CN214355573U

CN214355573U - Energy storage quick charging station

Info

Publication number: CN214355573U
Application number: CN202022648728.9U
Authority: CN
Inventors: 郑琇平
Original assignee: Zhejiang Xinsheng New Energy Technology Co ltd
Current assignee: Zhejiang Xinsheng New Energy Technology Co ltd
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2021-10-08
Anticipated expiration: 2030-11-16

Abstract

The utility model provides an energy storage fills station soon belongs to charging station technical field. It includes the heat dissipation box, the heat dissipation box in be equipped with quick heat radiation structure, quick heat radiation structure including setting up a plurality of heat dissipation runners in the heat dissipation box lateral wall, heat dissipation runner both ends be equipped with inlet and liquid outlet, the heat dissipation box on still be equipped with the solar charging structure with adjustable angle. The liquid inlet and the liquid outlet are respectively connected with the water inlet pipe and the water outlet pipe, water or cooling liquid in the water inlet pipe can be introduced into the heat dissipation flow channel through the liquid inlet, the water or cooling liquid in the heat dissipation flow channel can absorb heat in the heat dissipation box body, so that the heat dissipation efficiency in the heat dissipation box body is improved, and the water or cooling liquid absorbing the heat can be discharged into the water outlet pipe through the liquid outlet to discharge the heat.

Description

Energy storage quick charging station

Technical Field

The utility model belongs to the technical field of the charging station, a station is filled soon in energy storage is related to.

Background

Along with electric automobile's popularization, the energy storage charging station that solves electric automobile charging problem also increases thereupon, but the poor problem of heat dissipation exists when the energy storage charging station among the prior art charges, has the potential safety hazard.

In order to overcome the defects of the prior art, people continuously explore and propose various solutions, for example, chinese patent discloses an energy storage type electric vehicle fast charging station [ application number: 200920258335.8], including the box that forms by curb plate and roof, bottom plate enclose all around, be equipped with the work door that can open and shut on the curb plate of box one side, be equipped with the charging billing panel and even have the quick rifle that charges of cable on the box curb plate surface of work door both sides, separate into on-duty room and computer lab in the box, on-duty room is close to the position of work door, is equipped with switch board and energy storage battery in the computer lab in the box. The utility model discloses a charging station adopts energy storage battery to store and output electric energy, does not have obvious interference to the electric wire netting, and its box has the bottom plate of being convenient for on-vehicle transportation and outdoor placing, and the box curb plate is equipped with the working door that the personnel of being convenient for got into and the side door of being convenient for equipment fixing and maintenance, can wholly transport and develop the work of charging immediately after the workplace inserts the electric wire netting, but also has above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, a station is filled soon to energy storage is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides an energy storage fills station soon, includes the heat dissipation box, the heat dissipation box in be equipped with quick heat radiation structure, quick heat radiation structure including setting up a plurality of heat dissipation runners in the heat dissipation box lateral wall, heat dissipation runner both ends be equipped with inlet and liquid outlet, the heat dissipation box on still be equipped with the solar charging structure with adjustable angle, the solar charging structure with adjustable angle including setting up at the solar charging panel at heat dissipation box top and the solar charging panel reversing mechanism who links to each other with solar charging panel.

In foretell station is filled soon in energy storage, solar charging panel reversing mechanism include the charging panel mount pad, solar charging panel one end pass through hinge structure with the charging panel mount pad and articulate, the charging panel mount pad on still be equipped with and drive solar charging panel along the articulated department pivoted lift actuating mechanism of solar charging panel and charging panel mount pad.

In foretell energy storage station that fills soon, lift actuating mechanism including set up the lift driver in charging panel mount pad bottom, lift driver have can follow vertical direction pivoted output shaft, lift driver's output shaft passes through connection structure and links to each other with solar charging panel.

In foretell station is filled soon in energy storage, connection structure including setting up the take-up housing in solar charging panel bottom, take-up housing bottom be equipped with the spout, spout sliding connection have articulated slider, articulated slider be connected with the connecting rod through a hinge bar is articulated, the connecting rod keep away from a hinge bar one end and pass the spread groove of setting on the charging panel mount pad and articulate with lift driver's output shaft tip and be connected, the spout in still be equipped with the elastic component, the elastic component both ends link firmly with articulated slider and spout lateral wall respectively.

In foretell station is filled soon in energy storage, hinge structure including setting up the lower articulated seat at charging panel mount pad top, lower articulated seat in be equipped with the hinge groove, the hinge inslot link firmly No. two hinge bars, solar charging panel bottom still be equipped with articulated seat, last articulated seat insert to the hinge inslot and be connected with No. two hinge bar normal running fit.

In foretell station is filled soon in energy storage, solar charging panel reversing mechanism still including setting up between heat dissipation box and charging panel mount pad and the cross-section is annular supporting seat, supporting seat and heat dissipation box link firmly and heat dissipation box and charging panel mount pad swing joint, heat dissipation box top still be equipped with the circumference driver, the circumference driver rotatable output shaft has, the output shaft tip of circumference driver links to each other bottom the charging panel mount pad.

In the energy storage quick charging station, the top of the supporting seat is provided with an inward concave annular limiting groove, and the bottom of the charging plate mounting seat is provided with an annular limiting block inserted into the annular limiting groove.

In the energy storage quick charging station, the cross sections of the sliding groove and the hinged sliding block are T-shaped.

In the energy storage quick charging station, the elastic member is a compression spring.

In the station is filled soon in foretell energy storage, quick heat radiation structure still include a plurality of fin of setting in radiating box lateral wall, fin inner link to each other with the heat dissipation runner, the cross-section of fin be the T type.

Compared with the prior art, the utility model has the advantages of:

1. the liquid inlet and the liquid outlet are respectively connected with the water inlet pipe and the water outlet pipe, water or cooling liquid in the water inlet pipe can be introduced into the heat dissipation flow channel through the liquid inlet, the water or cooling liquid in the heat dissipation flow channel can absorb heat in the heat dissipation box body, so that the heat dissipation efficiency in the heat dissipation box body is improved, and the water or cooling liquid absorbing the heat can be discharged into the water outlet pipe through the liquid outlet to discharge the heat.

2. Solar charging panel can be with solar energy transformation electric energy and store in the battery of storage in the radiator box, and energy-concerving and environment-protective, solar charging panel reversing mechanism can adjust solar charging panel's angle, makes solar charging panel can obtain higher illumination coverage.

3. The lifting driver can drive the hinged sliding block to move upwards through the connecting rod, the hinged sliding block can drive the solar charging panel to rotate along the hinged position of the solar charging panel and the charging panel mounting seat so as to adjust the angle of the solar charging panel according to the solar height, and two ends of the connecting rod are respectively hinged with the end part of the output shaft of the lifting driver and the hinged sliding block so that the connecting rod can adjust the angle of the connecting rod when receiving vertical upward thrust.

4. The elastic piece can provide a lateral thrust to the hinged sliding block so as to offset the lateral thrust applied to the hinged sliding block by the lifting driver, and therefore the solar charging panel can be driven to rotate along the hinged position of the solar charging panel and the charging panel mounting seat.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic diagram of the overall structure provided by the present invention;

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

fig. 3 is an enlarged schematic view at B in fig. 1.

Detailed Description

As shown in fig. 1-3, an energy storage quick charging station comprises a heat dissipation box body 1, the heat dissipation box body 1 is internally provided with a quick heat dissipation structure 2, the quick heat dissipation structure 2 comprises a plurality of heat dissipation flow channels 3 arranged in the side wall of the heat dissipation box body 1, two ends of each heat dissipation flow channel 3 are provided with a liquid inlet 4 and a liquid outlet 5, the heat dissipation box body 1 is further provided with an angle-adjustable solar charging structure 6, and the angle-adjustable solar charging structure 6 comprises a solar charging panel 7 arranged at the top of the heat dissipation box body 1 and a solar charging panel reversing mechanism 8 connected with the solar charging panel 7.

In this embodiment, inlet 4 and liquid outlet 5 link to each other with inlet tube and outlet pipe respectively, and water or coolant in the inlet tube can let in heat dissipation runner 3 through inlet 4, thereby heat dissipation efficiency in the radiating box can be improved to water or coolant in the heat dissipation runner 3 absorption heat dissipation box, has absorbed thermal water or coolant and can discharge the heat in the outlet pipe through liquid outlet 5.

Solar charging panel 7 can be stored in the battery of solar energy transformation for the electric energy and the box that saves the heat dissipation in, and energy-concerving and environment-protective, solar charging panel reversing mechanism can adjust solar charging panel 7's angle, makes solar charging panel can obtain higher illumination coverage.

Specifically, as shown in fig. 1-3, the solar charging panel reversing mechanism 8 includes a charging panel mounting seat 9, one end of the solar charging panel 7 is hinged to the charging panel mounting seat 9 through a hinge structure 10, and the charging panel mounting seat 9 is further provided with a lifting driving mechanism 11 capable of driving the solar charging panel 7 to rotate along the hinged portion between the solar charging panel 7 and the charging panel mounting seat 9. The lifting driving mechanism 11 comprises a lifting driver 12 arranged at the bottom of the charging panel mounting seat 9, the lifting driver 12 is provided with an output shaft capable of rotating along the vertical direction, and the output shaft of the lifting driver 12 is connected with the solar charging panel 7 through a connecting structure 13. The lifting driver 12 can drive the solar charging panel 7 to rotate around the hinged position of the solar charging panel 7 and the charging panel mounting seat 9 through the connecting structure 13, and the angle of the solar charging panel can be adjusted to obtain higher illumination coverage rate, so that the conversion rate of solar energy is improved.

It will be appreciated by those skilled in the art that lift drive 12 may be a cylinder or an air cylinder.

Preferably, as shown in fig. 1 to fig. 3, the connecting structure 13 includes a sliding block seat 14 disposed at the bottom of the solar charging panel 7, a sliding slot 15 is disposed at the bottom of the sliding block seat 14, a hinge sliding block 16 is slidably connected in the sliding slot 15, the hinge sliding block 16 is connected to a connecting rod 18 through a hinge rod 17, one end of the connecting rod 18, which is far away from the hinge rod 17, penetrates through a connecting slot 19 disposed on the charging panel mounting seat 9 and is connected to the end of the output shaft of the lifting driver 12 in a hinge manner, an elastic member 20 is further disposed in the sliding slot 15, and two ends of the elastic member 20 are respectively fixedly connected to the hinge sliding block 16 and the side wall of the sliding slot 15. The lifting driver 12 can drive the hinged sliding block 16 to move upwards through the connecting rod 18, the hinged sliding block 16 can drive the solar charging panel to rotate along the hinged position of the solar charging panel 7 and the charging panel mounting seat 9 so as to adjust the angle of the solar charging panel according to the solar height, and two ends of the connecting rod 18 are respectively hinged with the end part of the output shaft of the lifting driver 12 and the hinged sliding block 16 so that the connecting rod can adjust the angle of the connecting rod when receiving vertical upward thrust.

The elastic member 20 can provide a lateral thrust to the hinge slider 16 to counteract the lateral thrust applied to the hinge slider 16 by the lifting driver 12, so as to drive the solar charging panel to rotate along the hinge between the solar charging panel 7 and the charging panel mounting seat 9.

Preferably, as shown in fig. 1 to fig. 3, the hinge structure 10 includes a lower hinge seat 21 disposed at the top of the charging board mounting seat 9, a hinge groove 22 is disposed in the lower hinge seat 21, a second hinge rod 23 is fixedly connected in the hinge groove 22, an upper hinge seat 24 is further disposed at the bottom of the solar charging board 7, and the upper hinge seat 24 is inserted into the hinge groove 22 and is connected with the second hinge rod 23 in a rotating fit manner. When the solar charging panel 7 is pushed by the lifting driver, the solar charging panel 7 on the solar charging panel can rotate around the second hinge rod 23 in the lower hinge seat 21.

Preferably, as shown in fig. 1-3, the solar charging panel reversing mechanism 8 further includes a supporting seat 25 having a circular cross section and disposed between the heat dissipation box 1 and the charging panel mounting seat 9, the supporting seat 25 is fixedly connected to the heat dissipation box 1, the heat dissipation box 1 is movably connected to the charging panel mounting seat 9, a circumferential driver 26 is further disposed on the top of the heat dissipation box 1, the circumferential driver 26 has a rotatable output shaft, and an end of the output shaft of the circumferential driver 26 is connected to the bottom of the charging panel mounting seat 9. The circumferential driver 26 can drive the charging panel mounting seat 9 and the solar charging panel to integrally rotate, so that the solar charging panel can rotate along with the rising and falling of the sun, and the solar charging panel can obtain higher illumination coverage rate in one day.

Those skilled in the art will appreciate that the circumferential drive 26 may be a rotary cylinder or a motor.

Preferably, as shown in fig. 1-3, an inwardly recessed annular limiting groove 27 is disposed at the top of the supporting seat 25, and an annular limiting block 28 inserted into the annular limiting groove 27 is disposed at the bottom of the charging plate mounting seat 9. The annular limiting groove 27 is matched with the annular limiting block 28 to limit the charging panel mounting seat 9.

Preferably, as shown in fig. 1 to 3, the cross section of the sliding slot 15 and the hinge sliding block 16 is T-shaped to prevent the hinge sliding block 16 from falling off from the sliding slot 15.

Preferably, as shown in connection with fig. 1-3, the resilient member 20 is a compression spring.

Preferably, as shown in fig. 1-3, the fast heat dissipation structure 2 further includes a plurality of heat dissipation fins 29 disposed in the side wall of the heat dissipation case 1, inner ends of the heat dissipation fins 29 are connected to the heat dissipation flow channel 3, and the cross section of the heat dissipation fins 29 is T-shaped. The heat dissipation fins 29 can increase the transfer rate of heat from the inside of the heat dissipation case to the inside of the heat dissipation flow passage, thereby improving the heat dissipation effect.

The utility model discloses a theory of operation is: the liquid inlet 4 and the liquid outlet 5 are respectively connected with the water inlet pipe and the water outlet pipe, water or cooling liquid in the water inlet pipe can be introduced into the heat dissipation flow channel 3 through the liquid inlet 4, the water or cooling liquid in the heat dissipation flow channel 3 can absorb heat in the heat dissipation box body, so that the heat dissipation efficiency in the heat dissipation box body is improved, and the water or cooling liquid absorbing the heat can be discharged into the water outlet pipe through the liquid outlet 5 to discharge the heat. Solar energy can be converted into electric energy by the solar charging panel 7 and stored in a storage battery in the heat dissipation box body, the solar energy charging panel is energy-saving and environment-friendly, the angle of the solar charging panel 7 can be adjusted by the solar charging panel reversing mechanism, the solar charging panel can obtain higher illumination coverage rate, the lifting driver 12 can drive the solar charging panel 7 to rotate around the hinged position of the solar charging panel 7 and the charging panel mounting seat 9 through the connecting structure 13, the angle of the solar charging panel can be adjusted to obtain higher illumination coverage rate, thereby the conversion rate of the solar energy is improved, the lifting driver 12 can drive the hinged slider 16 to move upwards through the connecting rod 18, the hinged slider 16 can drive the solar charging panel to rotate along the hinged position of the solar charging panel 7 and the charging panel mounting seat 9 to adjust the angle of the solar charging panel according to the solar height, two ends of the connecting rod 18 are respectively hinged with the end part of the output shaft of the lifting driver 12 and the hinged slider 16, so that the connecting rod can be convenient for the connecting rod to be arranged at the connecting rod Adjust the angle of self when receiving vertical ascending thrust, elastic component 20 can provide the thrust of a side direction in order to offset the lateral thrust that lift driver 12 applyed to articulated slider 16 is provided to articulated slider 16, thereby can drive solar charging panel along the articulated department rotation of solar charging panel 7 with charging panel mount pad 9, when solar charging panel 7 received lift driver's thrust, solar charging panel 7 on the solar charging panel can rotate around No. two articulated rods 23 in articulated seat 21 down, circumference driver 26 can drive charging panel mount pad 9 and the whole rotation of solar charging panel, make solar charging panel can rotate along with solar east rising west, make solar charging panel homoenergetic obtain higher illumination coverage in one day.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims

1. The utility model provides an energy storage fills station soon, includes heat dissipation box (1), its characterized in that, heat dissipation box (1) in be equipped with quick heat radiation structure (2), quick heat radiation structure (2) including setting up a plurality of heat dissipation runner (3) in heat dissipation box (1) lateral wall, heat dissipation runner (3) both ends be equipped with inlet (4) and liquid outlet (5), heat dissipation box (1) on still be equipped with solar charging structure (6) with adjustable angle, solar charging structure (6) with adjustable angle including setting up solar charging panel (7) at heat dissipation box (1) top and solar charging panel reversing mechanism (8) that links to each other with solar charging panel (7).

2. An energy storage quick charging station according to claim 1, wherein the solar charging panel reversing mechanism (8) comprises a charging panel mounting seat (9), one end of the solar charging panel (7) is hinged to the charging panel mounting seat (9) through a hinge structure (10), and the charging panel mounting seat (9) is further provided with a lifting driving mechanism (11) capable of driving the solar charging panel (7) to rotate along the hinged position of the solar charging panel (7) and the charging panel mounting seat (9).

3. An energy storage quick charging station according to claim 2, characterized in that the lifting driving mechanism (11) comprises a lifting driver (12) arranged at the bottom of the charging plate mounting seat (9), the lifting driver (12) has an output shaft capable of rotating along the vertical direction, and the output shaft of the lifting driver (12) is connected with the solar charging plate (7) through a connecting structure (13).

4. The energy storage quick charging station according to claim 3, wherein the connecting structure (13) comprises a sliding block seat (14) arranged at the bottom of the solar charging panel (7), a sliding groove (15) is formed in the bottom of the sliding block seat (14), a hinged sliding block (16) is connected in the sliding groove (15) in a sliding mode, the hinged sliding block (16) is connected with a connecting rod (18) in a hinged mode through a hinged rod (17), one end, far away from the hinged rod (17), of the connecting rod (18) penetrates through a connecting groove (19) formed in the charging panel mounting seat (9) and is connected with the end portion of an output shaft of the lifting driver (12) in a hinged mode, an elastic piece (20) is further arranged in the sliding groove (15), and two ends of the elastic piece (20) are fixedly connected with the hinged sliding block (16) and the side wall of the sliding groove (15) respectively.

5. An energy storage quick charging station according to claim 2, characterized in that the hinge structure (10) comprises a lower hinge seat (21) arranged at the top of the charging plate mounting seat (9), a hinge groove (22) is arranged in the lower hinge seat (21), a second hinge rod (23) is fixedly connected in the hinge groove (22), an upper hinge seat (24) is further arranged at the bottom of the solar charging plate (7), and the upper hinge seat (24) is inserted into the hinge groove (22) and is connected with the second hinge rod (23) in a rotating fit manner.

6. The station according to any of claims 2-5, wherein the solar charging plate reversing mechanism (8) further comprises a support base (25) with a circular cross section and disposed between the heat dissipating box (1) and the charging plate mounting seat (9), the support base (25) is fixedly connected to the heat dissipating box (1) and the heat dissipating box (1) is movably connected to the charging plate mounting seat (9), a circumferential driver (26) is disposed on the top of the heat dissipating box (1), the circumferential driver (26) has a rotatable output shaft, and an end of the output shaft of the circumferential driver (26) is connected to the bottom of the charging plate mounting seat (9).

7. An energy storage quick charging station according to claim 6, characterized in that the top of the supporting seat (25) is provided with an inwardly recessed annular limiting groove (27), and the bottom of the charging plate mounting seat (9) is provided with an annular limiting block (28) inserted into the annular limiting groove (27).

8. An energy storage quick charging station according to claim 4, characterized in that the cross section of the chute (15) and the hinged slider (16) is T-shaped.

9. An energy storage quick charging station according to claim 4, characterized in that the elastic member (20) is a compression spring.

10. The energy storage quick charging station according to any one of claims 1 to 5, wherein the quick heat dissipation structure (2) further comprises a plurality of heat dissipation fins (29) arranged in the side wall of the heat dissipation box body (1), the inner ends of the heat dissipation fins (29) are connected with the heat dissipation flow channels (3), and the cross section of each heat dissipation fin (29) is T-shaped.