 of first shell 101, cold water tank 103 comprises the jar body of storing water and refrigerating plant, second shell 102 fixedly connected with intake fan 104, fixedly connected with and intercommunication have water-feeding pipeline 105 between second shell 102 and the cold water tank 103, water-feeding pipeline 105 comprises pipeline and lift water pump, the upper end fixedly connected with exhaust fan 106 of first shell 101, both lateral walls and the back wall of first shell 101 are provided with water gas channel subassembly 2, water gas channel subassembly 2 is including evenly distributed's water storage dish 202, water storage dish 202 is circular structure, the water storage discs 202 positioned at the top of the first shell 101 are fixedly connected with and communicated with the first channel 201, the two water storage discs 202 which are adjacent from top to bottom are sequentially fixedly connected with and communicated with the second channel 203, the second channel 203 between the two water storage discs 202 which are adjacent from top to bottom is fixedly connected with and communicated with the middle part of the upper water storage disc 202, the second channel 203 between the two water storage discs 202 which are adjacent from top to bottom is fixedly connected with and communicated with the top of the lower water storage disc 202, the space at the inner lower side of the water storage disc 202 stores cold water, the water storage disc 202 at the bottom is fixedly connected with and communicated with the communicating pipe 302, the water storage disc 202 at the bottom is communicated with the cold water tank 103, the air inlet fan 104 is matched with the cold water tank 103, so that air and cold water are in mixed contact in the water storage disc 202, the cold water exchanges heat with the air, the temperature of the air is reduced, a water absorbing component 5 for absorbing gas moisture is fixedly connected in the first housing 101.

As shown in fig. 5, a hedging shell 301 is fixedly connected in the first casing 101, the hedging shell 301 is formed by a cylindrical shell and a circular truncated cone shell, a water storage disc 202 at the bottom is communicated with the hedging shell 301 through an adjacent communicating pipe 302, a cold water tank 103 is fixedly connected with the hedging shell 301 and is communicated with a water spraying pipe 304, the water spraying pipe 304 is composed of a pipeline and a water suction pump, the water suction pump is located at one end of the water spraying pipe 304 close to the cold water tank 103, a spray head 303 is fixedly connected at one end of the water spraying pipe 304, the spray head 303 is a spray head spraying circumferentially, the level of the communicating pipe 302 is higher than the level of the top of the cold water tank 103, the communicating pipe 302 is used for enabling gas to circulate in the communicating pipe 302, the communicating pipe 302 and the spray head 303 cooperate to drive gas to generate hedging, the gas hedging is prevented from being uneven in heat exchange, the gas temperature is not even, and the heat dissipation efficiency of the electrical components in the first casing 101 is further reduced.

As shown in fig. 5, the opposite flushing shell 301 and the cold water tank 103 are fixedly connected and communicated with a backflow pipeline 401, the backflow pipeline 401 is sleeved outside the water spraying pipeline 304, a water pump 402 is arranged at the fixedly connected position of the opposite flushing shell 301 and the backflow pipeline 401, the opposite flushing shell 301 is matched with the water pump 402, and the opposite flushing cold water is pumped back into the cold water tank 103 for recycling.

As shown in fig. 6 and fig. 7, the water absorbing assembly 5 includes two water absorbing layers 501 that are vertically and symmetrically distributed, the two water absorbing layers 501 that are vertically and symmetrically distributed are both fixedly connected in the first housing 101, the two water absorbing layers 501 that are vertically and symmetrically distributed are both provided with uniformly distributed through holes 502, the through holes 502 are configured as waves, the through holes 502 are used for increasing the gas flowing distance, reducing the gas flowing speed, increasing the contact time and area of the water absorbing layers 501 and the gas, reducing the moisture in the gas, reversing cavities 503 are arranged between the two water absorbing layers 501 that are vertically and symmetrically distributed, the through holes 502 that are uniformly distributed on the two water absorbing layers 501 that are vertically and symmetrically distributed are staggered, and are used for changing the gas movement state, so as to avoid excessive moisture content in the gas, to cause moisture to adhere to the surface of the electrical element in the heat dissipation process of the electrical element, form water corrosion, and reduce the service life of the electrical element.

When the automobile starts to charge, the water suction pump is started at this moment, cold water in the cold water tank 103 enters the second housing 102 along the water supply pipeline 105, the cold water enters three first channels 201 distributed in a 'delta' shape through the second housing 102, meanwhile, the air inlet fan 104 is started, the air inlet fan 104 rotates to extract external air into the second housing 102, the air and the cold water enter the three first channels 201 distributed in a 'delta' shape through the second housing 102, the air enters the water storage discs 202 in the inner walls of the adjacent first housings 101 along the three first channels 201 distributed in a 'delta' shape respectively, at this moment, the cold water is in mixed contact with the air in the water storage discs 202, the cold water exchanges heat with the air, the temperature of the air is reduced, the heat dissipation efficiency of the air on electrical elements in the first housings 101 is improved, meanwhile, dust in the air is adsorbed by the cold water, the dust content in the air is reduced, the dust in the air is prevented from being attached to the electrical elements in the air, and the electrical elements are prevented from being shorted.

The gas and cold water enter the water storage disc 202 along the first channel 201, at this time, cold water starts to be stored in the water storage disc 202, when the water level of the cold water is level with the height of the second channel 203, at this time, cold water in the water storage disc 202 moves downwards along the adjacent second channel 203 to enter the lower adjacent water storage disc 202, and circulates like this until all water is stored in the water storage disc 202, then when the cold water enters the bottommost water storage disc 202, the cold water enters the cold water tank 103 again along the pipeline at the bottom of the water storage disc 202, the cold water in the water storage disc 202 exchanges heat with the gas in the first shell 101, the temperature of the gas in the first shell 101 is reduced, and then the heat of the electrical components in the first shell 101 is dissipated, meanwhile, when no charging is performed, water is still stored in the water storage disc 202, the water in the water storage disc 202 absorbs heat through evaporation, the temperature of the gas in the first shell 101 is reduced, the gas in the first shell 101 is always in a low-temperature state, the electrical components in the first shell 101 are in a low-temperature state, and the electrical components in the first shell 101 are in the low-temperature state, and the temperature rising speed of the electrical components in the first shell 101 is reduced.

Then, the gas in the water storage disc 202 in the two side walls and the rear wall of the first shell 101 enters the opposite flushing shell 301 along the adjacent communicating pipelines 302, meanwhile, the water suction pumps in the spray nozzles 303 and the water spray pipelines 304 are started, cold water in the cold water tank 103 enters the spray nozzles 303 along the water spray pipelines 304 due to the extraction force of the water suction pumps, cold water is sprayed in the circumferential direction of the spray nozzles 303, the gas in the three communicating pipelines 302 distributed in a 'delta' shape enters the opposite flushing shell 301 to generate opposite flushing, so that the gas is disordered, the partial gas temperature is prevented from being reduced unevenly, the heat dissipation efficiency of electric elements in the first shell 101 is further reduced, meanwhile, the opposite flushing gas is contacted with the cold water sprayed by the spray nozzles 303, the heat exchange is carried out between the cold water sprayed by the spray nozzles 303 and the opposite flushing gas, the temperature of the gas is further reduced, the heat dissipation efficiency of the gas on the electric elements in the first shell 101 is improved, then the cold water sprayed by the spray nozzles 303 falls into the opposite flushing shell 301, then the water suction pumps 402 are started, and the cold water in the flushing shell 301 is extracted, and the cold water in the water tank 301 enters the cold water tank 103 along the backflow pipeline 401.

At this time, the exhaust fan 106 is opened, the exhaust fan 106 rotates to extract the gas inside the first casing 101, the gas moves along the cavity between the first casing 101 and the second casing 102 until the gas is discharged to the outside, because the exhaust fan 106 rotates to extract the gas inside the first casing 101, the gas after the opposite impact in the opposite impact casing 301 moves upwards along the first casing 101, the gas moves upwards along the first casing 101 to contact with the lower water absorbing layer 501, then the gas enters the reversing cavity 503 along the through holes 502 uniformly distributed on the lower water absorbing layer 501, during the circulation of the gas in the through holes 502, the moisture in the gas is absorbed by the water absorbing layer 501, meanwhile, the through holes 502 are of a wave-shaped structure, the gas circulation distance is increased, the gas circulation speed is slowed down, the moisture in the gas is further absorbed, and the through holes 502 uniformly distributed on the upper water absorbing layer 501 and the lower water absorbing layer 501 are staggered, the gas moves upwards to collide with the upper water absorbing layer 501, and diffuses in the reversing cavity 503 between the upper water absorbing layer and the lower water absorbing layer 501, so that the moisture in the gas is more disturbed, the moisture in the gas is prevented from being absorbed, and the moisture in the gas is prevented from being high, the moisture in the gas is corroded by the water absorbing layer 501, and the service life of the electric appliance is reduced.

Then the gas continues to move upwards, dust in the gas is absorbed by moisture, meanwhile, the gas and cold water are in a low-temperature state, moisture contained in the gas and the water after heat exchange is absorbed by the water absorbing layer 501, the gas continues to move upwards in the low-temperature state, the low-temperature gas contacts with the electric elements in the first shell 101, the gas contacts with the electric elements to exchange heat, so that the temperature of the electric elements is reduced, the phenomenon that the electric elements are in a too high working state is avoided, the electric elements are fire is caused, then the gas after heat exchange with the electric elements continues to move upwards along the first shell 101, the gas moves to the top end of the first shell 101, the gas is rotationally extracted by the exhaust fan 106, and the gas is discharged to the outside along a cavity between the first shell 101 and the second shell 102.

Example 2: on the basis of embodiment 1, as shown in fig. 8 and 9, the left side of the first housing 101 is slidingly connected with two sliding shafts 601 which are symmetrically distributed, the two sliding shafts 601 which are symmetrically distributed are fixedly connected with a baffle 602, the baffle 602 is a rectangular plate made of rubber, two first return springs 603 which are symmetrically distributed are fixedly connected between the first housing 101 and the baffle 602, the two first return springs 603 are respectively wound on the two sliding shafts 601, the baffle 602 and the first return springs 603 are matched with each other to apply resistance to the automobile, a driver is prompted to perform docking at a deceleration and wireless charging position, multiple docking of the driver is avoided, and wireless charging docking efficiency is reduced.

As shown in fig. 8 and 9, an alarm 701 is fixedly connected to the left side of the first housing 101, a fixing frame 702 is fixedly connected between two sliding shafts 601 which are symmetrically distributed, a trigger shaft 703 is slidably connected to the fixing frame 702, a second reset spring 704 is fixedly connected between the fixing frame 702 and the trigger shaft 703, a pressure sensor 705 is fixedly connected to the left side of the first housing 101, the pressure sensor 705 is the same as the trigger shaft 703 in horizontal height, the pressure sensor 705 is electrically connected with the alarm 701, and the trigger shaft 703 and the pressure sensor 705 cooperate to prompt a driver to complete docking through the alarm 701.

When the automobile needs to be charged, a driver drives the automobile to dock with a wireless charging position, at this moment, the automobile contacts the baffle 602, along with the docking of the automobile with the wireless charging position, the baffle 602 starts to push the baffle 602, the baffle 602 drives the two sliding shafts 601 which are symmetrically distributed to slide along the first shell 101, simultaneously, the two first reset springs 603 which are symmetrically distributed are compressed, at this moment, the compression force of the two first reset springs 603 which are symmetrically distributed applies resistance to the automobile, the driver is prompted to decelerate and dock with the wireless charging position, simultaneously, the two sliding shafts 601 which are symmetrically distributed along with the docking of the automobile drive the fixing frame 702 to synchronously move, the fixing frame 702 drives the trigger shaft 703 to move, when the trigger shaft 703 contacts the pressure sensor 705, the automobile continues to push and enables the trigger shaft 703 to slide along the fixing frame 702, at this moment, the second reset spring 704 is compressed, the pressure sensor 704 compresses, the external pressure of the pressure sensor 705 changes, then the pressure sensor 705 sends a signal to the alarm 701, after the alarm 701 receives the signal of the pressure sensor 705, a prompt signal is sent to the driver, the driver is prompted to complete the docking of the automobile, the automobile is stopped to dock with the wireless charging position, the docking of the automobile is stopped, the automobile is prevented from being docked with the wireless charging position, the wireless charging position is enabled to be in a plurality of times, and the docking efficiency is not to be increased, and the docking efficiency with the wireless charging position is further, and the docking efficiency is low, and the docking time is caused.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. All equivalents and alternatives falling within the spirit of the invention are intended to be included within the scope of the invention. What is not elaborated on the invention belongs to the prior art which is known to the person skilled in the art.

Claims (6)

1. The utility model provides a wireless stake shell that fills of SMC for new energy automobile, including first shell (101), the upper end fixedly connected with second shell (102) of first shell (101), first shell (101) fixedly connected with cold water tank (103), second shell (102) fixedly connected with fan (104) that admits air, fixedly connected with and intercommunication have water supply line (105) between second shell (102) and cold water tank (103), fixedly connected with air discharge fan (106) in first shell (101), its characterized in that: the side wall and the rear wall of the first shell (101) are both provided with a water-air channel assembly (2), the water-air channel assembly (2) comprises water storage discs (202) which are uniformly distributed, the water storage discs (202) at the top are fixedly connected with the second shell (102) and are communicated with a first channel (201), the adjacent water storage discs (202) are sequentially and fixedly connected with each other from top to bottom and are communicated with a second channel (203), the water storage discs (202) at the bottom are fixedly connected with communicating pipes (302), the water storage discs (202) at the bottom are communicated with a cold water tank (103), a water absorbing assembly (5) for absorbing gas moisture is fixedly connected in the first shell (101), an air inlet fan (104) is matched with the cold water tank (103), so that gas and cold water are in mixed contact in the water storage discs (202), heat exchange is carried out between the cold water and the gas, and the temperature of the gas is reduced;

the second channel (203) is fixedly connected and communicated with the middle part of the water storage disc (202) and is used for enabling the lower side space of the water storage disc (202) to store cold water;

the water storage disc (202) at the bottom is communicated with the opposite flushing shell (301) through an adjacent communicating pipe (302), a cold water tank (103) is fixedly connected with the opposite flushing shell (301) and is communicated with a water spraying pipe (304), and the water spraying pipe (304) is positioned at one end of the opposite flushing shell (301) and is fixedly connected with a spray head (303);

the level of the communicating pipe (302) is higher than the level of the top of the cold water tank (103) and is used for enabling the gas to circulate in the communicating pipe (302);

the opposite flushing shell (301) is fixedly connected with the cold water tank (103) and is communicated with a backflow pipeline (401), the backflow pipeline (401) is sleeved outside the water spraying pipeline (304), and a water suction pump (402) is arranged at the fixedly connected position of the opposite flushing shell (301) and the backflow pipeline (401).

2. The SMC wireless charging pile housing for a new energy vehicle as claimed in claim 1, wherein: the water absorption assembly (5) comprises water absorption layers (501) which are distributed vertically symmetrically, the water absorption layers (501) which are distributed vertically symmetrically are fixedly connected in the first shell (101), the water absorption layers (501) which are distributed vertically symmetrically are provided with through holes (502) which are distributed uniformly, and reversing cavities (503) are arranged between the water absorption layers (501) which are distributed vertically symmetrically.

3. The SMC wireless charging pile housing for new energy vehicles as claimed in claim 2, wherein: through holes (502) which are uniformly distributed on the water absorbing layer (501) which are symmetrically distributed up and down are arranged in a staggered way and are used for changing the gas motion state.

4. The SMC wireless charging pile housing for new energy vehicles as claimed in claim 2, wherein: the through holes (502) are provided in a wave shape, and the through holes (502) are used for increasing the gas flow distance.

5. The SMC wireless charging pile housing for a new energy vehicle as claimed in claim 1, wherein: the first shell (101) is connected with a sliding shaft (601) which is symmetrically distributed in a sliding mode, the sliding shaft (601) which is symmetrically distributed is fixedly connected with a baffle plate (602), the baffle plate (602) is made of flexible materials, and a first reset spring (603) which is symmetrically distributed is fixedly connected between the first shell (101) and the baffle plate (602).

6. The SMC wireless charging pile housing for a new energy vehicle as claimed in claim 1, wherein: the alarm device comprises a first shell (101), an alarm (701) and symmetrically distributed sliding shafts (601), a fixing frame (702) is fixedly connected between the sliding shafts (601), a trigger shaft (703) is slidably connected with the fixing frame (702), a second reset spring (704) is fixedly connected between the fixing frame (702) and the trigger shaft (703), a pressure sensor (705) is fixedly connected with the first shell (101), and the pressure sensor (705) is electrically connected with the alarm (701).