CN108091790B - Battery bearing box, battery bearing module and battery charging system - Google Patents

Abstract

The invention discloses a battery bearing box, a battery bearing module and a battery charging system. The battery carrying box comprises a carrying shell and a detachable component. The bearing shell is provided with an accommodating space for accommodating a rechargeable battery. The accommodating space has a maximum width and a maximum depth, and the rechargeable battery has a predetermined width and a predetermined depth. The detachable component is arranged in the accommodating space of the bearing shell. The detachable component comprises a width adjusting piece and a depth adjusting piece. The maximum width and the maximum depth of the accommodating space are respectively greater than the preset width and the preset depth of the rechargeable battery, and at least one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery so as to limit the position of the rechargeable battery relative to the bearing shell, thereby facilitating the subsequent charging of the rechargeable battery with any specification.

Description

Battery bearing box, battery bearing module and battery charging system

Technical Field

The present invention relates to a carrying box (or called a "carrying box"), a carrying module and a charging system, and more particularly, to a battery carrying box, a battery carrying module and a battery charging system.

Background

Batteries used for electric mobile devices such as electric cars, golf carts, etc. can be exchanged manually or by using simple aids to replace energy sources, and can be connected in series and in parallel to each other to supply high-power batteries. Such batteries are also applicable to Energy Storage Systems (ESS) in addition to electric mobile devices.

However, the battery of the electric mobile device in the prior art still needs to be improved. Taking an electric locomotive as an example, a plurality of electric locomotives with different brands exist in the market at present, the electric locomotives with different brands use rechargeable batteries with different specifications, and the rechargeable batteries with different specifications are difficult to be commonly used to form a uniform specification, wherein one reason is that each brand locomotive needs to select a battery with good performance matching with a locomotive produced by the house, and the other reason is that when a mobile equipment battery fails, if each locomotive factory uses the battery with the uniform specification, it is difficult to confirm whether the vehicle body causes the battery failure or the battery self fails, and the battery failure is difficult to clear. Therefore, it is still necessary to use batteries of suitable specifications for each car manufacturer. However, batteries with different specifications cause many problems, for example, the charging and battery exchange behaviors are limited due to the different battery specifications.

In view of the above, how to integrate batteries with different specifications for charging without changing the battery suitable for each car manufacturer has become one of the important issues to be solved by the industry.

Disclosure of Invention

The present invention provides a battery carrying box, a battery carrying module and a battery charging system, which can utilize a detachable component to limit the position of a rechargeable battery with any specification relative to a carrying shell, so as to facilitate the subsequent charging of the rechargeable battery with any specification.

One technical solution adopted by the present invention is to provide a battery carrying case, which includes a carrying case and a detachable component. The bearing shell is provided with an accommodating space for accommodating a rechargeable battery, wherein the accommodating space is provided with a maximum width and a maximum depth, and the rechargeable battery is provided with a preset width and a preset depth. The detachable component is arranged in the accommodating space of the bearing shell, wherein the detachable component comprises a width adjusting piece and a depth adjusting piece. Wherein the maximum width and the maximum depth of the accommodating space are respectively greater than the predetermined width and the predetermined depth of the rechargeable battery, and one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell.

Preferably, the other of the width adjustment member and the depth adjustment member of the detachable assembly is disposed between the carrier housing and the rechargeable battery to limit the position of the rechargeable battery relative to the carrier housing.

Preferably, the accommodating space has a maximum height, the rechargeable battery has a predetermined height, the detachable assembly includes a height adjustment member, the maximum height of the accommodating space is greater than the predetermined height of the rechargeable battery, and the height adjustment member of the detachable assembly is disposed between the carrier housing and the rechargeable battery to limit the position of the rechargeable battery relative to the carrier housing.

Preferably, the battery carrying case further includes: the front shutter is pivoted on the bearing shell and used for abutting against the rechargeable battery, wherein the front shutter comprises a soft cushion used for abutting against the rechargeable battery.

Another technical solution adopted by the present invention is to provide a battery carrying module, which includes a cabinet and at least one battery carrying box. The cabinet body is provided with at least one battery bearing box accommodating space. At least one battery carrying box is arranged in the cabinet body, wherein the at least one battery carrying box comprises a carrying shell and a detachable component. The bearing shell is provided with an accommodating space for accommodating a rechargeable battery, wherein the accommodating space is provided with a maximum width and a maximum depth, and the rechargeable battery is provided with a preset width and a preset depth. The detachable component is arranged in the accommodating space of the bearing shell, wherein the detachable component comprises a width adjusting piece and a depth adjusting piece. The maximum width and the maximum depth of the accommodating space are respectively greater than the predetermined width and the predetermined depth of the rechargeable battery, and at least one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery so as to limit the position of the rechargeable battery relative to the bearing shell.

Preferably, the battery carrier module further comprises: the inclined support frame is arranged at the back of the cabinet body, so that at least one bearing shell is inclined towards the inclined support frame by a preset angle; and the heightening structure is arranged at the bottom end of the cabinet body and is far away from the inclined support frame.

Preferably, at least one of the battery carrying cases further comprises: the front stop gate is pivoted on the bearing shell or the cabinet body and used for supporting the rechargeable battery, and the front stop gate comprises a soft cushion used for supporting the rechargeable battery.

Another technical solution adopted by the present invention is to provide a battery charging system, which includes a battery carrying module and at least one battery carrying box. The battery bearing module comprises a cabinet body and at least one battery bearing box, wherein the cabinet body is provided with at least one battery bearing box accommodating space, and the bearing shell is provided with an accommodating space for accommodating a rechargeable battery. At least one battery bearing box comprises a bearing shell and a detachable component. The bearing shell is provided with an accommodating space for accommodating a rechargeable battery, wherein the accommodating space is provided with a maximum width and a maximum depth, and the rechargeable battery is provided with a preset width and a preset depth. The detachable component is arranged in the accommodating space of the bearing shell, wherein the detachable component comprises a width adjusting piece and a depth adjusting piece. The power supply module comprises at least one power supply line, wherein the at least one power supply line is electrically connected to the at least one battery carrying box to provide power for the rechargeable battery. The maximum width and the maximum depth of the accommodating space are respectively greater than the predetermined width and the predetermined depth of the rechargeable battery, and at least one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery so as to limit the position of the rechargeable battery relative to the bearing shell.

Preferably, the battery charging system further includes: the battery sensing module comprises a battery sensor connected with at least one battery bearing box and used for sensing whether the temperature of the rechargeable battery is overheated or the state of the rechargeable battery is abnormal or not when the rechargeable battery is charged.

Preferably, the battery charging system further includes: and the battery reading module comprises a battery reader connected with at least one battery bearing box and used for reading the identification data of the rechargeable battery.

The battery carrying box, the battery carrying module and the battery charging system provided by the technical scheme of the invention have the beneficial effects that the position of the rechargeable battery with any specification relative to the carrying shell can be limited by the technical characteristics that the maximum width and the maximum depth of the accommodating space are respectively greater than the preset width and the preset depth of the rechargeable battery, and at least one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the carrying shell and the rechargeable battery, so that the rechargeable battery with any specification can be charged subsequently.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

Fig. 1 is an exploded view of a first embodiment of a battery carrying case of the present invention when the first rechargeable battery is not carried.

Fig. 2 is an exploded view of the battery carrying case of the first embodiment of the present invention when the second rechargeable battery is not carried.

Fig. 3 is a combination schematic view of the battery carrying case according to the first embodiment of the present invention for carrying the first rechargeable battery.

Fig. 4 is a combination schematic view of the battery carrying case of the first embodiment of the invention for carrying a second rechargeable battery.

Fig. 5 is a schematic side view of the height adjustment member of the battery carrying case according to the first embodiment of the present invention for carrying a second rechargeable battery.

Fig. 6 is a combination schematic view of the battery carrying case of the first embodiment of the invention for carrying a third rechargeable battery.

Fig. 7 is a combination schematic view of the battery carrying case of the first embodiment of the invention for carrying a fourth rechargeable battery.

Fig. 8 is a perspective view of the battery carrying case of the first embodiment of the present invention using a front stop door.

Fig. 9 is a perspective view of a battery carrier module according to a second embodiment of the present invention.

Fig. 10 is a side view schematically illustrating a battery carrier module according to a second embodiment of the present invention.

Fig. 11 is a functional block diagram of a battery charging system according to a third embodiment of the present invention.

Detailed Description

The following description is provided for the embodiments of the battery carrying case, the battery carrying module and the battery charging system disclosed in the present application with reference to specific embodiments, and those skilled in the art can understand the advantages and effects of the present invention from the disclosure in the present application. The invention is capable of other and different embodiments and its several details are capable of modification in various other respects, all without departing from the spirit and scope of the present invention. The drawings of the present invention are for illustrative purposes only and are not drawn to scale. The following embodiments will further explain the technical contents related to the present invention in detail, but the disclosure is not intended to limit the technical scope of the present invention.

First embodiment

Referring to fig. 1 to 7, a battery carrying case 1 according to a first embodiment of the present invention includes a carrying case 10 and a detachable assembly 20.

First, the carrying case 10 has a receiving space R for receiving a rechargeable battery B. Furthermore, the rechargeable battery B can be a horizontally oriented battery or a vertically oriented battery, for example, as shown in FIG. 1, and as shown in FIG. 2, a vertically oriented battery is illustrated. Fig. 3 is a schematic diagram of fig. 1 in which the rechargeable battery B is pushed into the accommodating space R along the Y direction of the XYZ coordinates, and fig. 4 is a schematic diagram of fig. 2 in which the rechargeable battery B is pushed into the accommodating space R along the Y direction of the XYZ coordinates. The rechargeable battery may be a half-cell as shown in fig. 6 and 7, which is smaller than the rechargeable battery B shown in fig. 1 and 2.

Furthermore, the detachable component 20 is disposed in the accommodating space R of the carrying case 10. The detachable assembly 20 includes a width adjustment member and a depth adjustment member 202, for example, the width adjustment member includes two width adjustment pads 201a, 201b, and the depth adjustment member 202 is a depth adjustment pad. More specifically, the accommodating space R has a maximum width W and a maximum depth D, the rechargeable battery B has a predetermined width W 'and a predetermined depth D', and the maximum width W and the maximum depth D of the accommodating space R are respectively greater than the predetermined width W 'and the predetermined depth D' of the rechargeable battery B. In addition, at least one of the width adjustment member and the depth adjustment member 202 of the detachable assembly 20 can be disposed between the carrying case 10 and the rechargeable battery B to limit the position of the rechargeable battery B relative to the carrying case 10. For example, one of the width adjustment member and the depth adjustment member 202 of the detachable assembly 20 can be disposed between the carrying case 10 and the rechargeable battery B to limit the position of the rechargeable battery B relative to the carrying case 10. Alternatively, the other of the width adjustment pad and the depth adjustment member 202 of the detachable assembly 20 can be disposed between the carrier case 10 and the rechargeable battery B to limit the position of the rechargeable battery B relative to the carrier case 10.

Furthermore, depending on the maximum width W and the maximum depth D of the accommodating space R relative to the predetermined width W 'and the predetermined depth D' of the rechargeable battery B, both the width adjustment member and the depth adjustment member 202 of the detachable assembly 20 can be used simultaneously or only one of them can be used. In the present embodiment, as shown in fig. 1 to 8, the width adjustment member and the depth adjustment member 202 of the detachable assembly 20 are used simultaneously. In other embodiments, only the width adjustment member or only the depth adjustment member 202 may be used, and the width adjustment member and the depth adjustment member 202 may have different thicknesses. By the arrangement of the detachable assembly 20, the present invention can selectively use the width adjustment member and the depth adjustment member 202 having two width adjustment pads 201a, 201B, so that the rechargeable batteries B of different sizes or any specification can be stably stored in the battery carrying case 1.

As shown in fig. 5, the accommodating space R has a maximum height H, the rechargeable battery B has a predetermined height H ', and the maximum height H of the accommodating space R is greater than the predetermined height H' of the rechargeable battery B. In addition, the detachable assembly 20 may include a height adjustment member 203, and the height adjustment member 203 of the detachable assembly 20 is disposed between the carrying case 10 and the rechargeable battery B to limit the position of the rechargeable battery B relative to the carrying case 10. More specifically, the thickness of the height adjuster 203 in the Z direction of the XYZ coordinates may be approximately equal to the difference between the maximum height H of the accommodating space R and the predetermined height H' of the rechargeable battery B. Therefore, the rechargeable battery B can be more stably placed in the battery carrying case 1 by the height adjustment member 203. Wherein the height adjuster 203 is a height adjusting pad.

As shown in fig. 8, the battery carrying case 1 further includes a front door 30, and the front door 30 is pivotally disposed on the carrying case 10 for supporting the rechargeable battery B. For example, the front door 30 includes a cushion 301 for abutting against the rechargeable battery B. That is, after the front door 30 is closed, the cushion 301 of the front door 30 is pushed toward the rechargeable battery B, so that the rechargeable battery B can be more stably disposed in the battery compartment 1.

Second embodiment

Referring to fig. 8 and 10, a second embodiment of the invention provides a battery carrying module Z, which includes a cabinet 2 and at least one battery carrying case 1.

First, the cabinet 2 has at least one battery compartment receiving space S. At least one battery carrying case 1 is disposed in the cabinet 2, and the at least one battery carrying case 1 includes a carrying case 10 and a detachable component 20. In addition, the carrying case 10 has a receiving space R for receiving a rechargeable battery B, the detachable assembly 20 is disposed in the receiving space R of the carrying case 10, and the detachable assembly 20 includes a width adjustment member and a depth adjustment member 202. For example, the width adjustment member includes two width adjustment pads 201a, 201 b.

More specifically, the accommodating space R has a maximum width W and a maximum depth D, and the rechargeable battery B has a predetermined width W 'and a predetermined depth D'. The maximum width W and the maximum depth D of the accommodating space R are respectively greater than the predetermined width W 'and the predetermined depth D' of the rechargeable battery B, and at least one of the width adjusting piece and the depth adjusting piece 202 of the detachable assembly 20 is disposed between the carrying case 10 and the rechargeable battery B to limit the position of the rechargeable battery B relative to the carrying case 10.

As shown in fig. 9, in the present embodiment, the cabinet body 2 can accommodate eight battery carrying boxes 1, wherein the battery carrying boxes 1 only need to use width adjusting pads 201a and 201B with different thicknesses according to the size of the rechargeable batteries B capable of accommodating different specifications, and the integration of the rechargeable batteries B with different specifications can be realized by using the principle similar to the thickness gauge and the depth adjusting member 202. Of course, the height adjustment member 203 of the detachable assembly 20 provided in the first embodiment can also be used in the second embodiment to facilitate the adjustment in the height direction.

As shown in fig. 10, the battery carrier module Z further includes an inclined support frame 3 and a raised structure 4. The inclined support frame 3 is provided at the back of the cabinet 2 such that the cabinet 2 is inclined toward the inclined support frame 3 by a predetermined angle Q. The heightening structure 4 is arranged at the bottom end of the cabinet body 2 and far away from the inclined support frame 3. Furthermore, the inclined support frame has an inclined surface 31 and a vertical surface 32. The vertical surface 32 is perpendicular to the ground, and the inclined surface 31 and the vertical surface 32 form an included angle of a predetermined angle Q. Therefore, the present invention can make the cabinet 2 have an inclination angle with respect to the ground by the arrangement of the inclined support frame 3, so that the rechargeable battery B can be pushed into the accommodating space R by gravity.

As shown in fig. 8 and 9, the battery carrying case 1 of the battery carrying module Z further includes a front door 30, and the front door 30 is pivotally disposed on the cabinet 2 (of course, in other embodiments, the front door 30 may be pivotally disposed on the carrying case 10 instead of being pivotally disposed on the carrying case) for supporting the rechargeable battery B. For example, the front door 30 includes a cushion 301 for abutting against the rechargeable battery B. In the present embodiment, the cushion 301 is mainly disposed to enable the rechargeable battery B to be firmly engaged with the accommodating space R. That is, after the front door 30 is closed, the cushion 301 of the front door 30 is pushed toward the rechargeable battery B, so that the rechargeable battery B can be more stably disposed in the battery compartment 1.

Third embodiment

Referring to fig. 11, a battery charging system C according to a third embodiment of the present invention includes a battery carrying module Z and a power supply module P.

First, the battery carrying module Z includes a cabinet 2 and at least one battery carrying box 1. The cabinet 2 has at least one battery compartment receiving space S. At least one battery carrying case 1 is disposed in the cabinet 2, and the at least one battery carrying case 1 includes a carrying case 10 and a detachable component 20. The carrying case 10 has a receiving space R for receiving a rechargeable battery B, the detachable assembly 20 is disposed in the receiving space R of the carrying case 10, and the detachable assembly 20 includes a width adjustment member and a depth adjustment member 202. For example, the width adjustment member includes two width adjustment pads 201a, 201 b. In addition, the power supply module P includes at least one power supply line L, and the at least one power supply line L is electrically connected to the at least one battery carrying case 1 to provide power to the rechargeable battery B.

More specifically, the accommodating space R has a maximum width W and a maximum depth D, and the rechargeable battery B has a predetermined width W 'and a predetermined depth D'. The maximum width W and the maximum depth D of the accommodating space R are respectively greater than the predetermined width W 'and the predetermined depth D' of the rechargeable battery B, and at least one of the width adjusting piece and the depth adjusting piece 202 of the detachable assembly 20 is disposed between the carrying case 10 and the rechargeable battery B to limit the position of the rechargeable battery B relative to the carrying case 10.

For example, as shown in fig. 11, the battery carrying module Z in the present embodiment carries three different brands of rechargeable batteries, namely, a factory battery B1, B factory battery B2, and C factory battery B3, and the power supply module P connects the factory rechargeable batteries B1, B2, and B3 to the charger groups suitable for the factory rechargeable batteries, namely, a factory charger group P1, B factory charger group P2, and C factory charger group P3, by using the power supply line W.

More specifically, the battery charging system C further includes a battery sensing module 5, wherein the battery sensing module 5 includes a battery sensor 51 connected to the battery carrying case 1 for sensing whether the temperature of the rechargeable batteries B1, B2, B3 is too hot or whether the state of the rechargeable batteries B is abnormal.

More specifically, the battery charging system C further includes a battery reading module 6, and the battery reading module 6 includes a battery reader 61 connected to the battery carrying box 1 for reading the identification data of the rechargeable battery B. Specifically, the identification data of the rechargeable batteries B1, B2 and B3 may include the battery operating data 62 and the battery identification data 63 of the rechargeable batteries B1, B2 and B3.

Furthermore, the battery charging system C may further include a processing control module 7 disposed in the cabinet 2 and connected to the battery reader 61 of the battery reading module 6 and the charger groups P1, P2, and P3, wherein the processing control module 7 can process the battery working data 62 and the battery identification data 63 to generate a charging judgment information to a charging judgment unit 71. Further, the charging determination unit 71 can control the charger groups P1, P2, and P3 to charge the rechargeable batteries B1, B2, and B3 according to the charging determination information.

Advantageous effects of the embodiments

The battery carrying box 1, the battery carrying module Z and the battery charging system C provided by the technical scheme of the invention can limit the position of the rechargeable battery B of any specification relative to the carrying shell 10 by the technical characteristics that the maximum width W and the maximum depth D of the accommodating space R are respectively greater than the preset width W 'and the preset depth D' of the rechargeable battery B and at least one of the width adjusting piece and the depth adjusting piece 202 of the detachable component 20 is arranged between the carrying shell 10 and the rechargeable battery B, so that the rechargeable battery B of any specification can be charged subsequently. Therefore, the invention can integrate the rechargeable batteries on the premise of keeping the respective specifications of the different rechargeable batteries, realize the charging of the rechargeable batteries with different specifications, improve the use convenience of the electric mobile device and further promote the industrial development of the electric mobile device.

The disclosure is only a preferred embodiment of the invention and should not be taken as limiting the scope of the invention, so that the invention is defined by the appended claims and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (9)

1. A battery carrier case for a rechargeable battery for an electric vehicle, comprising:

the bearing shell is provided with an accommodating space for accommodating the rechargeable battery, wherein the accommodating space has a maximum width and a maximum depth, and the rechargeable battery has a preset width and a preset depth; and

the detachable assembly is arranged in the accommodating space of the bearing shell, and comprises a width adjusting piece and a depth adjusting piece;

wherein the maximum width and the maximum depth of the accommodating space are respectively greater than the predetermined width and the predetermined depth of the rechargeable battery, and one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell; wherein the width adjustment member comprises at least one width adjustment pad; wherein the depth adjusting member is a depth adjusting pad.

2. The battery carrying case of claim 1, wherein the other of the width adjustment member and the depth adjustment member of the detachable assembly is disposed between the carrying housing and the rechargeable battery to limit the position of the rechargeable battery relative to the carrying housing.

3. The battery carrier case of claim 1, further comprising: the front stop door is pivoted on the bearing shell and is used for abutting against the rechargeable battery, wherein the front stop door comprises a soft cushion for abutting against the rechargeable battery; wherein the accommodating space has a maximum height, the rechargeable battery has a predetermined height, the detachable assembly comprises a height adjusting member, the maximum height of the accommodating space is greater than the predetermined height of the rechargeable battery, and the height adjusting member of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell; wherein the height adjusting member is a height adjusting pad.

4. A battery carrier module for a rechargeable battery for an electric vehicle, the battery carrier module comprising:

the battery box comprises a cabinet body and a battery box, wherein the cabinet body is provided with at least one battery box accommodating space; and

at least one battery bearing box, at least one the battery bearing box is placed in the cabinet body, wherein, at least one the battery bearing box includes:

the bearing shell is provided with an accommodating space for accommodating the rechargeable battery, wherein the accommodating space has a maximum width and a maximum depth, and the rechargeable battery has a preset width and a preset depth; and

the detachable assembly is arranged in the accommodating space of the bearing shell, and comprises a width adjusting piece and a depth adjusting piece;

wherein the maximum width and the maximum depth of the accommodating space are respectively greater than the predetermined width and the predetermined depth of the rechargeable battery, and at least one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell; wherein the width adjustment member comprises at least one width adjustment pad; wherein the depth adjusting member is a depth adjusting pad.

5. The battery carrier module of claim 4, further comprising:

the inclined support frame is arranged at the back of the cabinet body, so that at least one bearing shell is inclined towards the inclined support frame by a preset angle; and

the heightening structure is arranged at the bottom end of the cabinet body and far away from the inclined support frame.

6. The battery carrier module of claim 4, wherein at least one of the battery carrier cases further comprises: the front stop door is pivoted on the bearing shell or the cabinet body and used for abutting against the rechargeable battery, and the front stop door comprises a soft cushion used for abutting against the rechargeable battery; wherein the accommodating space has a maximum height, the rechargeable battery has a predetermined height, the detachable assembly comprises a height adjusting member, the maximum height of the accommodating space is greater than the predetermined height of the rechargeable battery, and the height adjusting member of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell; wherein the height adjusting member is a height adjusting pad.

7. A battery charging system, characterized in that, applied to a rechargeable battery of an electric vehicle, the battery charging system includes:

a battery bears module, the battery bears module includes a cabinet body and at least one places in the internal battery of cabinet bears the case, wherein, at least one the battery bears the case and includes:

the bearing shell is provided with an accommodating space for accommodating the rechargeable battery, wherein the accommodating space has a maximum width and a maximum depth, and the rechargeable battery has a preset width and a preset depth; and

the detachable assembly is arranged in the accommodating space of the bearing shell, and comprises a width adjusting piece and a depth adjusting piece; and

a power supply module, said power supply module including at least one power supply line, wherein at least one said power supply line is electrically connected to at least one said battery carrying box to provide power to said rechargeable battery;

wherein the maximum width and the maximum depth of the accommodating space are respectively greater than the predetermined width and the predetermined depth of the rechargeable battery, and at least one of the width adjusting piece and the depth adjusting piece of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell; wherein the width adjustment member comprises at least one width adjustment pad; wherein the depth adjusting member is a depth adjusting pad.

8. The battery charging system of claim 7, further comprising: the battery sensing module comprises a battery sensor connected with at least one battery bearing box and used for sensing whether the temperature of the rechargeable battery is overheated or the state of the rechargeable battery is abnormal or not when the rechargeable battery is charged; wherein the accommodating space has a maximum height, the rechargeable battery has a predetermined height, the detachable assembly comprises a height adjusting member, the maximum height of the accommodating space is greater than the predetermined height of the rechargeable battery, and the height adjusting member of the detachable assembly is arranged between the bearing shell and the rechargeable battery to limit the position of the rechargeable battery relative to the bearing shell; wherein the height adjusting member is a height adjusting pad.

9. The battery charging system of claim 7, further comprising: and the battery reading module comprises a battery reader connected with at least one battery bearing box and used for reading the identification data of the rechargeable battery.

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