CN217574914U - Charging and battery-replacing cabinet - Google Patents

Abstract

The utility model provides a charging and power-changing cabinet, including the cabinet body and a plurality of battery compartment module. The cabinet body at least comprises a first area, a second area and a third area which are arranged independently. The first area is a main control area, the second area is a battery compartment area, and the third area is an installation and positioning area of the charging and converting cabinet. The battery bin modules are located in the second area of the cabinet body and used for placing rechargeable batteries. The battery cabin modules and the cabinet body are connected through connectors. This kind fills and trades battery case wholly comprises different independent module, convenient loading and unloading, transportation, and the installation is swift, is good for removing, fixed, and cost of transportation and overall cost greatly reduced, the total quantity setting of battery compartment can be according to the installation place or the difference of demand and nimble changeable.

Description

Charging and battery-replacing cabinet

Technical Field

The utility model relates to a battery charging and change some technical field, in particular to cabinet that trades that charges that can be used to battery charging and change.

Background

The development and change of science and technology deeply affect and change the life style and habits of people. One of the changes closely related to daily life is the rapid growth of industries such as takeaway, leg running, designated driving, express delivery and the like, and the main transportation vehicles of practitioners in the industries are battery cars, two-wheel or three-wheel electric vehicles and the like. The batteries arranged in the battery cars and the electric cars have limited capacity, short endurance distance and long travel distance, and the batteries which are fully charged need to be charged or replaced in time. The single self-charging mode of the battery car, the electric two-wheel or three-wheel motor car and the like is replaced by a shared battery by comprehensively considering energy consumption, use safety, convenience, timeliness and the like. Thus, the market for fast charging and replacement of shared batteries is expanding.

The charging and replacing cabinet is also called a shared battery cabinet, and can rapidly charge the shared battery so as to enable a user of a battery-powered vehicle, a two-wheeled or three-wheeled electric vehicle to rapidly replace the battery in time. Generally, each shared battery cabinet is provided with a plurality of battery compartments, and each battery compartment can be used for accommodating a rechargeable battery. At present, the conventional charging and replacing cabinets are provided with 12 battery bins for each charging and replacing cabinet, and are arranged in a fixed mode, so that the conventional charging and replacing cabinets are inconvenient to move. The charging and replacing cabinet consumes time and labor during construction, has a long construction period, is limited or influenced by geographical environment, has high transportation cost, and ensures that the total cost of the charging and replacing cabinet is higher.

Moreover, the battery charging and replacing cabinet is generally arranged in public places for the demanders to replace batteries of battery cars, electric two-wheel or three-wheel motor cars and the like in time. The total number of battery bins of the existing charging and changing cabinet is limited, the requirement of frequent battery changing in the region cannot be met in some public places with frequent battery changing, and the charging and changing cabinet with 12 battery bins needs to be added temporarily, so that the time and the labor are consumed.

Therefore, in the field of charging and exchanging cabinets, how to adopt a modular construction mode to realize capacity expansion of the number of battery bins of the charging and exchanging cabinet, and facilitate transportation and installation, reduce the total cost and the like has become one of the problems to be actively solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned not enough of trade electric cabinet transportation, installation, the utility model provides a trade electric cabinet charges, the cabinet body in this trade electric cabinet should charge, battery compartment comprises different independent module, convenient loading and unloading, transportation, and the installation is swift, benefits in removing, fixed, whole cost greatly reduced, and setting up of battery compartment quantity is nimble changeable.

In order to achieve at least one of the advantages or other advantages, an embodiment of the present invention provides a charging and exchanging cabinet, which includes a cabinet body and a plurality of battery compartment modules. The cabinet body at least comprises a first area, a second area and a third area, wherein the three areas are mutually independent. The first area is a main control area, the second area is a battery compartment area, and the third area is an installation and positioning area of the charging and converting cabinet. The plurality of battery cabin modules are located in the second area of the cabinet body and used for placing rechargeable batteries. The battery compartment modules are connected with each other and the cabinet body through connectors.

In some embodiments, a display screen, a power box and a control box are arranged in the first area in the cabinet body. The display screen, the power box and the control box are electrically connected. The power box is electrically connected with the battery cabin modules.

In some embodiments, the third area of the cabinet may be provided with a roller mechanism module for moving and fixing the charging and converting cabinet. The third region may also be provided with a battery compartment module. The roller mechanism module is detachably connected with the battery cabin module.

In some embodiments, the charging and replacing cabinet is provided with a plurality of heat dissipation ports to dissipate heat of the charging and replacing cabinet in time, so as to ensure safe operation of the charging and replacing cabinet.

In some embodiments, the charging and replacing cabinet may further include a lightning protection device to prevent lightning from affecting the safe operation of the charging and replacing cabinet. The lightning protection device can be arranged in the second area of the cabinet body, such as in a certain battery compartment module.

In some embodiments, the charging and replacing cabinet may further include a monitoring device, which may be used to remotely monitor the charging and replacing cabinet and perform maintenance in time. The monitoring device may be located at the top of the cabinet or within the first region of the cabinet.

In some embodiments, the battery charging and replacing cabinet may further include a shielding module disposed on the top or above the cabinet body.

To achieve at least one of the advantages or other advantages, an embodiment of the present invention provides a battery charging and replacing cabinet, which includes at least one expansion bin, in addition to a cabinet body and a plurality of battery bin modules. The expansion bin is connected with the cabinet body. In some embodiments, the expansion bin is connected with the cabinet body along a horizontal direction.

In some embodiments, a plurality of expansion connectors are disposed on the cabinet. The expansion bin is connected with the cabinet body through the expansion connector. An expansion connector may also be referred to as a volume expansion connector, an expansion connector, etc.

In some embodiments, the flash chamber has a plurality of receiving cavities. The receiving cavity can be used for receiving a battery compartment module.

Compared with the prior art, the utility model provides a fill and trade cabinet has following at least and has:

1. the charging and replacing cabinet is formed by combining different modules, is convenient to assemble and disassemble, reduces the transportation cost, is quick to assemble, and is convenient to install a zero line cable. When the charging cabinet is assembled on the spot, the charging cabinet can be opened within 1 hour and put into use.

2. Compared with the existing charging and exchanging cabinet provided with 12 bins (battery bins), the total cost of the charging and exchanging cabinet can be saved by more than 50%, and the number of the battery bins of the charging and exchanging cabinet can be increased and expanded in time.

3. The charging and replacing cabinet is arranged by adopting a roller mechanism, and is beneficial to moving, outdoor installation, positioning and fixing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic front structural view of an embodiment of a middle charging and replacing cabinet of the present invention;

FIG. 2 is an exploded view of the charging and exchange cabinet of FIG. 1;

fig. 3 is a schematic structural diagram of an embodiment of a back side of the charging and converting cabinet shown in fig. 1;

FIG. 4 is a schematic front view of a battery compartment module in the charging and discharging cabinet shown in FIG. 1;

fig. 5 is a schematic front view of a charging and replacing cabinet in fig. 1 according to an alternative embodiment; and

fig. 6 is a schematic side view of the charging and converting cabinet shown in fig. 5 according to an embodiment.

Reference numerals:

1,1' -charging and replacing electric cabinet 10-cabinet body 12-first area

120-display screen 122-power box 124-control box

14-second zone 16-third zone 18-roller mechanism module

20-battery compartment module 21-front compartment door 22-rear compartment door

23-Battery Chamber body 241-first interface 242-second interface

243-third interface 30-heat dissipation opening 40-lightning protection device

50-monitoring device 60-shielding module 2-expansion bin

25 70-connector 3-receiving Cavity 80-graphic code

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 3, fig. 1 is a schematic front structural view of a charging and replacing cabinet according to an embodiment of the present invention, fig. 2 is an exploded view of the charging and replacing cabinet shown in fig. 1, and fig. 3 is a schematic structural view of an embodiment of a back side of the charging and replacing cabinet shown in fig. 1. To achieve at least one of the advantages or other advantages, an embodiment of the present invention provides a charging and transforming cabinet 1, which at least includes a cabinet body 10 and a plurality of battery compartment modules 20. The cabinet 10 may have a front, a back, and two sides.

The cabinet 10 may be divided into a first region 12, a second region 14, and a third region 16 from top to bottom, which are independently disposed and assembled to form the whole cabinet 10 of the charging and converting cabinet 1. The first area 12 of the cabinet 10 is a main control area, which includes a display screen 120, a power box 122 and a control box 124. The display screen 120 is located on the front side of the first region 12, and may also be understood as being located on the front side of the cabinet body 10, so as to display various related data of the battery charging and replacing cabinet 1 and provide a user with a click selection when replacing the battery. The power box 122 and the control box 124 are located on the back of the first region 12, which is also understood to be located on the back of the cabinet 10. The power box 122 is used for supplying power to the charging and replacing battery cabinet 1. The control box 124 is electrically connected to the display screen 120 for controlling the overall operation of the charging and converting cabinet 1.

The second region 14 of the cabinet 10 is a battery compartment region for accommodating a battery compartment for storing a rechargeable battery. The area is provided with a plurality of battery compartment modules 20, and each battery compartment module 20 can hold a rechargeable battery (not shown) and charge the rechargeable battery. A plurality of battery compartment modules 20 are connected by connectors 25. The battery compartment modules 20 are electrically connected to the power box 122, so as to charge the rechargeable batteries placed in the battery compartment.

The third region 16 in the cabinet 10 is an installation location region of the charging cabinet 1. As shown, in a preferred embodiment, the third region 16 may include a battery compartment module 20 and a roller mechanism module 18. Wherein, the roller mechanism module 18 is detachably mounted at the bottom of the battery chamber module 20 in the third area 16. The roller mechanism module 18 can move and fix the charging and replacing cabinet 1.

In one embodiment, the roller mechanism module 18 may be a universal wheel mechanism to move the charging and charging cabinet 1. The universal wheel mechanism can also be provided with a locking device. When the battery charging and replacing cabinet 1 moves to a preset position, the battery charging and replacing cabinet can be fixed through a locking device in the universal wheel mechanism, and adverse consequences caused by movement of the battery charging and replacing cabinet 1 in the using process of a user are prevented. In the embodiment shown in fig. 1 and 3, the roller mechanism module 18 in the charging and switching cabinet 1 may have four universal wheel mechanisms to move and fix the charging and switching cabinet.

As shown, the battery compartment module 20 includes a front compartment door 21 and a rear compartment door 22. The front door 21 of each battery compartment module 20 is independently arranged on the front surface of the cabinet 10, so that a user can put rechargeable batteries in different battery compartments. After the number of the battery compartment modules 20 in the charging and transforming cabinet 1 is determined, the rear compartment doors 22 of the plurality of battery compartment modules 20 may be installed on the back of the cabinet body 10 after being spliced into a whole.

The charging and transforming cabinet 1 may further comprise a plurality of cooling vents 30. In the example of fig. 2, the heat dissipation opening 30 is located at the back of the cabinet 10. Specifically, the heat dissipation openings 30 are distributed on the rear door 22 of the battery compartment module 20, so as to dissipate heat in time during the charging process of the rechargeable battery.

The charging and replacing cabinet 1 can also comprise a lightning protection device 40, so that the charging and replacing cabinet 1 is prevented from being damaged by lightning in thunderstorm weather, and the safe operation of the charging and replacing cabinet 1 is ensured. A lightning protection device 40 may be provided on the back of the battery compartment module 20. Generally, the lightning protection device 40 is disposed at a higher position to better perform the lightning protection function and effect. In the example of fig. 2, the lightning protection device 40 is provided on the back of the battery compartment module 20 adjacent to the control box 124 in the cabinet 10. In connection with the illustration, it is to be understood that the lightning protection device 40 is disposed within the battery compartment module 20 uppermost in the second region 14 of the cabinet 10. The lightning protection device 40 can be electrically connected to the charging and converting cabinet 1.

The charging and replacing cabinet 1 may further include a monitoring device 50, so as to remotely monitor the operation of the charging and replacing cabinet 1, and timely maintain the charging and replacing cabinet 1. The monitoring device 50 may be provided at the top of the cabinet 10, as shown in fig. 1. The monitoring device 50 may also be disposed at the first region 12 of the cabinet 10, such as adjacent to the display screen 120. The monitoring device 50 may be a rotary camera, and the charging and converting cabinet 1 is monitored and managed in all directions by 360-degree rotation of the camera. In an embodiment, the monitoring device 50 may be provided with a voice-controlled early warning module, which can remotely control the operation and operation of the battery charging and replacing cabinet 1 in real time.

In an embodiment, the charging and converting cabinet 1 may further include a shielding module (not shown in fig. 1) disposed on the top or above the cabinet 10, and the shielding module may extend forward from the front of the cabinet 10. The projection of the shielding module on the ground covers the projection of the charging and converting cabinet 1 on the ground. In rainy days, the shielding module can prevent the rechargeable battery from being wetted by rainwater to affect the safe use of the rechargeable battery in the process of replacing the rechargeable battery.

The utility model discloses in will charge the independent module or the module that the cabinet of changing electricity 1 divide into a plurality of difference, the cost of transportation of whole cabinet is saved in convenient transportation. Simultaneously, after transporting the independent module of difference to the mounting point, do benefit to the loading and unloading, it is convenient to charge the whole cabinet installation of the cabinet of trading 1. Moreover, the number of the battery compartment modules 20 in the charging and power exchanging cabinet 1 can be adjusted in time according to the utilization rate of the placement points and the like.

Referring to fig. 4 in conjunction with fig. 2 and 3, fig. 4 is a schematic front structural view of a battery compartment module in the charging and discharging cabinet shown in fig. 1. The battery compartment module 20 includes a front compartment door 21, a rear compartment door 22, and a battery compartment body 23. The front compartment door 21 and the rear compartment door 22 are detachably connected and fixed with the battery compartment body 23, and can rotate within a certain angle range by using one side of the battery compartment body 23 as a rotating shaft. The front compartment door 21 is mainly opened and closed by a user, so that a fully charged rechargeable battery is taken out from the battery compartment body 23 or a rechargeable battery to be charged is put into the battery compartment body 23. The rear door 22 protects the modules such as the circuits on the back side of the battery compartment module 20. The rear compartment door 22 is provided with a plurality of heat dissipation ports 30, so that heat dissipation can be performed in time when the rechargeable batteries in the battery compartment body 23 are charged, thereby ensuring safe operation of each battery compartment module 20 and the charging and replacing battery cabinet 1.

The battery compartment modules 20 may further include a plurality of interfaces distributed inside the battery compartment body 23, so that each battery compartment module 20 may be flexibly and quickly electrically connected to the adjacent battery compartment module 20 and/or the cabinet 10. In a specific embodiment, as shown in fig. 4, at least three interfaces may be included in the battery compartment module 20, wherein a first interface 241 may be used for electrically connecting and conducting with one side of the cabinet 10, and a second interface 242 and a third interface 243 may be used for electrically connecting and conducting with the first region 12 (main control region) and/or the adjacent battery compartment module 20 in the cabinet 10. Further, in the battery compartment module 20 adjacent to the first region 12 in the cabinet 10, the second interface 242 is electrically connected and conducted with the first region 12 in the cabinet 10, at this time, the first region 12 is provided with the mounting interface of the connector 25, and the third interface 243 is electrically connected and conducted with the adjacent battery compartment module 20.

In the example of fig. 2 and 4, the second interface 242 and the third interface 243 are located on the left side of the battery compartment module 20 and are distributed in the vertical direction when viewed from the front of the charging and charging cabinet 1. In other embodiments, the second interface 242 and the third interface 243 are located on the right side of the battery compartment module 20 and distributed along the vertical direction when viewed from the front of the charging and converting cabinet 1. Referring to fig. 3 in conjunction with fig. 2, in some embodiments, when viewed from the back of the charging and exchanging cabinet 1, the second interface 242 and the third interface 243 are distributed on the left and right sides of the battery compartment module 20 along the vertical direction. In addition, a plurality of first interfaces 241 are distributed on the left and right sides of the battery compartment module 20 along the vertical direction. The battery compartment module 20 can be connected quickly and stably through the interfaces.

Referring to fig. 4 in comparison to fig. 2, the third region 16 of the cabinet 10 may include a battery compartment module 20, and in this case, the battery compartment module 20 may include at least two interfaces. The first interface 241 may be used to be electrically connected to and conducted with one side of the cabinet 10 or the adjacent battery compartment module 20, and the second interface 242 is electrically connected to and conducted with the adjacent battery compartment module 20. The first interface 241, the second interface 242, and the third interface 243 are connected by the connector 25, respectively. In the illustrated example, the connector 25 may be one of a power terminal connector, a terminal connector, and a power connector, and is used for connecting and conducting the circuit between the battery compartment module 20 and the cabinet 10.

In the embodiment shown in fig. 1 to 3, three battery compartment modules 20 are disposed in the charging and replacing cabinet 1 along a vertical direction (or referred to as a longitudinal direction). The two battery compartment modules 20 are independent battery compartment modules 20, and three interfaces are provided to be respectively in circuit connection and conduction with the cabinet body 10 and the adjacent battery compartment modules 20; another battery compartment module 20 is a part of the third region 16 in the cabinet 10, and the battery compartment module 20 has two interfaces and is electrically connected and conducted with the cabinet 10 and the adjacent battery compartment module 20, respectively. But is not limited thereto. In some embodiments, the battery charging and replacing cabinet 1 may be provided with four battery compartment modules 20 along the vertical direction (or the longitudinal direction). Or, the charging and replacing cabinet 1 is provided with four battery compartment modules 20 in the vertical direction and three battery compartment modules 20 in the horizontal direction, and at this time, the charging and replacing cabinet 1 is integrally configured in a 12-compartment (battery compartment) mode. Or, the use frequency of the rechargeable battery in a certain area is high, and the whole charging and replacing battery cabinet 1 can be quickly changed into an arrangement mode of more than 12 bins.

Referring to fig. 5 and 6 in comparison with fig. 1, fig. 5 is a schematic front structure diagram of a variation embodiment of the charging and replacing cabinet shown in fig. 1, and fig. 6 is a schematic side structure diagram of an embodiment of the charging and replacing cabinet shown in fig. 5. To achieve at least one of the advantages or other advantages, an embodiment of the present invention provides a charging and transforming cabinet 1', which includes at least one expansion bin 2 in addition to a cabinet body 10 and a plurality of battery bin modules 20. The expansion bin 2 may also be referred to as an expansion bin. The containing bin 2 is connected with the cabinet body 10. The cabinet 10 has a front, a back and two sides. The capacity expansion bin 2 is detachably connected with one side surface of the cabinet 10, and it can be understood that the capacity expansion bin 2 is connected with the cabinet 10 along the horizontal direction.

As shown in fig. 5 and 6, in some embodiments, a plurality of connectors 70 are disposed on one side of the cabinet 10 to achieve the circuit connection and conduction with the flash chamber 2. In one embodiment, the connector 70 may be an expansion connector or an expansion connector. In the illustrated embodiment, several battery compartment modules 20 can also be connected and electrically connected by the connector 70. The connector 70 may be an expansion connector or an expansion connector.

The capacity expansion bin 2 is provided with a plurality of containing cavities 3 which can contain a plurality of battery bin modules 20. In the embodiment of fig. 5, a total of 12 battery compartment modules 20 (12-compartment arrangement) are provided in the basic configuration of the charging and discharging cabinet 1 shown in fig. 1. The expansion bin 2 has 12 accommodating cavities 3 (not all labeled in the figures), and each accommodating cavity 3 can accommodate one battery bin module 20. The charging and converting cabinet 1' shown in fig. 5 is a 24-compartment (battery compartment) arrangement. However, without being limited thereto, the number of the accommodating cavities 3 in the expansion bin 2 may be varied, such as 4, 8, 16, etc., according to the use place or the installation place of the charging and transforming cabinet 1'.

The bottom of the containing bin 2 can be provided with a roller mechanism module 18 to realize moving and fixing. The roller mechanism module 18 may be a universal wheel mechanism to move the charging cabinet 1'. The universal wheel mechanism can also be provided with a locking device. When the charging and replacing cabinet 1 'moves to a preset position, the locking device in the universal wheel mechanism can be used for fixing, and the charging and replacing cabinet 1' is prevented from moving in the using process of a user to generate adverse results.

Referring to fig. 5 again, the charging and recharging cabinet 1' may further include a graphic code 80, and a user or a user may perform a code scanning operation on the graphic code 80 to quickly replace the rechargeable battery. The graphic code 80 may be a two-dimensional code, a bar code, or the like. The graphic code 80 may be provided in the first section 12 of the cabinet 10. In the illustrated example, the graphic code 80 is disposed in the first region 12 of the cabinet 10 adjacent to the display 120 and electrically connected to the display 120. The graphic code 80 is a two-dimensional code.

The charging and converting cabinet 1' may further include a shielding module 60 disposed on the top or above the cabinet 10, and the shielding module may extend forward from the front of the cabinet 10. Referring to fig. 6, the shielding module 60 is detachably disposed at the top of the cabinet 10 and extends from the back of the cabinet 10 to the front of the cabinet 10 to protect the user and the rechargeable battery. The projection of the shielding module 60 on the ground covers the projection of the charging and converting cabinet 1' on the ground. In the example of fig. 6, the shutter module 60 is a sun visor. The sun visor is a thin plate extending from the back of the cabinet 10 to the front of the cabinet 10 and extending out of the front of the cabinet 10. The sun visor is arranged in an inclined mode. It is understood that the sun visor is at an angle to the horizontal that is less than 90 degrees.

Although terms such as charging cabinet, battery compartment module, heat sink, lightning protection device, roller mechanism, shelter module, connector, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A charging and power conversion cabinet, comprising:

the charging and converting cabinet at least comprises a cabinet body, a first area, a second area and a third area, wherein the three areas are mutually independent, the first area is a main control area, the second area is a battery compartment area, and the third area is an installation and positioning area of the charging and converting cabinet;

the battery compartment modules are located in the second area of the cabinet body and used for placing rechargeable batteries, and the battery compartment modules are connected with the cabinet body through connectors.

2. The charging and conversion cabinet according to claim 1, wherein: the cabinet body is characterized in that a display screen, a power box and a control box are arranged in the first area, the display screen, the power box and the control box are electrically connected, and the power box is electrically connected with the battery compartment modules.

3. The charging and conversion cabinet according to claim 1, wherein: and the third area in the cabinet body is at least provided with a roller mechanism module for moving and fixing the charging and converting cabinet.

4. The charging and conversion cabinet according to claim 1, wherein: the charging and replacing cabinet is provided with a plurality of radiating ports.

5. The charging and conversion cabinet according to claim 1, wherein: the charging and converting cabinet further comprises a lightning protection device.

6. The charging and conversion cabinet according to claim 1, wherein: the charging and converting cabinet further comprises a monitoring device which is arranged at the top of the cabinet body or in the first area of the cabinet body.

7. The charging and conversion cabinet according to claim 1, wherein: the charging and converting cabinet further comprises a shielding module arranged at the top or above the cabinet body.

8. The charging and conversion cabinet according to claim 1, wherein: the charging and power-exchanging cabinet also comprises at least one expansion bin which is connected with the cabinet body.

9. The charging and conversion cabinet of claim 8, wherein: the cabinet body is provided with a plurality of expansion connectors, and the expansion bin is connected with the cabinet body through the expansion connectors.

10. The charging and conversion cabinet of claim 8, wherein: the dilatation storehouse has a plurality of and holds the chamber, it can hold to hold the chamber battery compartment module.

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