CN220500532U - Power exchange station with green and environment-friendly heat dissipation structure - Google Patents

Abstract

The disclosure provides a power exchange station with a green and environment-friendly heat dissipation structure, and relates to the technical field of power exchange equipment. This trade power station includes fixing base, box, battery, regulating part and dust removal piece, wherein, the box sets up on the fixing base, the box is provided with top cap, bottom plate and a plurality of curb plate, top cap, bottom plate and a plurality of curb plate enclose and establish the holding chamber that forms, the battery is a plurality of, a plurality of batteries evenly set up in the holding intracavity, regulating part sets up between partial curb plate and top cap, partial curb plate is configured to rotate along the direction that deviates from the top cap through the regulation of regulating part to open the curb plate, dispel the heat to the battery of holding intracavity through the air convection. The dust removing piece is arranged between the side plate and the battery, is vertically connected with the top cover and the bottom plate and is used for filtering dust in air. The battery with higher temperature can be radiated, and the use safety of the power exchange station can be improved.

Description

Power exchange station with green and environment-friendly heat dissipation structure

Technical Field

The disclosure relates to the technical field of power conversion equipment, in particular to a power conversion station with a green and environment-friendly heat dissipation structure.

Background

The power exchange station is an energy station for providing charging for the power battery of the electric automobile and rapidly exchanging the power battery. The automobile is powered by replacing the battery, so that the automobile can travel farther, and the tedious and cost required by traditional oiling is avoided.

At present, the heavy truck power exchange station generally adopts modes of top hanging type power exchange, single-side power exchange, integral double-side power exchange and the like to exchange power. After replacement of the old battery in the heavy truck, the old battery needs to be placed in a battery exchange station for charging. Specifically, the battery replacement robot in the battery replacement station moves and places the old battery in a battery replacement area for charging, and the battery is stored after the charging is completed.

However, the battery is charged by the battery replacement station and the stored area is a specific area, the power for replenishing the battery pack has recently reached 360kw/h, and because the power is higher, larger heat is easy to generate when the battery is charged, usually the battery replacement station adopts a charger to dissipate heat of the battery through air cooling or independently sets a water cooling system to dissipate heat of the rechargeable battery, the temperature of the battery can rapidly increase in the charging process or when the battery is abnormal, the situation that the battery with too high temperature cannot be effectively dissipated heat possibly occurs, the use safety of the battery replacement station is affected, and in addition, the temperature of the battery is too high to cause rapid reduction of the charging efficiency, so that the conventional heat dissipation scheme is necessary to be improved.

Disclosure of Invention

The present disclosure aims to overcome at least one of the disadvantages of the related art, and provide a power exchange station with a green and environment-friendly heat dissipation structure, which can dissipate heat of a battery with a higher temperature and improve the use safety of the power exchange station.

Additional aspects and advantages of the disclosure will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the disclosure.

According to one aspect of the present disclosure, there is provided a power exchange station having an environmentally friendly heat dissipation structure, comprising:

a fixing seat;

the box body is arranged on the fixed seat and is provided with a top cover, a bottom plate and a plurality of side plates, and the top cover, the bottom plate and the side plates are enclosed to form a containing cavity;

the plurality of batteries are uniformly arranged in the accommodating cavity;

the adjusting piece is arranged between the partial side plate and the top cover, the partial side plate is configured to rotate along the direction deviating from the top cover through adjustment of the adjusting piece so as to open the side plate, and the heat of the battery in the accommodating cavity is dissipated through air convection;

the dust removing piece is arranged between the side plate and the battery, is vertically connected with the top cover and the bottom plate and is used for filtering dust in air.

In one exemplary embodiment of the present disclosure, the side plate includes:

the turbine speed increaser is arranged on one side of the side plate close to the accommodating cavity and is used for changing the flowing direction and speed of air flowing into the accommodating cavity when the side plate is unfolded.

In an exemplary embodiment of the present disclosure, the side plate further includes:

the solar cell panel is arranged on one side of the side plate, which is away from the accommodating cavity, and is electrically connected with a charging circuit of the battery.

In an exemplary embodiment of the present disclosure, the power exchange station further includes:

the first locking pieces are arranged between the side plates;

the second locking pieces are arranged between the side plates and the bottom plate.

In one exemplary embodiment of the present disclosure, the first locking member includes a first locking unit and a first matching unit, which are respectively disposed on the plurality of side plates, for fastening the plurality of side plates;

the second locking piece comprises a second locking unit and a second matching unit which are respectively arranged on the side plate and the bottom plate and used for enabling the side plate and the bottom plate to be buckled.

In an exemplary embodiment of the present disclosure, the angle of the side plate rotated by the adjustment of the adjustment member is greater than 0 ° and less than or equal to 90 °.

In one exemplary embodiment of the present disclosure, the power exchange station further includes a motor disposed on the top cover and electrically connected to the adjusting member to control the adjustment of the adjusting member.

In one exemplary embodiment of the present disclosure, the power exchange station further includes a sensor assembly comprising:

the first sensor is arranged on one side, away from the bottom plate, of the top cover and is electrically connected with the motor so as to drive the motor;

the second sensor is arranged on one side, facing the bottom plate, of the top cover and is electrically connected with the motor so as to drive the motor.

In one exemplary embodiment of the present disclosure, the first sensor is an illumination sensor and the second sensor is a temperature sensor.

In one exemplary embodiment of the present disclosure, the adjusting member includes:

one end of the sliding sleeve is connected to one side of the top cover facing the side plate;

the one end cover of slide bar is located the one end that the top cap was kept away from to the sliding sleeve, and the other end of slide bar is connected in the one side of curb plate orientation top cap, and the slide bar slides along the sliding sleeve.

The utility model discloses a trade power station with green's heat radiation structure is provided with top cap, a plurality of curb plates, regulating part and dust removal piece on trading the power station, the regulating part sets up between partial curb plate and top cap to adjust the position of partial curb plate relative top cap through the regulating part, with opening the curb plate, can dispel the heat to the battery in curb plate and the top cap through outside air convection, can dispel the heat to the battery that the temperature is higher through dust in the dust removal piece filtration air simultaneously, can improve the security that trades the power station and use.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure. It will be apparent to those of ordinary skill in the art that the drawings in the following description are merely examples of the disclosure and that other drawings may be derived from them without undue effort.

FIG. 1 is a schematic diagram of an embodiment of a power exchange station with an environmentally friendly heat dissipating structure of the present disclosure;

FIG. 2 is a schematic view of the structure of FIG. 1 taken along the direction A-A;

FIG. 3 is a schematic view of the side panel of FIG. 2 shown open;

fig. 4 is a front view of the power plant of fig. 3.

The main element reference numerals in the drawings are explained as follows:

1. a power exchange station;

11. a fixing seat;

12. a case; 121. a top cover; 122. a bottom plate; 123. a side plate; 124. a receiving chamber;

13. a battery;

14. an adjusting member; 141. a sliding sleeve; 142. a slide bar;

15. a dust removing member;

16. a motor;

17. a sensor assembly; 171. a first sensor; 172. a second sensor;

1231. a turbine speed increaser; 1232. a solar cell panel.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments can be embodied in many forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus detailed descriptions thereof will be omitted. Furthermore, the drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale.

Although relative terms such as "upper" and "lower" are used in this specification to describe the relative relationship of one component of an icon to another component, these terms are used in this specification for convenience only, such as in terms of the orientation of the examples in the drawings. It will be appreciated that if the device of the icon is flipped upside down, the recited "up" component will become the "down" component. When a structure is "on" another structure, it may mean that the structure is integrally formed with the other structure, or that the structure is "directly" disposed on the other structure, or that the structure is "indirectly" disposed on the other structure through another structure.

The terms "a," "an," "the," "at least one," and "the presence of one or more elements/components/etc.; the terms "comprising" and "having" are intended to be inclusive and mean that there may be additional elements/components/etc. in addition to the listed elements/components/etc.; the terms "first" and "second" are used merely as labels, and do not limit the number of their objects.

The embodiment of the disclosure provides a trade power station with green's heat radiation structure, it can be through the relative position between regulation part curb plate and the top cap to make partial curb plate rotate along the direction that deviates from the top cap, realize opening of curb plate, compare in the trade power station among the correlation technique, can dispel the heat to the battery in curb plate and the top cap through opening the curb plate so that outside air convection, can dispel the heat to the higher battery of temperature better with the mode of practicing thrift the electric energy, can improve the security that trade the power station used.

As shown in fig. 1 and 2, a battery exchange station 1 (only a charging portion is schematically shown in the drawings) with an environmentally friendly heat dissipation structure according to an embodiment of the present disclosure includes a fixing base 11, a case 12, and a battery 13. The fixing seat 11 is used as a supporting structure of the power exchange station 1 and is used for supporting the box body 12 and the battery 13, the battery 13 is used as an energy supply unit of the power exchange station and is used for replacing the old battery 13 of the heavy truck, and meanwhile, the old battery 13 replaced by the heavy truck is charged, so that the old battery 13 is reused after being fully charged.

Wherein, the battery 13 to be charged or after the charging is completed is disposed in the case 12, and when the temperature of the battery 13 is low, the case 12 is in a closed state, thereby protecting the internal battery 13 from being damaged by the outside. When the temperature of the battery 13 is high, the case 12 is opened to communicate with the outside air, and the battery 13 having a high temperature is cooled by the outside air convection. Meanwhile, the heat dissipation of the battery 13 is realized by utilizing the structure of the power exchange station, and compared with the means of heat dissipation by using a heat dissipation device driven by electric energy in the prior art, the electric energy can be saved.

The following describes in detail the parts of the power exchange station 1 with the environment-friendly heat dissipation structure:

the box 12 sets up on fixing base 11, as shown in fig. 1, fig. 2 and fig. 3, box 12 is provided with top cap 121, bottom plate 122 and a plurality of curb plates 123, and top cap 121, bottom plate 122 and a plurality of curb plates 123 enclose and establish the holding chamber 124, and battery 13 sets up in holding chamber 124, and when the temperature of battery 13 is lower, holding chamber 124 is in the state of closing, in order to protect battery 13, and when the temperature of battery 13 is higher, holding chamber 124 is in the state of opening, in order to communicate outside air, dispels the heat to battery 13 that the inside temperature is higher.

Specifically, an adjusting member 14 is provided between a part of the side plate 123 and the top cover 121, and the part of the side plate 123 is configured to be rotated in a direction away from the top cover 121 by adjustment of the adjusting member 14 to open the side plate 123. When the temperature of the battery 13 is low, the side plates 123 and the top cover 121 enclose a closed space, so that the battery 13 is protected, when the temperature of the battery 13 is high, the partial side plates 123 rotate along the direction deviating from the top cover 121 through the adjustment of the adjusting piece 14, so that the partial side plates 123 are opened relative to the top cover 121, the space where the battery 13 is located is communicated with the outside air, and the heat of the battery 13 inside is dissipated through the outside air convection.

Because the position of the side plate 123 in the power exchange station 1 relative to the top cover 121 can be changed, the state of opening or closing of the side plate 123 can be adjusted, the multiple functions of charging, storing, radiating and the like of the battery 13 by the power exchange station 1 can be realized, the battery 13 with higher temperature can be radiated, and the use safety of the power exchange station can be improved.

The plurality of batteries 13 are uniformly arranged in the accommodating cavity 124, and the plurality of batteries 13 in the accommodating cavity 124 can be simultaneously cooled by opening the side plate 123, so that the cooling efficiency of the plurality of batteries 13 is improved.

It should be noted that, although the case 12 may be opened by the top cover 121 with respect to the side plate 123, and the air from the upper portion of the case 12 is communicated with the outside, when the plurality of batteries 13 are stacked, the heat dissipation effect is not obvious by dissipating the heat from the upper portion of the case 12 to the internal batteries 13, and the communication effect between the batteries 13 stacked on the lower layer and the outside air is not good, and the external air dissipates the heat from the plurality of batteries 13 through the opened side plate 123 from the side of the case 12, so that the heat dissipation efficiency is not affected by the arrangement of the batteries 13 in the case 12, and the arrangement of the batteries 13 in the case 12 is not limited.

Further, the dust removing member 15 is disposed between the side plate 123 and the battery 13, and is vertically connected to the top cover 121 and the bottom plate 122 for filtering dust in the air.

Specifically, in the process of radiating the heat of the battery 13 inside the box 12, the side plate 123 is in an opened state, the outside air is communicated with the internal accommodating cavity 124, a large amount of dust exists in the outside air, the power exchange station 1 is in a dust working environment for a long time, and the dust is attached to the surface of the battery 13 and between all parts of the power exchange station 1, so that the normal use of the power exchange station 1 is affected.

The dust removing member 15 is disposed between the side plate 123 and the battery 13, and is vertically connected to the top cover 121 and the bottom plate 122, so that external dust can be prevented from entering the power exchange station 1, and the service life of the power exchange station 1 is prolonged.

As an alternative embodiment, the dust removing member 15 has a multi-layered filtering structure, and each layer uses a different particle size filter material. The outer filter layer may use coarse-grained filter material for capturing larger dust particles while not excessively impeding air circulation. While the inner filter layer may use fine-grained filter material for catching smaller dust particles. Such a multi-layer filter structure can balance the filtration efficiency and the air flow rate to some extent.

In an exemplary embodiment of the present disclosure, the side plate 123 includes a turbo accelerator 1231. Wherein, turbine speed increaser 1231 is disposed at a side of side plate 123 near accommodating chamber 124 for changing a direction and a speed of air flowing into accommodating chamber 124 when side plate 123 is unfolded.

Specifically, in the turbo-speed increaser 1231, a suitable filter medium may be provided. The direction of external air entering the accommodating cavity 124 can be changed by using the turbine speed increaser 1231, the external air can firstly enter the turbine speed increaser 1231, then the air is purified by the filter medium in the turbine speed increaser 1231, and then the purified air enters the accommodating cavity 124 by the turbine speed increaser 1231, so that the battery 13 in the accommodating cavity 124 is radiated by the purified clean air, on one hand, the air with lower original speed can be accelerated by changing the direction and the flow rate of the air by the turbine speed increaser 1231, and on the other hand, dust in the air can be purified by the filter medium in the turbine speed increaser 1231, and the air flow rate and the dust removing effect can be increased simultaneously. In addition, the turbo-speed increaser 1231 can increase the fluid kinetic energy by changing the direction and speed of the air flow, thereby increasing the flow rate of the air.

In an exemplary embodiment of the present disclosure, the side plate 123 further includes a solar cell panel 1232, as shown in fig. 3, the solar cell panel 1232 is disposed at a side of the side plate 123 facing away from the receiving cavity 124. Under the condition of sufficient sunlight, through the adjustment of the adjusting piece 14, the partial side plate 123 is rotated along the direction deviating from the top cover 121, so that one side of the side plate 123 deviating from the accommodating cavity 124 can be contacted with illumination, and as the solar cell panel 1232 is arranged on one side of the side plate 123 deviating from the accommodating cavity 124, the solar cell panel 1232 can be charged through illumination.

The solar panel 1232 is electrically connected to the charging circuit of the battery 13, so that the battery 13 is charged through the electrical connection between the solar panel 1232 and the battery 13 under the condition that the electric quantity of the solar panel 1232 is sufficient, the energy consumption of the charging station can be reduced, and the electric energy of the charging station can be saved.

Optionally, the solar panel 1232 is further electrically connected to the adjusting member 14, as shown in fig. 4, where the electric quantity of the solar panel 1232 is sufficient, the adjusting member 14 can be controlled by electrically connecting the solar panel 1232 with the adjusting member 14, so that an additional standby power source is provided for opening the adjusting member 14, and the energy loss of the power exchange station 1 can be reduced, and the electric energy provided for the power exchange station 1 can be saved.

As an alternative embodiment, the holder 11 includes a support and a rotation member. The supporting member serves as a supporting structure of the fixing base 11 for supporting and fixing the rotating member. The rotating member is rotatably coupled between the supporting member and the bottom plate 122 to control the orientation of the side plate 123 by rotating the rotating member.

Specifically, the rotating member is connected to the supporting member and the bottom plate 122, and because the top cover 121, the bottom plate 122 and the side plate 123 enclose together to form the accommodating cavity 124, when the rotating member rotates, the rotating member drives the bottom plate 122 to rotate, and then drives the side plate 123 and the top cover 121 connected to the bottom plate 122 to rotate.

When the battery 13 with higher temperature is subjected to heat dissipation, the rotating piece can be rotated according to the external wind direction, so that the side plate 123 is driven to rotate, the side plate 123 is perpendicular to the external wind direction, and then the side plate 123 is opened through the adjustment of the adjusting piece 14, so that the wind direction is perpendicular to the battery 13, external air is perpendicular to the battery 13, and the heat dissipation effect on the battery 13 is improved.

In one exemplary embodiment of the present disclosure, the side plate of the power exchange station 1 may have a window sash type sealing structure, specifically, a plurality of first locking members are disposed around a joint between the side plate and the side plate, a plurality of second locking members are disposed around a joint between the side plate and the bottom plate, a plurality of first locking members are disposed between a plurality of side plates 123, and a plurality of second locking members are disposed between the side plate 123 and the bottom plate 122. Specifically, since the power exchange station 1 further includes the plurality of first locking members and the plurality of second locking members, the plurality of first locking members are disposed between the plurality of side plates 123, the plurality of second locking members are disposed between the side plates 123 and the bottom plate 122, sealability between the side plates 123 and between the side plates 123 and the bottom plate 122 can be ensured, and locking/unlocking between the side plates and the bottom plate can be achieved by including locking members such as electromagnetic locks, thereby preventing rainwater from entering the inside of the accommodating chamber 124 through joint seams between the side plates and between the bottom plate in a rainy day or the like.

In an exemplary embodiment of the present disclosure, the first locking member includes a first locking unit and a first matching unit, which are respectively disposed on the plurality of side plates 123, for locking the plurality of side plates 123; the second retaining member includes second locking unit and second cooperation unit, sets up respectively on curb plate 123 and bottom plate 122 for make curb plate 123 and bottom plate 122 lock, can be through the lock of first locking unit and first cooperation unit, the leakproofness between curb plate 123 and the curb plate 123 and between curb plate 123 and the bottom plate 122 can be ensured to the lock of second locking unit and second cooperation unit, thereby improves the holistic leakproofness of device.

In an exemplary embodiment of the present disclosure, the angle of the adjustment rotation of the side plate 123 by the adjustment member 14 is greater than 0 ° and less than or equal to 90 °.

In the process of radiating the battery 13 with higher temperature, only the adjustment of the adjusting member 14 is needed to rotate the partial side plate 123 in the direction away from the top cover 121, so that the external air is communicated with the battery 13 with higher internal temperature, and the heat radiation of the battery 13 with higher internal temperature can be realized.

Since the temperatures of the different batteries 13 are different, the temperatures of the same battery 13 are also different at different stages of charging, the larger the rotation angle of the side plate 123 is regulated by the regulating member 14, the better the heat dissipation effect is, and the outside air can vertically act on the battery 13 until the rotation angle reaches 90 degrees and is parallel to the top cover 121, so that the heat dissipation effect is optimal. The rotation angle of the side plate 123 can be correspondingly adjusted according to the different temperatures of the batteries 13, so that the heat dissipation of the batteries 13 with different temperatures is satisfied.

In an exemplary embodiment of the present disclosure, the power exchange station 1 further comprises a motor 16, as shown in fig. 1 and 2, the motor 16 being used for controlling the driving of the various components of the power exchange station 1. The motor 16 is disposed on the top cover 121 and electrically connected to the adjusting member 14, and when the battery 13 needs to be cooled or the solar panel 1232 needs to be charged, the motor 16 is turned on to control the adjusting member 14 to work, so that the side plate 123 is opened under the adjustment of the adjusting member 14, and when the side plate 123 is opened, on one hand, the outside air is communicated with the internal battery 13 to cool the battery 13 with higher temperature; on the other hand, the solar panel 1232 on the side far away from the accommodating cavity 124 absorbs light, so as to charge the solar panel 1232.

In an exemplary embodiment of the present disclosure, the power exchange station 1 further comprises a sensor assembly 17, as shown in fig. 2 and 4, the sensor assembly 17 comprising a first sensor 171 and a second sensor 172. The first sensor 171 and the second sensor 172 are both disposed on the top cover 121 and electrically connected to the motor 16. Wherein the first sensor 171 is disposed on a side of the top cover 121 facing away from the bottom plate 122, and the second sensor 172 is disposed on a side of the top cover 121 facing toward the bottom plate 122, so as to drive the motor 16 through the first sensor 171 and the second sensor 172, respectively.

Specifically, the first sensor 171 senses external illumination to control the motor 16 under the condition of sufficient illumination, and drives the motor 16 to be turned on, so as to drive the adjustment member 14 to adjust, thereby opening the side plate 123 to charge the solar cell panel 1232 on the side plate 123. The second sensor 172 senses the temperature inside the accommodating cavity 124, controls the motor 16, drives the motor 16 to be turned on, and then drives the adjusting piece 14 to adjust, so as to realize the opening of the side plate 123, so as to dissipate heat of the battery 13 inside.

In one exemplary embodiment of the present disclosure, the first sensor 171 is an illumination sensor and the second sensor 172 is a temperature sensor. The first sensor 171 is an illumination sensor that senses illumination outside the case 12 to control the operation of the motor 16 in the case where the illumination is sufficient. The second sensor 172 is a temperature sensor, and senses the temperature of the battery 13 inside the case 12, thereby controlling the operation of the motor 16 when the temperature is high.

Since the first sensor 171 and the second sensor 172 are different types of sensors, different functions of the power exchange station 1 can be realized according to corresponding purposes of use, so as to meet different use requirements of the power exchange station 1.

In an exemplary embodiment of the present disclosure, the adjusting member 14 includes a sliding sleeve 141 and a sliding rod 142, one end of the sliding sleeve 141 is connected to a side of the top cover 121 facing the side plate 123, one end of the sliding rod 142 is sleeved at an end of the sliding sleeve 141 remote from the top cover 121, the other end of the sliding rod 142 is connected to a side of the side plate 123 facing the top cover 121, and the sliding rod 142 slides along the sliding sleeve 141.

Because the sliding sleeve 141 is fixedly connected to one side of the top cover 121 facing the side plate 123, one end of the sliding rod 142 is connected to one side of the side plate 123 facing the top cover 121, and the other end of the sliding rod 142 is slidably connected to the sliding sleeve 141, when the solar cell panel 1232 on the side plate 123 needs to be charged or the battery 13 needs to be cooled, the sliding rod 142 can slide relative to the sliding sleeve 141 under the control of the motor 16, so that the sliding rod 142 drives the side plate 123 to rotate relative to the top cover 121, the side plate 123 is opened, and the charging of the solar cell panel 1232 on the side plate 123 or the cooling of the battery 13 is completed.

Optionally, the adjusting member 14 may adopt various adjusting structures such as a spring, a telescopic rod, and a telescopic rope, so long as the structure that the side plate 123 rotates relative to the top cover 121 can be realized, which is not described herein, and the connection structure between the side plate 123 and the top cover 121 is not limited specifically.

In one exemplary embodiment of the present disclosure, the holder 11 further includes a housing and a connection shaft. The support piece and the rotating piece are arranged in a cavity formed by surrounding the shell, the end face of the shell is connected with the bottom plate 122 and the rotating piece, the shell is provided with a through hole, and the connecting shaft penetrates through the through hole to connect the rotating piece and the bottom plate 122.

The housing serves as an outer frame structure of the fixing base 11 for protecting the inner support and the rotating member. Specifically, the connecting shaft is connected to the rotating member and the bottom plate 122 through the through hole penetrating the shell, when the direction of the side plate 123 needs to be changed, the rotating member is rotated, the bottom plate 122 is driven to rotate through the rotation of the connecting shaft, and then the side plate 123 is driven to rotate, so that the position between the side plate 123 and the external wind direction is changed.

Because the outside of rotating the piece is surrounded through the casing, at rotating the in-process of rotating the piece, realized rotating the piece on the one hand, on the other hand also guaranteed the protection to core spare parts such as rotating the piece to the life of rotating the piece has been improved.

Alternatively, the shell and the case 12 may be connected by welding, bonding, clamping, or the like. The shell and the box body 12 are welded, so that the shell and the box body 12 are connected more tightly, the shell and the box body 12 are connected by bonding, the shell and the box body 12 are connected more conveniently, the shell and the box body 12 are connected by clamping, the connection tightness between the shell and the box body 12 is ensured, and meanwhile, the shell and the box body 12 are more flexible when being required to be disassembled, so that the combination and the maintenance of various parts of the shell and the box body 12 are facilitated.

Likewise, other connection methods between the housing and the case 12 may be used, and the connection method between the housing and the case 12 is not particularly limited.

The working process of the power exchange station 1 with the environment-friendly heat dissipation structure is as follows: the power exchange station 1 comprises a fixed seat 11, a box body 12, a battery 13, an adjusting piece 14, a motor 16 and a sensor component 17, wherein the box body 12 is arranged on the fixed seat 11, the plurality of batteries 13 are uniformly arranged in the box body 12, and the sensor component 17 is used for feeding back the change of the surrounding environment of the power exchange station 1 so as to control the motor 16 to drive each structure to work.

Wherein, the box 12 is provided with top cap 121, bottom plate 122 and a plurality of curb plate 123, and top cap 121, bottom plate 122 and a plurality of curb plate 123 enclose to establish and form accommodation chamber 124, and regulating part 14 sets up between partial curb plate 123 and top cap 121, and partial curb plate 123 is configured to rotate along the direction that deviates from top cap 121 through the regulation of regulating part 14 to open curb plate 123, fixing base 11 includes support piece and rotating member, rotates the piece rotation and connects between support piece and bottom plate 122, in order to control the orientation of curb plate 123 through rotating the rotating member.

Specifically, the sensor assembly 17 includes a first sensor 171 and a second sensor 172, and the first sensor 171 senses external light, and in the case of sufficient light, controls the motor 16 to be turned on, and drives the adjustment member 14 to adjust the side plate 123 to open so as to charge the solar cell panel 1232 on the side plate 123. The second sensor 172 senses the temperature of the battery 13, and when the temperature of the battery 13 is high, the motor 16 drives the adjusting piece 14 to open, the side plate 123 is opened, and communication between the external air and the internal battery 13 is achieved, so that heat dissipation is carried out on the battery 13.

Because the position of the side plate 123 relative to the top cover 121 in the power exchange station 1 can be changed under the combined action of the sensor assembly 17 and the motor 16, the open or close state of the side plate 123 is adjusted, so that the power exchange station 1 can realize the functions of charging, storing, radiating and the like of the battery 13, and can radiate the battery 13 with higher temperature, and the use safety of the power exchange station is improved.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

Claims (10)

1. The utility model provides a trade power station with green heat radiation structure which characterized in that includes:

a fixing seat;

the box body is arranged on the fixing seat and is provided with a top cover, a bottom plate and a plurality of side plates, and the top cover, the bottom plate and the side plates are enclosed to form a containing cavity;

the batteries are multiple and are uniformly arranged in the accommodating cavity;

the adjusting piece is arranged between part of the side plates and the top cover, part of the side plates are configured to rotate along the direction away from the top cover through adjustment of the adjusting piece so as to open the side plates, and the heat of the battery in the accommodating cavity is dissipated through air convection;

the dust removing piece is arranged between the side plate and the battery, is vertically connected with the top cover and the bottom plate and is used for filtering dust in air.

2. The power exchange station with an environmentally friendly heat dissipating structure of claim 1, wherein the side plates comprise:

the turbine speed increaser is arranged on one side of the side plate, which is close to the accommodating cavity, and is used for changing the flowing direction and speed of air flowing into the accommodating cavity when the side plate is unfolded.

3. The power exchange station with an environmentally friendly heat dissipating structure of claim 2, wherein the side plates further comprise:

the solar cell panel is arranged on one side of the side plate, which is away from the accommodating cavity, and is electrically connected with the charging circuit of the battery.

4. The power plant with an environmentally friendly heat dissipating structure of claim 1, further comprising:

the first locking pieces are arranged between the side plates;

the second locking pieces are arranged between the side plates and the bottom plate.

5. The power exchange station with the environment-friendly heat dissipation structure according to claim 4, wherein the first locking piece comprises a first locking unit and a first matching unit which are respectively arranged on a plurality of side plates and used for enabling the side plates to be buckled;

the second locking piece comprises a second locking unit and a second matching unit which are respectively arranged on the side plate and the bottom plate and used for enabling the side plate and the bottom plate to be buckled.

6. The power exchange station with an environmentally friendly heat dissipating structure according to any one of claims 1-5, wherein the angle of rotation of the side plates by adjustment of the adjustment member is greater than 0 ° and less than or equal to 90 °.

7. The power plant with environmentally friendly heat dissipating structure of any of claims 1-5, further comprising a motor disposed on the top cover and electrically connected to the adjusting member for controlling adjustment of the adjusting member.

8. The power plant with environmentally friendly heat dissipating structure of claim 7, further comprising a sensor assembly comprising:

the first sensor is arranged on one side, away from the bottom plate, of the top cover and is electrically connected with the motor so as to drive the motor;

the second sensor is arranged on one side, facing the bottom plate, of the top cover and is electrically connected with the motor so as to drive the motor.

9. The power plant with an environmentally friendly heat dissipating structure of claim 8 wherein the first sensor is an illumination sensor and the second sensor is a temperature sensor.

10. The power exchange station with an environmentally friendly heat dissipating structure of any of claims 1-5, wherein the conditioning element comprises:

one end of the sliding sleeve is connected to one side of the top cover, which faces the side plate;

the sliding sleeve comprises a top cover, a side plate and a sliding rod, wherein the top cover is arranged on the side plate, the sliding sleeve is sleeved at one end of the sliding sleeve, which is far away from the top cover, the other end of the sliding rod is connected to one side of the side plate, which faces the top cover, and the sliding rod slides along the sliding sleeve.