CN217388293U - Shared electric vehicle and shared charger baby device thereof - Google Patents

Abstract

The utility model relates to a sharing electric motor car and sharing precious device that charges thereof, include: the charger comprises a charging shell, at least one bin gate and at least one charger baby body; the charging shell is provided with at least one charging groove, and each charging groove is internally provided with an elastic pressing buckle mechanism; each charger body is provided with a buckle structure, and the buckle structure is in buckle connection with the elastic pressing buckle mechanism; each bin door is rotatably arranged on one side of a charging groove, the charging groove is movably sealed by the bin door, a first magnetic attraction body is arranged on one surface, facing the charging groove, of the bin door, the first magnetic attraction body is a permanent magnet, an electromagnet is arranged in the charging groove, and the electromagnet is used for generating a magnetic field after being electrified. Adopt buckle structure and elasticity to press the mode that buckle mechanism buckle is connected and to fix the precious body that charges at the charging groove to cooperation door receives the magnetic force actuation and seals the charging groove, thereby effectively prevents to charge that precious body is stolen, and the closure of door has played waterproof effect well, is convenient for at open air input.

Description

Shared electric vehicle and shared charger baby device thereof

Technical Field

The utility model relates to a sharing electric motor car technical field especially relates to a sharing electric motor car and precious device that charges that shares thereof.

Background

With the continuous development of mobile communication, the shared power bank is also widely applied. The sharing treasured that charges will charge the precious locking through the lockpin of electronic lock to avoid illegal user to steal the treasured that charges. Because present sharing is charged precious and is used at indoor mostly, consequently, need not to compromise waterproofly, consequently, present sharing is charged precious only need set up the electronic lock theftproof can, need not to consider waterproof problem.

However, along with the popularization and use of the shared electric vehicle, the shared charging bank arranged on the shared electric vehicle is also widely applied, the shared charging bank arranged on the shared electric vehicle can facilitate users to borrow or return the charging bank outdoors, however, the electronic lock is only used for preventing burglary, the electronic lock cannot prevent water, and the use of the shared charging bank in outdoor putting is limited.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a shared electric vehicle and a shared power bank device thereof.

A shared power bank device, comprising: the charger comprises a charging shell, at least one bin gate and at least one charger baby body;

the charging shell is provided with at least one charging groove, and each charging groove is internally provided with an elastic pressing buckle mechanism;

each charger baby body is provided with a buckle structure, and the buckle structure is in buckle connection with the elastic pressing buckle mechanism;

each bin gate rotates and is arranged on one side of one charging groove, the charging groove is movably sealed by the bin gate, the bin gate is provided with a first magnetic attraction body, the first magnetic attraction body is a permanent magnet, an electromagnet is arranged in the charging groove, and the electromagnet is used for generating a magnetic field after being electrified.

In one embodiment, a waterproof sealing ring is arranged on the outer edge of one surface, facing the charging groove, of the bin door, and the waterproof sealing ring is movably abutted against the side wall of the charging groove.

In one embodiment, the charging housing has a plurality of receiving slots, each of the charging slots is disposed at the bottom of one of the receiving slots, the width of the charging slot is smaller than that of the receiving slot, and the waterproof sealing ring abuts against the bottom of the receiving slot.

In one embodiment, elasticity is pressed buckle mechanism and is included the elastic component, is pressed return subassembly and two clamps, two clamps respectively with press the return subassembly and be connected, and two clamps set up relatively, press the return subassembly with the one end of elastic component is connected, the other end of elastic component with the casing that charges is connected, two the clamp arch set up in the bottom in groove that charges, and two clamp activities set up in the bottom in groove that charges, buckle structure for the arch set up in precious body orientation that charges the drawing of the one side of groove bottom portion colludes the piece, the both sides arch of drawing colluding the piece is provided with the fixture block, draw colluding the piece activity and insert and locate between two clamps, each the clamp activity butt in the fixture block dorsad the one side of groove bottom portion charges, with draw colluding the piece chucking.

In one embodiment, the depth of the charging groove is greater than the length of the power pack body, and when the power pack body is inserted into the charging groove and the clamping block is clamped on the elastic pressing and buckling mechanism, the end face of the power pack body is recessed into the charging groove.

In one embodiment, when the door covers and closes the charging slot, the surface of the door, which faces away from the charging slot, is recessed in the charging slot.

In one embodiment, a second magnetic attraction body is arranged in the charging slot, the second magnetic attraction body is a permanent magnet, when the door cover closes and closes the charging slot, the first magnetic attraction body and the second magnetic attraction body attract each other, and the electromagnet is used for generating repulsion force to the first magnetic attraction body after being electrified.

In one embodiment, a magnetic pole generated after one end of the electromagnet close to the first magnetic attraction body is electrified is different from a magnetic pole of one end of the first magnetic attraction body close to the electromagnet.

A shared electric vehicle comprises an electric vehicle body and further comprises the shared charger baby device in any one of the embodiments, wherein the shared charger baby device is arranged on the electric vehicle body.

The utility model has the advantages that: adopt buckle structure and elasticity to press the mode that buckle mechanism buckle is connected to fix the precious body that charges in charging groove to cooperation door receives magnetic force actuation and seals charging groove, thereby effectively prevents to charge precious body and is stolen, and in addition, the closure of door has still played waterproof effect well, and the precious device of being convenient for share charges is put in the open air.

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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic cross-sectional view of a shared power bank device according to an embodiment;

fig. 2 is a schematic perspective view of a shared electric vehicle according to an embodiment.

Detailed Description

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

As shown in fig. 1, a shared electronic device 10 according to an embodiment of the present invention includes a charging housing 100, at least one door 200, and at least one electronic device body 300; at least one charging slot 101 is formed in the charging housing 100, and an elastic pressing and buckling mechanism 400 is arranged in each charging slot 101; each charger body 300 is provided with a buckle structure, and the buckle structure is connected with the elastic pressing buckle mechanism 400 in a buckling manner; each bin gate 200 is rotatably arranged on one side of one charging slot 101, the bin gate 200 movably seals the charging slot 101, the bin gate 200 is provided with a first magnetic attraction body 210, the first magnetic attraction body 210 is a permanent magnet, an electromagnet 230 is arranged in the charging slot 101, and the electromagnet 230 is used for generating a magnetic field after being electrified.

In this embodiment, when the charger body 300 is inserted into the charging slot 101, the fastening structure on the charger body 300 presses the elastic pressing fastening mechanism 400, so that the elastic pressing fastening mechanism 400 is opened, and then the elastic pressing fastening mechanism 400 is fastened to fasten the fastening structure, so that the charger body 300 is fixed in the charging slot 101; when treasured body 300 extrudees elasticity again and presses buckle mechanism 400, elasticity is pressed buckle mechanism 400 and is opened for treasured body 300 that charges pops out, can be taken out. It should be understood that the resilient press latch mechanism 400 can be implemented using existing technologies, the principles of which are known to those skilled in the art. For example, after the user opens the door 200, the user presses the charger baby body 300, and the charger baby body 300 pops up, so that the user can borrow the charger baby; when the user presses the power pack body 300 into the charging slot 101, the power pack body 300 is elastically locked by the locking mechanism 400 and fixed in the charging slot 101. The structure of the elastic pressing latch mechanism 400 will be further described below.

It should be understood that, in the present embodiment, the door 200 is rotatably disposed on the charging housing 100 and disposed outside the charging slot 101, for example, a rotating slot is formed on a side wall of the charging slot 101 close to the slot opening, two sides of the door 200 are respectively provided with a rotating shaft, the rotating shaft on each side is rotatably disposed in a rotating slot, in fig. 1, since the cross-sectional position is not at the rotating shaft, the structure of the rotating slot and the rotating shaft is not illustrated in fig. 1, but the cooperation of the rotating shaft and the rotating slot belongs to the prior art, which is a technology known by those skilled in the art, and this is not described redundantly in the present embodiment.

In this embodiment, after the main body 300 is elastically pressed by the fastening mechanism 400, the charging electrode on the main body 300 is connected to the charging terminal 150 at the bottom of the charging slot 101, so that the power source can charge the main body 300 through the charging terminal 150.

In this embodiment, the electromagnet 230 is configured to generate a magnetic field after being energized, and the magnetic field may generate an attraction force on the first magnetic attraction body 210 to close the door 200, or may generate a repulsion force on the first magnetic attraction body 210 to open the door 200. The door 200 may be normally closed when being forced or normally open when being forced.

In this embodiment, when the door 200 closes the charging slot 101, the first end of the first magnetic attraction body 210 is close to the first end of the electromagnet 230, in one embodiment, the door 200 is normally open under force, and after the electromagnet 230 is powered on, the polarity of the first end of the electromagnet 230 is opposite to that of the first end of the first magnetic attraction body 210, so that the first end of the electromagnet 230 is attracted to one end of the first magnetic attraction body 210, the magnetic force of the electromagnet 230 is greater than the normally open force, and the door 200 is tightly closed; in one embodiment, the door 200 is normally closed by a force, and after the electromagnet 230 is powered on, the first end of the electromagnet 230 and one end of the first magnetic attraction 210 have the same polarity, so that the first end of the electromagnet 230 and one end of the first magnetic attraction 210 repel each other, the magnetic force of the electromagnet 230 is greater than the normally closed force, and the door 200 is opened.

It should be understood that the control of the power on and off of the electromagnet 230 can be controlled by the charging control circuit board in the shared charger device 10, or can be controlled by the driving computer of the shared electric vehicle. In one embodiment, the shared power bank device 10 further includes a charging control circuit board, the charging control circuit board is electrically connected to the electromagnet 230, and the charging control circuit board is configured to control the electromagnet 230 to be powered on and powered off, so that the charging control circuit board is connected to the server through the communication module, and can receive a control instruction sent by a user after scanning the two-dimensional code through the mobile terminal and connecting to the server, and the charging control circuit board can control the electromagnet 230 to be powered on or powered off according to the control instruction of the user, so as to control the opening or closing of the door 200.

It should be understood that the first magnetic attraction 210 may be disposed on a side of the door 200 facing the charging slot 101, or may be disposed inside the door 200. In this embodiment, the door 200 is provided with a receiving cavity therein, and the first magnetic element 210 is disposed in the receiving cavity.

In the above-mentioned embodiment, adopt buckle structure and elasticity to press the mode that buckle mechanism 400 buckle is connected to fix treasured body 300 that charges in charging groove 101 to cooperation door 200 receives the magnetic force actuation and seals charging groove 101, thereby effectively prevents to charge that treasured body 300 is stolen, and in addition, the closure of door 200 has still played waterproof effect well, and the sharing treasured device 10 that charges of being convenient for is in open air input.

In one embodiment, a waterproof sealing ring 220 is disposed on an outer edge of a surface of the door 200 facing the charging slot 101, and the waterproof sealing ring 220 is movably abutted against a sidewall of the charging slot 101. In this embodiment, the waterproof sealing ring 220 is provided at the edge of the door 200, so that the door can be effectively waterproof. The water seepage and short circuit of the charger body 300 in the charging slot 101 can be avoided. In this embodiment, the waterproof sealing ring 220 is made of rubber, and the rubber has good elasticity and toughness and good waterproof performance.

In one embodiment, referring to fig. 1, each charging slot 101 includes a receiving sub-slot 102 and a charging sub-slot 103, the receiving sub-slot 102 is disposed on the surface of the charging housing 100, the charging sub-slot 103 is disposed at the bottom of the receiving sub-slot 102, the width of the charging sub-slot 103 is smaller than the width of the receiving sub-slot 102, and the waterproof sealing ring 220 abuts against the bottom of the receiving sub-slot 102

In this embodiment, since the sub-charging groove 103 is disposed at the bottom of the accommodating sub-groove 102, and the width of the sub-charging groove 103 is relatively small, the sidewall of the notch of the sub-charging groove 103 is connected to the bottom of the accommodating sub-groove 102 to form a step, and the waterproof sealing ring 220 abuts against the step, so as to effectively prevent the charging groove 101 from water seepage.

In one embodiment, referring to fig. 1 again, the elastic pressing and buckling mechanism 400 includes an elastic member 410, a pressing and returning assembly 420, and two clips 430, the two clips 430 are respectively connected to the pressing and returning assembly 420, the two clips 430 are oppositely disposed, the pressing and returning assembly 420 is connected to one end of the elastic member 410, the other end of the elastic member 410 is connected to the charging housing 100, the two clips 430 are protrudingly disposed at the bottom of the charging slot 101, the two clips 430 are movably disposed at the bottom of the charging slot 101, the buckling structure is a pulling and hooking block 310 protrudingly disposed at one side of the charger body 300 facing the bottom of the charging slot 101, two sides of the pulling and hooking block 310 are protrudingly disposed with a clamping block 320, the pulling and hooking block 310 is movably inserted between the two clips 430, each clip 430 is movably abutted to one side of the clamping block 320 facing away from the bottom of the charging slot 101, to clamp the pull hook block 310. In this embodiment, the bottom of the charging slot 101 is recessed to form a mounting slot, the elastic pressing buckle mechanism 400 is fixedly disposed in the mounting slot, and the clip 430 at least partially protrudes out of the bottom of the charging slot 101, so that the clip 430 can clamp the pulling hook block 310.

In this embodiment, when the charger body 300 is loaded into the charging slot 101, when the pulling hook block 310 is inserted between the two clips 430, the two clips 430 are opened, and the clips 430 are clamped on two sides of the clips 430 under the elastic force of the elastic member 410 and clamped on the back of the fixture block 320, so that the pulling hook block 310 is clamped by the clips 430, and the charger body 300 is clamped in the charging slot 101; when the treasured body 300 that charges needs to be taken out, only need press the treasured body 300 that charges once more, clamping 430 opens for the treasured body 300 that charges pops out, makes the one end of the treasured body 300 that charges protrusion to the outside of charging groove 101, so that the user can conveniently borrow. It should be understood that, as to the specific implementation principle of the elastic pressing buckle mechanism 400, it belongs to the prior art, and the technology is widely applied to the buckling of the cabinet door and the buckling of the articles, for example, when the cabinet door is closed, the cabinet door is buckled, when the cabinet door is pressed, the cabinet door is opened, the cabinet door is closed again, and when the cabinet door is pressed, the cabinet door is buckled again. Therefore, this is not described redundantly in this embodiment for the principle implementation of this technique.

In one embodiment, the depth of the charging slot 101 is greater than the length of the main body 300, and when the main body 300 is inserted into the charging slot 101 and the latch 320 is engaged with the elastic pressing and engaging mechanism 400, the end surface of the main body 300 is recessed into the charging slot 101.

In this embodiment, because the degree of depth of charging groove 101 is greater than the length of treasured body 300 that charges, when treasured body 300 inserts to charging groove 101 in, the terminal surface of the precious body 300 one end of keeping away from the bottom of charging groove 101 is located charging groove 101, not with the notch place plane parallel and level of charging groove 101, so that treasured body 300 that charges wholly is located charging groove 101, thus, on the one hand, can effectively avoid treasured body 300 that charges owing to protruding to charging groove 101, can effectively avoid treasured body 300 that charges to be improper to use and pull out, on the other hand, can make door 200 better closed, seal charging groove 101. It should be understood that, because the elastic pressing buckle structure is used in the present application, the charger baby body 300 can be taken without protruding to the charging slot 101, and the user only needs to press the charger baby body 300, so that the charger baby body 300 can pop out.

In one embodiment, when the door 200 covers and closes the charging slot 101, a surface of the door 200 facing away from the charging slot 101 is recessed in the charging slot 101.

In this embodiment, when the door 200 covers and closes the closed charging slot 101, the side of the door 200 facing away from the bottom of the charging slot 101 is located in the charging slot 101, so that the side of the door 200 facing away from the bottom of the charging slot 101 is not protruded to the outside of the charging slot 101, nor is the side flush with the notch of the charging slot 101, and thus, the door 200 can be located in the charging slot 101 as a whole, so that the door 200 cannot be opened under the condition of not receiving the acting force of the internal mechanism, and the door 200 is prevented from being protruded to the charging slot 101 and being opened by an illegal user.

In the above embodiment, the door 200 is recessed in the accommodating sub-groove 102 of the charging groove 101, and the charger main body 300 is recessed in the charging sub-groove 103, so that the charger main body 300 can be prevented from being illegally pulled out, and the door 200 can be prevented from being illegally pulled out.

In order to set the door 200 to be normally biased normally, in one embodiment, a second magnetic attraction body (not shown) is disposed in the charging slot 101, the second magnetic attraction body is a permanent magnet, when the door 200 covers and closes the charging slot 101, the first magnetic attraction body 210 and the second magnetic attraction body attract each other, and the electromagnet 230 is configured to generate a repulsive force to the first magnetic attraction body 210 after being powered on.

In this embodiment, when the door 200 is closed, the first end of the first magnetic attraction body 210 is close to the first end of the second magnetic attraction body, the first end of the first magnetic attraction body 210 and the first end of the second magnetic attraction body have different polarities, and the first end of the first magnetic attraction body 210 and the first end of the second magnetic attraction body attract each other, so that the door 200 is normally closed.

When a user needs to open the door 200, a control command of the door 200 is input through the mobile terminal, after the electromagnet 230 is powered on, the first end of the electromagnet 230 has the same polarity as one end of the first magnetic attraction 210, and the magnetic force generated by the electromagnet 230 is greater than the magnetic force of the second magnetic attraction, so that the first end of the electromagnet 230 and one end of the first magnetic attraction 210 repel each other, the repulsive force between the electromagnet 230 and the first magnetic attraction 210 is greater than the attractive force between the second magnetic attraction and the first magnetic attraction 210, and the door 200 is opened by receiving the repulsive force of the electromagnet 230. After the door 200 is opened for a period of time, or when the user closes the door 200, the charging control circuit board controls the electromagnet 230 to be powered off, so that the magnetic field of the electromagnet 230 is small, and after the door 200 is closed, the second magnetic attraction body attracts the second magnetic attraction body, so that the door 200 is tightly closed.

In the above embodiment, the magnetic force generated by the second magnetic attraction body on the first magnetic attraction body 210 is used to normally close the door 200, and the magnetic force generated by the electromagnet 230 is used to spring the door 200 open, so that power is saved compared with the case where the electromagnet 230 is energized to attract the door 200 for a long time. This second magnetism is inhaled body and electromagnet 230 and can be set up in the inside of the lateral wall of groove 101 that charges, for example, the inside first installation cavity and the second installation cavity that is provided with of lateral wall of groove 101 that charges, first installation cavity and second installation cavity all set up in the position that is close to the notch, and this electromagnet 230 sets up in first installation cavity, and this second magnetism is inhaled the body and is set up in the second installation cavity.

In order to keep the door 200 normally closed and only bounce open after the electromagnet 230 is powered on, in one embodiment, a torsion spring (not shown) is connected to the door 200, one end of the torsion spring is connected to the door 200, the other end of the torsion spring is connected to the charging housing 100, the door 200 rotates in the direction of the charging slot 101 under the elastic force of the torsion spring, the door 200 is tightly closed by the elastic force of the torsion spring because the door 200 is sunk in the charging slot 101, and the door 200 is effectively prevented from being illegally opened. In this embodiment, when the compartment door 200 needs to be opened, the electromagnet 230 is energized, the first end of the electromagnet 230 and the one end of the first magnetic attraction 210 have the same polarity, and the repulsive force generated by the electromagnet 230 on the first magnetic attraction 210 is greater than the elastic force of the torsion spring, so that the compartment door 200 is opened. It should be understood that the door 200 cannot be opened by an external force, but only by the magnetic force of the internal electromagnet 230, the door 200 can be effectively prevented from being illegally opened.

In order to make the door 200 normally open under force, in one embodiment, the magnetic pole generated by the electromagnet 230 after the end of the electromagnet 210 close to the first magnetic attraction body is energized is different from the magnetic pole of the end of the first magnetic attraction body 210 close to the electromagnet 230.

In this embodiment, after the electromagnet 230 is powered on, the polarity of the first end of the electromagnet 230 is opposite to that of one end of the first magnetic attraction body 210, so that the first end of the electromagnet 230 is attracted to one end of the first magnetic attraction body 210, and the door 200 is tightly closed; thus, when the door 200 is closed, the electromagnet 230 is energized, and the door 200 is attracted to the charging slot 101 by magnetic force, so that the door 200 is tightly closed and the door 200 is prevented from being illegally opened.

In one embodiment, as shown in fig. 2, a shared electric vehicle 20 is provided, which includes an electric vehicle body 500, and further includes the shared power bank device 10 described in any of the above embodiments, where the shared power bank device 10 is disposed on the electric vehicle body 500.

The beneficial effects of the utility model are that: adopt buckle structure and elasticity to press the mode that buckle mechanism 400 buckle is connected to fix treasured body 300 that charges in charging groove 101 to cooperation door 200 receives the magnetic force actuation and seals charging groove 101, thereby effectively prevents to charge that treasured body 300 is stolen, and in addition, the closure of door 200 has still played waterproof effect well, and the sharing treasured device 10 that charges of being convenient for is put in the open air.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. A shared power bank device, comprising: the charger comprises a charging shell, at least one bin gate and at least one charger baby body;

the charging shell is provided with at least one charging groove, and each charging groove is internally provided with an elastic pressing buckle mechanism;

each charger baby body is provided with a buckle structure, and the buckle structure is in buckle connection with the elastic pressing buckle mechanism;

each bin gate rotates and sets up in one side of one charging groove, just the bin gate activity seals charging groove, the bin gate is provided with first magnetism and inhales the body, first magnetism is inhaled the body and is the permanent magnet, charging inslot is provided with the electromagnet, the electromagnet is used for producing magnetic field after the circular telegram.

2. The device as claimed in claim 1, wherein a waterproof gasket is disposed on an outer edge of a face of the door facing the charging slot, and the waterproof gasket is movably abutted against a sidewall of the charging slot.

3. The device as claimed in claim 2, wherein the charging housing defines a plurality of receiving slots, each of the charging slots is defined at a bottom of one of the receiving slots, a width of the charging slot is smaller than a width of the receiving slot, and the waterproof sealing ring abuts against the bottom of the receiving slot.

4. The device according to claim 1, wherein the elastic pressing buckle mechanism comprises an elastic member, a pressing return assembly and two clips, the two clips are respectively connected with the pressing return assembly and are oppositely arranged, the pressing return assembly is connected with one end of the elastic member, the other end of the elastic member is connected with the charging casing, the two clips are convexly arranged at the bottom of the charging groove, the two clips are movably arranged at the bottom of the charging groove, the buckle structure is a pull hook block which is convexly arranged at one side of the charging treasure body facing the bottom of the charging groove, clamping blocks are convexly arranged at two sides of the pull hook block, the pull hook block is movably inserted between the two clips, and each clip is movably abutted against one side of the clamping block facing away from the bottom of the charging groove, so as to clamp the pulling hook block.

5. The device as claimed in claim 4, wherein the depth of the charging slot is greater than the length of the main body, and when the main body is inserted into the charging slot and the latch is engaged with the elastic pressing and locking mechanism, the end surface of the main body is recessed into the charging slot.

6. The shared power bank device of claim 1, wherein a side of the door facing away from the charging chute is recessed within the charging chute when the door is closed to enclose the charging chute.

7. The shared power bank device of claim 1, wherein a second magnetic attraction body is disposed in the charging slot, the second magnetic attraction body is a permanent magnet, when the charging slot is closed by the door cover, the first magnetic attraction body and the second magnetic attraction body attract each other, and the electromagnet is configured to generate a repulsive force to the first magnetic attraction body after being powered on.

8. The device of claim 1, wherein a magnetic pole generated by the electromagnet when the first magnetic attraction body is energized is different from a magnetic pole generated by the first magnetic attraction body when the first magnetic attraction body is energized.

9. A shared electric vehicle, comprising an electric vehicle body, and characterized by further comprising the shared power bank device as set forth in any one of claims 1 to 8, the shared power bank device being disposed on the electric vehicle body.

Images