CN114893743A

CN114893743A - Street lamp standby energy supply switching device and method based on urban street lamp network

Info

Publication number: CN114893743A
Application number: CN202210463837.4A
Authority: CN
Inventors: 许富明; 许强; 许林; 许�鹏; 王盼盼
Original assignee: Jiangsu Zhongzheng Lighting Group Co ltd
Current assignee: Jiangsu Zhongzheng Lighting Group Co ltd
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-08-12

Abstract

The invention discloses a street lamp standby energy supply switching device and method based on an urban street lamp network, belonging to the technical field of street lamps. The invention relates to a street lamp standby energy supply switching device and method based on an urban street lamp network, which solve the problems that the conventional street lamp standby energy supply switching device has slow heat dissipation due to fewer heat dissipation channels in the use process, so that the normal use of the standby energy supply switching device is influenced, and the maintenance cost is increased.

Description

Street lamp standby energy supply switching device and method based on urban street lamp network

Technical Field

The invention relates to the technical field of street lamps, in particular to a street lamp standby energy supply switching device and method based on an urban street lamp network.

Background

The intelligent city can fully utilize information and communication technical means to sense, analyze and integrate various key information of a city operation core system, so that intelligent responses are made to various requirements including civil, environmental protection, public safety, city service and industrial and commercial activities, a better city life is created for human beings, carriers and tools are necessary for the development of the intelligent city, and the street lamp is an essential part of city development and is an ideal carrier and tool. When the street lamp stops working due to external power supply, the street lamp needs to be immediately switched to a standby power supply for power supply, so that the street lamp can continue working, and the conventional street lamp standby energy supply switching device has slow heat dissipation due to fewer heat dissipation channels in the use process, so that the normal use of the standby energy supply switching device is influenced, and the maintenance cost is increased.

Disclosure of Invention

The invention aims to provide a street lamp standby energy supply switching device and method based on an urban street lamp network.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a street lamp reserve energy supply auto-change over device based on city street lamp network, includes street lamp pole, street lamp pole's top is provided with the shell body, one side of shell body is provided with the lamp shade, the inside of shell body is provided with the energy supply and switches the main part, the top of energy supply switching main part is provided with solar panel, the one end of energy supply switching main part is provided with power supply end row commonly used, the other end of energy supply switching main part is provided with the stand-by power supply end row.

Further, the inner wall of shell body is provided with the limiting plate, and the limiting plate is provided with two, two the top of limiting plate all is provided with the shrouding, and the shrouding rotates with the shell body to be connected, solar panel's both sides all are provided with the ejector pin.

Furthermore, a lifting table is arranged below the energy supply switching main body, fans are arranged on two sides of the energy supply switching main body and located inside the lifting table, a through hole is formed in the center of the lifting table, and two pneumatic push rods are arranged below the lifting table.

Further, a fan is arranged below the through hole, the fan is arranged on the guide rail in a sliding mode, heating wires are arranged below the guide rail, and supporting plates are arranged on two sides of each of the heating wires and the guide rail.

Furthermore, a rack is fixedly arranged at the front end of the energy supply switching main body, a motor is mounted above the rack, a rotary column is arranged inside the energy supply switching main body and is in transmission connection with the output end of the motor, an electrode plate is arranged above the rotary column, a common moving contact is arranged on one side of the electrode plate, and a standby moving contact is arranged on the other side of the electrode plate.

Further, the both sides of energy supply switching main part all are provided with first dustproof screen panel, the inboard of first dustproof screen panel is provided with heat dissipation channel, and heat dissipation channel is provided with a plurality of, heat dissipation channel's top is provided with the ventilation hole, heat dissipation channel's below is provided with the louvre, the below of first dustproof screen panel is provided with the second dustproof screen panel.

Furthermore, a heat absorbing plate is arranged below the rotary column, a plurality of radiating fins are arranged below the heat absorbing plate and are connected with the heat absorbing plate through heat conducting fins.

Furthermore, the inside in ventilation hole is provided with the active carbon adsorption net, one side of active carbon adsorption net is provided with the moisture absorption pad.

Further, one side that power supply end row is close to the plate electrode commonly used is provided with the electrode pole commonly used, be provided with stationary contact commonly used on the electrode pole commonly used, one side that the stand-by power supply end row is close to the plate electrode is provided with the stand-by electrode pole, be provided with reserve stationary contact on the stand-by electrode pole, the top of plate electrode is provided with the battery.

The invention provides another technical scheme: a method for supplying and switching a street lamp standby energy source based on an urban street lamp network comprises the following steps:

the method comprises the following steps: the pneumatic push rod is driven to perform telescopic motion by using the air cylinder as a power source, the lifting platform can be driven to lift, and when the lifting platform lifts, the lifting of the ejector rod drives the sealing plate to be linked to perform automatic opening action due to the fact that the ejector rod is higher than the solar panel, so that the solar panel extends out of the outer shell to absorb solar energy;

step two: when the energy is required to be switched, the motor is started, the output end of the motor drives the rotary column to transmit, so that the electrode plate is driven to rotate, when the motor rotates forwards, the standby movable contact is in contact with the standby fixed contact, the standby electric energy can be switched to in time when the common electric energy is in power failure or the electric quantity is used up, when the common electric energy is recovered to supply power, the motor can rotate backwards, the common movable contact is in contact with the common fixed contact, and the standby electric energy is switched to the common electric energy;

step three: the heat generated by the internal environment of the energy supply switching main body is subjected to heat exchange through the heat dissipation channel, the heat absorption plate absorbs the heat and then conducts the heat to the heat dissipation fins through the heat conduction fins to be discharged from the heat dissipation holes, and the fan is started to discharge hot gas in the energy supply switching main body outwards so as to accelerate the heat dissipation speed;

step four: by heating the heating wires and then starting the fan, the fan performs linear reciprocating motion under the action of the guide rail, and the main body for energy supply switching can be effectively dehumidified.

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

1. according to the street lamp standby energy supply switching device and method based on the urban street lamp network, the solar panel is arranged, the solar panel can convert solar energy into electric energy to provide a standby power supply for the street lamp, energy is saved, environment is protected, the street lamp cannot be normally used due to power failure, the lifting platform can be driven to lift through the telescopic motion of the pneumatic push rod, the height of the push rod is higher than that of the solar panel, the push rod can drive the sealing plate to be linked to automatically open when rising, the solar panel extends out of the outer shell to absorb solar energy, and the limiting plate has a limiting effect on the rotation angle of the sealing plate.

2. According to the street lamp standby energy supply switching device and method based on the urban street lamp network, the through hole is convenient for dehumidifying the bottom of the energy supply switching main body, the fan is started by heating the heating wire, and the fan performs linear reciprocating motion under the action of the guide rail, so that the bottom of the energy supply switching main body can be effectively dehumidified.

3. The invention provides a street lamp standby energy supply switching device and method based on an urban street lamp network, wherein a rotating column is driven to transmit through an output end of a motor, so that a plate electrode is driven to rotate, energy supply switching is easily realized, when the motor rotates forwards, a standby movable contact is in contact with a standby stationary contact, the standby movable contact can be switched to standby electric energy in time when the power of common electric energy is cut off or the electric quantity is exhausted, when the power of common electric energy is recovered to supply power, the motor can rotate backwards, the common movable contact is in contact with the common stationary contact, and the standby electric energy is switched to the common electric energy.

4. According to the street lamp standby energy supply switching device and method based on the urban street lamp network, the first dustproof mesh enclosure and the second dustproof mesh enclosure have a dustproof effect, heat generated by the internal environment of the energy supply switching main body is effectively exchanged heat through the heat dissipation channel, the ventilation holes can also ensure the circulation of air in the energy supply switching main body, the activated carbon adsorption net can effectively adsorb impurity particles in the air, the moisture absorption pad has a dehumidification effect, the drying of the internal environment of the energy supply switching main body is ensured, the heat is absorbed by the heat absorption plate and then is guided to the heat dissipation fins through the heat conduction fins to be exhausted through the heat dissipation holes, the fan facilitates the circulation of the air in the energy supply switching main body, the heat dissipation speed of the energy supply switching main body is accelerated, and the heat dissipation effect is improved.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the outer casing of the present invention;

FIG. 3 is a schematic diagram of the movable structure of the outer casing of the present invention;

FIG. 4 is a schematic view of the internal structure of the elevating platform of the present invention;

FIG. 5 is a schematic view of the internal structure of the power switching main body according to the present invention;

FIG. 6 is a schematic diagram of the movable structure of the electrode plate of the present invention;

FIG. 7 is an enlarged view of the portion of FIG. 6A of the present invention;

FIG. 8 is an enlarged view of the portion of FIG. 3A of the present invention.

In the figure: 1. a street light pole; 2. an outer housing; 3. a lamp shade; 4. a solar panel; 5. closing the plate; 6. a lifting platform; 61. a fan; 7. a pneumatic push rod; 8. an energy supply switching body; 9. a frame; 10. a motor; 11. a top rod; 12. a limiting plate; 13. a storage battery; 14. a vent hole; 15. a power supply end row of a common power supply; 16. a standby power supply terminal row; 17. a common electrode rod; 18. a common stationary contact; 19. a backup electrode rod; 20. a spare stationary contact; 21. an electrode plate; 22. a common moving contact; 23. standby movable contact; 24. turning the column; 25. a first dust screen; 26. a heat dissipation channel; 27. a heat absorbing plate; 28. a heat dissipating fin; 29. a heat conductive sheet; 30. a second dust screen; 31. an activated carbon adsorption net; 32. a moisture absorption pad; 33. a through hole; 34. a support plate; 35. a guide rail; 36. a fan; 37. heating wires; 38. and (4) radiating holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, a street lamp standby energy supply switching device based on an urban street lamp network includes a street lamp post 1, a housing body 2 is disposed above the street lamp post 1, a lampshade 3 is disposed on one side of the housing body 2, an energy supply switching main body 8 is disposed inside the housing body 2, a solar panel 4 is disposed above the energy supply switching main body 8, a power supply terminal row 15 for a common power supply is disposed at one end of the energy supply switching main body 8, a power supply terminal row 16 for a standby power supply is disposed at the other end of the energy supply switching main body 8, and the solar panel 4 can convert solar energy into electric energy to provide a standby power supply for a street lamp.

The inner wall of shell body 2 is provided with limiting plate 12, and limiting plate 12 is provided with two, the top of two limiting plates 12 all is provided with shrouding 5, and shrouding 5 rotates with shell body 2 to be connected, solar panel 4's both sides all are provided with ejector pin 11, limiting plate 12 has played spacing effect to shrouding 5's turned angle, ejector pin 11 highly is higher than solar panel 4, the action that can drive shrouding 5 linkage and carry out automatic opening is risen to ejector pin 11, make solar panel 4 stretch out the outside absorption solar energy of shell body 2.

The below of energy supply switching main part 8 is provided with elevating platform 6, the both sides of energy supply switching main part 8 all are provided with fan 61, and fan 61 is located the inside of elevating platform 6, the central point department of putting of elevating platform 6 is provided with perforating hole 33, the below of elevating platform 6 is provided with pneumatic push rod 7, and pneumatic push rod 7 is provided with two, fan 61 is convenient for the inside gaseous circulation of energy supply switching main part 8, accelerate the radiating rate of energy supply switching main part 8, pneumatic push rod 7's concertina movement can drive elevating platform 6 and go up and down, perforating hole 33 is convenient for switch the dehumidification of main part 8 bottom to the energy supply.

The fan 36 is arranged below the through hole 33, the fan 36 is arranged on the guide rail 35 in a sliding mode, the heating wire 37 is arranged below the guide rail 35, the supporting plates 34 are arranged on two sides of the heating wire 37 and two sides of the guide rail 35, the fan 36 is started again through heating the heating wire 37, the fan 36 performs linear reciprocating motion under the action of the guide rail 35, and effective dehumidification can be performed on the bottom of the energy supply switching main body 8.

The front end of the energy supply switching main body 8 is fixedly provided with a rack 9, a motor 10 is installed above the rack 9, a rotary column 24 is arranged inside the energy supply switching main body 8, the rotary column 24 is in transmission connection with the output end of the motor 10, an electrode plate 21 is arranged above the rotary column 24, one side of the electrode plate 21 is provided with a common movable contact 22, the other side of the electrode plate 21 is provided with a standby movable contact 23, the motor 10 is started, the output end of the motor 10 drives the rotary column 24 to transmit, the electrode plate 21 is driven to rotate, and energy supply switching is easily realized.

The both sides that the energy supply switches main part 8 all are provided with first dustproof screen panel 25, the inboard of first dustproof screen panel 25 is provided with heat dissipation channel 26, and heat dissipation channel 26 is provided with a plurality of, heat dissipation channel 26's top is provided with ventilation hole 14, heat dissipation channel 26's below is provided with louvre 38, first dustproof screen panel 25's below is provided with second dustproof screen panel 30, first dustproof screen panel 25 and second dustproof screen panel 30 have dirt-proof effect, the heat that the energy supply switches main part 8 internal environment produced obtains effective heat transfer through heat dissipation channel 26, ventilation hole 14 also can guarantee the circulation that the energy supply switches main part 8 inside air.

The heat absorbing plate 27 is arranged below the rotary column 24, the heat radiating fins 28 are arranged below the heat absorbing plate 27, the heat radiating fins 28 are provided with a plurality of heat radiating fins 28, the heat radiating fins 28 are connected with the heat absorbing plate 27 through heat conducting fins 29, the heat absorbing plate 27 absorbs heat and then conducts the heat to the heat radiating fins 28 through the heat conducting fins 29 to be discharged through the heat radiating holes 38, and therefore the heat radiating effect is improved.

The inside in ventilation hole 14 is provided with activated carbon adsorption net 31, and one side of activated carbon adsorption net 31 is provided with the moisture absorption pad 32, and activated carbon adsorption net 31 can carry out effective absorption to the impurity granule in the gas, and the moisture absorption pad 32 has the effect of dehumidification, has guaranteed that the energy supply switches the drying of 8 internal environment in main part.

One side that power supply end row 15 is close to plate electrode 21 of common use is provided with electrode pole 17 commonly used, be provided with commonly used stationary contact 18 on the electrode pole 17 commonly used, one side that power supply end row 16 is close to plate electrode 21 is provided with standby electrode pole 19, be provided with reserve stationary contact 20 on the standby electrode pole 19, the top of plate electrode 21 is provided with battery 13, when motor 10 corotation, reserve movable contact 23 and reserve stationary contact 20 contact, can in time switch to reserve electric energy when power failure or electric quantity of commonly used electric energy are used up, when the power restoration of commonly used electric energy supplies power, can make motor 10 reversal, make movable contact 22 and the contact of commonly used stationary contact 18 commonly used, switch to the electric energy commonly used with reserve, this kind of switching mode is simple quick, make the street lamp can not receive the influence because of the power outage of commonly used.

In order to better show the process of realizing the street lamp standby energy supply switching device based on the urban street lamp network, the embodiment provides a method for the street lamp standby energy supply switching device based on the urban street lamp network, which comprises the following steps:

the method comprises the following steps: the pneumatic push rod 7 is driven to perform telescopic motion by using the air cylinder as a power source, the lifting platform 6 can be driven to lift, when the lifting platform 6 lifts, the lifting of the ejector rod 11 drives the sealing plate 5 to be linked to perform automatic opening motion due to the fact that the ejector rod 11 is higher than the solar panel 4, and the solar panel 4 extends out of the outer shell 2 to absorb solar energy;

step two: when the energy needs to be switched, the motor 10 is started, the output end of the motor 10 drives the rotary column 24 to transmit, so as to drive the electrode plate 21 to rotate, when the motor 10 rotates forwards, the standby movable contact 23 is contacted with the standby stationary contact 20, so that the standby electric energy can be switched to in time when the power failure or the electric quantity of the common electric energy is exhausted, when the power supply of the common electric energy is recovered, the motor 10 can be rotated backwards, the common movable contact 22 is contacted with the common stationary contact 18, and the standby electric energy is switched to the common electric energy;

step three: the heat generated by the internal environment of the energy supply switching main body 8 exchanges heat through the heat dissipation channel 26, the heat absorption plate 27 absorbs the heat and then conducts the heat to the heat dissipation fins 28 through the heat conduction fins 29 to be discharged from the heat dissipation holes 38, and the fan 61 is started to discharge the hot air in the energy supply switching main body 8 outwards, so that the heat dissipation speed is accelerated;

step four: by heating the heater wire 37 and then starting the fan 36, the fan 36 is linearly reciprocated by the guide rail 35, and the energy supply switching main body 8 can be effectively dehumidified.

In summary, the following steps: the street lamp standby energy supply switching device and method based on the urban street lamp network, provided by the invention, have the advantages that the solar panel 4 is arranged, the solar panel 4 can convert solar energy into electric energy to provide a standby power supply for the street lamp, the energy is saved and the environment is protected, the street lamp can not be normally used due to power failure, the lifting platform 6 can be driven to lift through the telescopic motion of the pneumatic push rod 7, the ejector rod 11 is higher than the solar panel 4, the ejector rod 11 rises to drive the sealing plate 5 to be linked to automatically open, the solar panel 4 extends out of the outer shell body 2 to absorb solar energy, the limiting plate 12 plays a limiting role in the rotating angle of the sealing plate 5, the through hole 33 is convenient for dehumidifying the bottom of the energy supply switching main body 8, the fan 36 linearly reciprocates under the action of the guide rail 35 by heating the heating wire 37 and then starts the fan 36, so that the bottom of the energy supply switching main body 8 can be effectively dehumidified, the motor 10 is started, the output end of the motor 10 drives the rotary column 24 to transmit, thereby driving the electrode plate 21 to rotate, and easily realizing energy supply switching, when the motor 10 rotates forwards, the standby movable contact 23 contacts with the standby stationary contact 20, and can be switched to standby electric energy in time when the power of the common electric energy is cut off or the electric quantity is exhausted, when the power of the common electric energy is recovered, the motor 10 can rotate backwards, the common movable contact 22 contacts with the common stationary contact 18, and the standby electric energy is switched to the common electric energy, the switching mode is simple and quick, so that the street lamp is not influenced by the power failure of the common power supply, the first dustproof mesh enclosure 25 and the second dustproof mesh enclosure 30 have the dustproof function, heat generated by the internal environment of the energy supply switching main body 8 can be effectively exchanged heat through the heat dissipation channel 26, the ventilation holes 14 can also ensure the circulation of air in the energy supply switching main body 8, and the active carbon adsorption mesh 31 can effectively adsorb impurity particles in the gas, the moisture absorption pad 32 has a dehumidifying function, so that the drying of the internal environment of the energy supply switching main body 8 is ensured, the heat absorption plate 27 absorbs heat and then guides the heat to the radiating fins 28 through the heat conducting fins 29 to be discharged from the radiating holes 38, the fan 61 is convenient for the circulation of the gas in the energy supply switching main body 8, the radiating speed of the energy supply switching main body 8 is accelerated, and the radiating effect is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a street lamp spare energy supply auto-change over device based on city street lamp network, includes street lamp pole (1), its characterized in that: the utility model discloses a street lamp pole, including street lamp pole (1), the top of street lamp pole (1) is provided with shell body (2), one side of shell body (2) is provided with lamp shade (3), the inside of shell body (2) is provided with energy supply and switches main part (8), the top of energy supply switching main part (8) is provided with solar panel (4), the one end of energy supply switching main part (8) is provided with power supply end row (15) commonly used, the other end of energy supply switching main part (8) is provided with stand-by power supply end row (16).

2. The urban street lamp network-based street lamp standby energy supply switching device of claim 1, wherein: the inner wall of shell body (2) is provided with limiting plate (12), and limiting plate (12) are provided with two, two the top of limiting plate (12) all is provided with shrouding (5), and shrouding (5) rotate with shell body (2) to be connected, the both sides of solar panel (4) all are provided with ejector pin (11).

3. The street lamp standby energy supply switching device based on the urban street lamp network according to claim 1, wherein: the energy supply switching device is characterized in that a lifting table (6) is arranged below the energy supply switching main body (8), fans (61) are arranged on two sides of the energy supply switching main body (8), the fans (61) are located inside the lifting table (6), a through hole (33) is formed in the center of the lifting table (6), a pneumatic push rod (7) is arranged below the lifting table (6), and two pneumatic push rods (7) are arranged.

4. The device for switching the supply of the standby energy of the street lamps based on the urban street lamp network according to claim 3, wherein: the below of perforating hole (33) is provided with fan (36), fan (36) slide to set up on guide rail (35), the below of guide rail (35) is provided with heater strip (37), the both sides of heater strip (37) and guide rail (35) all are provided with backup pad (34).

5. The street lamp standby energy supply switching device based on the urban street lamp network according to claim 1, wherein: the energy supply switching device is characterized in that a rack (9) is fixedly arranged at the front end of the energy supply switching main body (8), a motor (10) is mounted above the rack (9), a rotary column (24) is arranged inside the energy supply switching main body (8), the rotary column (24) is in transmission connection with the output end of the motor (10), an electrode plate (21) is arranged above the rotary column (24), a common movable contact (22) is arranged on one side of the electrode plate (21), and a standby movable contact (23) is arranged on the other side of the electrode plate (21).

6. The street lamp standby energy supply switching device based on the urban street lamp network according to claim 1, wherein: the both sides of energy supply switching main part (8) all are provided with first dustproof screen panel (25), the inboard of first dustproof screen panel (25) is provided with heat dissipation channel (26), and heat dissipation channel (26) are provided with a plurality of, the top of heat dissipation channel (26) is provided with ventilation hole (14), the below of heat dissipation channel (26) is provided with louvre (38), the below of first dustproof screen panel (25) is provided with second dustproof screen panel (30).

7. The device for switching the supply of the standby energy of the street lamps based on the urban street lamp network according to claim 5, wherein: the heat-absorbing plate (27) is arranged below the rotary column (24), the heat-radiating fins (28) are arranged below the heat-absorbing plate (27), the heat-radiating fins (28) are provided with a plurality of heat-radiating fins, and the plurality of heat-radiating fins (28) are connected with the heat-absorbing plate (27) through heat-conducting fins (29).

8. The device for switching the supply of the standby energy of the street lamps based on the urban street lamp network according to claim 6, wherein: the inside of ventilation hole (14) is provided with active carbon adsorption net (31), one side of active carbon adsorption net (31) is provided with moisture absorption pad (32).

9. The street lamp standby energy supply switching device based on the urban street lamp network according to claim 1, wherein: one side that power supply end row (15) are close to plate electrode (21) commonly used is provided with electrode pole (17) commonly used, be provided with stationary contact (18) commonly used on electrode pole (17) commonly used, one side that backup power supply end row (16) are close to plate electrode (21) is provided with backup electrode pole (19), be provided with backup stationary contact (20) on backup electrode pole (19), the top of plate electrode (21) is provided with battery (13).

10. The method for switching the street lamp standby energy supply based on the urban street lamp network according to claim 1, characterized in that: the method comprises the following steps:

the method comprises the following steps: the pneumatic push rod (7) is driven to perform telescopic motion by using the air cylinder as a power source, the lifting platform (6) can be driven to lift, when the lifting platform (6) rises, the lifting of the ejector rod (11) drives the sealing plate (5) to be linked to perform automatic opening action due to the fact that the ejector rod (11) is higher than the solar panel (4), and the solar panel (4) extends out of the outer shell (2) to absorb solar energy;

step two: when the energy needs to be switched, the motor (10) is started, the output end of the motor (10) drives the rotary column (24) to transmit, so that the electrode plate (21) is driven to rotate, when the motor (10) rotates forwards, the standby movable contact (23) is in contact with the standby stationary contact (20), the standby electric energy can be switched to in time when the power failure or the electric quantity is exhausted of the common electric energy, when the common electric energy is recovered to supply power, the motor (10) can rotate backwards, the common movable contact (22) is in contact with the common stationary contact (18), and the standby electric energy is switched to the common electric energy;

step three: heat generated by the internal environment of the energy supply switching main body (8) is subjected to heat exchange through the heat dissipation channel (26), the heat absorption plate (27) absorbs the heat and then conducts the heat to the heat dissipation fins (28) through the heat conduction fins (29) to be discharged from the heat dissipation holes (38), and the fan (61) is started to enable hot air in the energy supply switching main body (8) to be discharged outwards, so that the heat dissipation speed is accelerated;

step four: by heating the heating wire (37) and then starting the fan (36), the fan (36) performs linear reciprocating motion under the action of the guide rail (35), and the energy supply switching main body (8) can be effectively dehumidified.