CN218161434U - Wind-powered electricity generation electric cabinet body heat radiation structure - Google Patents

Abstract

The utility model discloses a wind-powered electricity generation electric cabinet body heat radiation structure, including tray, wind-powered electricity generation electric cabinet body, cabinet door, coil pipe, water tank, inlet tube, outlet pipe, second fan, connecting pipe, immersible pump and cooling body. This wind-powered electricity generation electric cabinet body heat radiation structure, the top surface fixedly connected with wind-powered electricity generation electric cabinet body of tray, the front side of the wind-powered electricity generation electric cabinet body is equipped with the cabinet door, five sides of the wind-powered electricity generation electric cabinet body all are equipped with the inner chamber of mutual intercommunication, the intracavity is equipped with the coil pipe of mutual intercommunication in the both sides, one side fixedly connected with water tank of the wind-powered electricity generation electric cabinet body, respectively fixedly connected with inlet tube and outlet pipe on the water tank, the wind-powered electricity generation electric cabinet body ware all is worn out at the both ends of coil pipe respectively with inlet tube and outlet pipe fixed connection, the bottom fixedly connected with connecting pipe of outlet pipe, the end connection of connecting pipe has the immersible pump, the immersible pump is established in the water tank, the bottom of water tank is equipped with the opening, the opening part is equipped with the cooling body rather than the looks adaptation.

Description

Wind-powered electricity generation electric cabinet body heat radiation structure

Technical Field

The utility model relates to an electric cabinet body structure specifically is a wind-powered electricity generation electric cabinet body heat radiation structure.

Background

In the conventional thermal power generation, not only a large amount of fossil resources are consumed, but also a large amount of greenhouse gases are emitted, and the nuclear power generation is extremely dangerous although the greenhouse gases are not emitted, and once an accident occurs, the environment is irreversibly damaged, so that in recent years, various countries have been vigorously developing clean energy sources represented by wind power generation.

At present, the main stream wind driven generator is used as a standby power supply, the charging and discharging capacity of a super capacitor monomer in the super capacitor module is greatly influenced by temperature, the charging and discharging capacity of the super capacitor module is deteriorated when the super capacitor module works under a high-temperature environment, the service life of the super capacitor module is shortened, and the super capacitor module is placed in an electric cabinet in the working process.

In view of the above problems, the following publication (bulletin) No.: CN 215343622U's a wind-powered electricity generation electric cabinet body heat radiation structure note has, the fresh air inlet has been seted up to one side of the cabinet body, the inner wall of fresh air inlet can be dismantled and be connected with the filter screen, one side of fresh air inlet is provided with the induced-draft fan, the inner wall at the cabinet body is installed to the induced-draft fan, the inner wall fixedly connected with fixing base of the cabinet body, the lower terminal surface fixedly connected with connecting pipe of fixing base, the lower terminal surface intercommunication of connecting pipe has the tuyere, the up end fixedly connected with tuber pipe of fixing base, the heat dissipation fan is installed to the up end of tuber pipe, one side fixedly connected with heat dissipation of heat dissipation fan. Thereby assisting the wind power electric cabinet body to dissipate heat,

however, publication (bulletin) No.: the technical scheme described in the CN215343622U document exchanges heat with an external space in a ventilation manner, and when the wind power electric cabinet runs for a period of time, the temperature of external air rises, which may cause a reduction in heat dissipation effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wind-powered electricity generation electric cabinet body heat radiation structure to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a wind-powered electricity generation electric cabinet body heat radiation structure, which comprises a tray, the top surface fixedly connected with wind-powered electricity generation electric cabinet body of tray, the front side of the wind-powered electricity generation electric cabinet body is equipped with the cabinet door, five sides of the wind-powered electricity generation electric cabinet body all are equipped with the inner chamber of mutual intercommunication, the intracavity is equipped with the coil pipe of mutual intercommunication in the both sides, one side fixedly connected with water tank of the wind-powered electricity generation electric cabinet body, respectively fixedly connected with inlet tube and outlet pipe on the water tank, the both ends of coil pipe are all worn out the wind-powered electricity generation electric cabinet body ware respectively with inlet tube and outlet pipe fixed connection, the bottom fixedly connected with connecting pipe of outlet pipe, the end connection of connecting pipe has the immersible pump, the immersible pump is established in the water tank, the bottom of water tank is equipped with the opening, the opening part is equipped with the cooling body rather than the cooling body of looks adaptation, the outer wall fixedly connected with switch of the wind-powered electricity generation electric cabinet body, the bottom inner wall of the wind-powered electricity generation electric cabinet body is equipped with the bleeder vent that is linked together with the inner chamber, the rectangular hole that is seted up to the top inboard of the wind-powered electricity generation electric cabinet body, the outside of rectangular hole is equipped with the first fan of fixed connection with the wind-powered electricity generation electric cabinet body inside.

As a further aspect of the present invention: one side of the cabinet door is hinged with the outer wall of the wind power electric cabinet body, and a door lock handle is installed on the cabinet door.

As a further aspect of the present invention: the cooling mechanism comprises a first heat conduction grid, a second heat conduction grid, a semiconductor refrigeration piece and a second fan.

As a further aspect of the present invention: the first heat conduction grid is fixedly connected to the bottom surface of the water tank, the grid part of the first heat conduction grid is inserted into the water tank through an opening in the bottom of the water tank, and the second heat conduction grid is fixedly installed with the first heat conduction grid through bolts.

As the utility model discloses further scheme again: the semiconductor refrigeration piece is arranged between the first heat conduction grid and the second heat conduction grid, the second fan is fixedly installed on the grid part of the second heat conduction grid, and the second fan is electrically connected with the switch through a wire.

As the utility model discloses further scheme again: the first fan is electrically connected with the switch through a wire, and the switch is electrically connected with the external power supply through an electric wire.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a cooperation between tray, the wind-powered electricity generation electric cabinet body, cabinet door, coil pipe, water tank, inlet tube, outlet pipe, second fan, connecting pipe, immersible pump, cooling body, bleeder vent, switch and the first fan forms refrigeration effect and air cycle to directly cool off the heat dissipation to wind-powered electricity generation electric cabinet internal space, avoided the influence of exterior space hot-air to the inside of the wind-powered electricity generation electric cabinet body.

2. The utility model discloses a cooperation between the wind-powered electricity generation electric cabinet body, cavity, bleeder vent, first fan for the internal portion air cycle of wind-powered electricity generation electric cabinet, thereby improve the radiating effect.

Drawings

Fig. 1 is a schematic structural diagram of a heat dissipation structure of a wind power electric cabinet.

Fig. 2 is a sectional view of a heat dissipation structure of a wind power electric cabinet.

Fig. 3 is an enlarged view of a in a heat dissipation structure of a wind power electric cabinet.

Fig. 4 is a partial structure perspective view of a heat dissipation structure of a wind power electric cabinet.

In the figure: 1. a tray; 2. a wind power electric cabinet body; 3. a cabinet door; 4. a coil pipe; 5. a water tank; 6. a water inlet pipe; 7. a water outlet pipe; 8. a second fan; 9. a connecting pipe; 10. a submersible pump; 11. a cooling mechanism; 12. air holes are formed; 13. a switch; 14. a first fan; 15. a first heat-conducting grid; 16. a second heat conductive grid; 17. semiconductor refrigeration piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Please refer to fig. 1-4, in the embodiment of the utility model, a wind power and electric cabinet body heat radiation structure, including tray 1, be equipped with the fork truck hole on tray 1, tray 1's top surface fixedly connected with wind power and electric cabinet body 2, wind power and electric cabinet body 2's front side is equipped with cabinet door 3, five sides of wind power and electric cabinet body 2 all are equipped with the inner chamber of mutual intercommunication, the intracavity is equipped with coil pipe 4 of mutual intercommunication in the both sides, one side fixedly connected with water tank 5 of wind power and electric cabinet body 2, be equipped with the water filling port on the water tank 5, threaded connection's closing cap on the water filling port, be equipped with the medium in the water tank 5, respectively fixedly connected with inlet tube 6 and outlet pipe 7 on the water tank 5, wind power and electric cabinet body 2 ware is all worn out at the both ends of coil pipe 4 respectively with inlet tube 6 and outlet pipe 7 fixed connection, the bottom fixedly connected with connecting pipe 9 of outlet pipe 7, the end connection of connecting pipe 9 has immersible pump 10, immersible pump 10 establishes in water tank 5, the bottom of water tank 5 is equipped with the opening, be equipped with the cooling body 11 rather than the looks adaptation, the outer wall fixedly connected with switch 13 of wind power and electric cabinet body 2's bottom inner wall, the bottom inner wall of wind power and electric cabinet body 2 is equipped with the inner wall 12 that the rectangular hole is equipped with the rectangular hole that the inner chamber 12 is linked together, the rectangular hole is equipped with the internal side of the fixed connection of the rectangular hole 14 is equipped with the fixed connection of the internal side of the wind power and the rectangular hole of the internal side of the wind power and the rectangular fan internal side of the rectangular hole of the internal side of the wind power and the rectangular hole of the internal side of the wind power and the rectangular hole of the internal chamber of the internal side of the cabinet body is equipped with.

One side of the cabinet door 3 is hinged with the outer wall of the wind power electric cabinet body 2, and a door lock handle is installed on the cabinet door 3.

The cooling mechanism 11 comprises a first heat-conducting grid 15, a second heat-conducting grid 16, a semiconductor chilling plate 17 and a second fan 8.

The first heat conducting grid 15 is fixedly connected to the bottom surface of the water tank 5, the grid part of the first heat conducting grid 15 is inserted into the water tank 5 through the bottom opening of the water tank 5, and the second heat conducting grid 16 is fixedly installed with the first heat conducting grid 15 through bolts.

The semiconductor refrigeration piece 17 is arranged between the first heat-conducting grid 15 and the second heat-conducting grid 16, the cold surface of the semiconductor refrigeration piece 17 is attached to the first heat-conducting grid 15, the hot surface of the semiconductor refrigeration piece 17 is attached to the second heat-conducting grid 16, the second fan 8 is fixedly installed on the grid portion of the second heat-conducting grid 16, and the semiconductor refrigeration piece 17 and the second fan 8 are electrically connected with the switch 13 through wires.

The submersible pump 10 and the first fan 14 are electrically connected with the switch 13 through conducting wires, and the switch 13 is electrically connected with an external power supply through wires.

The utility model discloses a theory of operation is:

during the use, when the operation of 2 super capacitor module in the wind-powered electricity generation electric cabinet body, 14 through the first mountain turning of switch 13 this moment, semiconductor refrigeration piece 17, immersible pump 10 and the work of second fan 8, semiconductor refrigeration piece 17 carries out the heat energy transfer this moment, cool off through the medium of first heat conduction grid 15 in to water tank 5, simultaneously carry out heat energy through second heat conduction grid 16 and give off, cooperation second fan 8 dispels the heat to second heat conduction grid 16, thereby improve semiconductor refrigeration piece 17's refrigeration effect, immersible pump 10 drives water liquid and passes through connecting pipe 9 this moment, outlet pipe 7, coil pipe 4 and inlet tube 6 carry out the coolant circulation, simultaneously first fan 14 drives the air and passes through bleeder vent 12, inner chamber and rectangular hole carry out air cycle, endless air and coil pipe 4 contact, thereby cooled, thereby make the interior formation cooling heat dissipation's of the wind-powered electricity generation electric cabinet body 2, dispel the heat to the super capacitor module.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a wind-powered electricity generation electric cabinet body heat radiation structure, includes tray (1), its characterized in that: the top surface fixedly connected with wind-powered electricity generation electric cabinet body (2) of tray (1), the front side of the wind-powered electricity generation electric cabinet body (2) is equipped with cabinet door (3), the five sides of the wind-powered electricity generation electric cabinet body (2) all are equipped with the inner chamber of mutual intercommunication, be equipped with coil pipe (4) of mutual intercommunication in the inner chamber of both sides, one side fixedly connected with water tank (5) of the wind-powered electricity generation electric cabinet body (2), on water tank (5) respectively fixedly connected with inlet tube (6) and outlet pipe (7), wind-powered electricity generation electric cabinet body (2) ware is all worn out at the both ends of coil pipe (4) respectively with inlet tube (6) and outlet pipe (7) fixed connection, the bottom fixedly connected with connecting pipe (9) of outlet pipe (7), the end connection of connecting pipe (9) has immersible pump (10), the bottom of water tank (5) is equipped with the opening, the opening part is equipped with cooling body (11) rather than the looks adaptation, the outer wall fixedly connected with switch (13) of the wind-powered electricity generation electric cabinet body (2), the bottom inner wall of the wind-powered electricity generation electric cabinet body (2) is equipped with bleeder vent (12) that is linked together with the inner chamber, the top inboard of the wind-powered electricity generation electric cabinet body (2) is seted up the first fan (14) that is linked together, the rectangular hole is seted up with the wind-powered electricity generation electric cabinet body internal side of the rectangular hole of the wind-powered electricity generation electric cabinet, the top of the rectangular hole.

2. A wind-powered electric cabinet heat radiation structure of claim 1, characterized in that: one side of the cabinet door (3) is hinged with the outer wall of the wind power electric cabinet body (2), and a door lock handle is installed on the cabinet door (3).

3. The heat dissipation structure of the wind power electric cabinet according to claim 1, wherein: the cooling mechanism (11) comprises a first heat conduction grid (15), a second heat conduction grid (16), a semiconductor refrigeration sheet (17) and a second fan (8).

4. A wind-powered electric cabinet heat radiation structure of claim 3, characterized in that: the first heat conducting grids (15) are fixedly connected to the bottom surface of the water tank (5), the grid parts of the first heat conducting grids (15) are inserted into the water tank (5) through an opening in the bottom of the water tank (5), and the second heat conducting grids (16) are fixedly mounted with the first heat conducting grids (15) through bolts.

5. A wind-powered electric cabinet heat radiation structure of claim 3, characterized in that: the semiconductor refrigerating plate (17) is arranged between the first heat conducting grid (15) and the second heat conducting grid (16), and the second fan (8) is fixedly installed on the grid part of the second heat conducting grid (16).

6. A wind-powered electric cabinet heat radiation structure of claim 1, characterized in that: the submersible pump (10) and the first fan (14) are electrically connected with the switch (13) through leads, and the switch (13) is electrically connected with an external power supply through an electric wire.

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