CN214099971U - Battery module repair electrician dress - Google Patents

Abstract

An embodiment of the utility model provides a battery module benefit electrician dress relates to battery module benefit electricity anchor clamps field. It is intended to provide an apparatus capable of selectively charging and discharging a single cell. The battery module electricity supplementing device comprises a frame and a plurality of probe assemblies which are sequentially distributed along a first preset direction; the frame is used for installing the battery module; the plurality of probe assemblies are movably arranged on the frame along a first preset direction, so that the positions of the probe assemblies are adjustable along the first preset direction; each probe assembly is used for being connected with external charging and discharging equipment so as to charge and discharge a single battery cell, or each probe assembly is used for being disconnected with the external charging and discharging equipment so as to stop charging and discharging the battery cell. The probe assembly can move to a position corresponding to the battery cell needing to be charged and discharged, then the corresponding probe assembly is connected with charging and discharging equipment, the battery cell can be charged and discharged, and the single or different battery cells can be charged and discharged at the same time.

Description

Battery module repair electrician dress

Technical Field

The utility model relates to a battery module benefit electric anchor clamps field particularly, relates to a battery module benefit electrician dress.

Background

After the battery module is kept still for a long time, the voltage is easy to decay and decline. There is still the difference simultaneously between the monomer electricity core of battery module, for example, different monomer electricity core voltage difference is great in same battery module. There is not balanced voltage circuit in the battery module, consequently need carry out the benefit electricity to monomer electricity core in the battery module.

At present, two high-voltage wire harnesses are led out by external charging and discharging equipment for electricity compensation of the single battery core, the high-voltage wire harnesses are directly pasted above a bus sheet where positive and negative poles of the battery core in the battery module by using an insulating adhesive tape, and electricity compensation is carried out on the low-voltage battery core. The following disadvantages arise for this direct application: the adhesive is not firm, poor contact is easy to occur, the bus sheet is burnt out in the charging process, and the phenomenon of contact sparks occurs; the insulating tape is easy to damage, and potential safety hazards exist in personnel operation; the junction of the high-voltage wire harness of the external charging and discharging equipment and the module bus sheet has large contact resistance and serious heating. Individual cells cannot be selectively charged.

SUMMERY OF THE UTILITY MODEL

The utility model aims at including, for example, a battery module benefit electrician dress is provided, it can provide the equipment that can selectively carry out the charge-discharge to single electric core.

The embodiment of the utility model discloses a can realize like this:

an embodiment of the utility model provides a battery module mends electrician dress, include: the probe assembly comprises a frame and a plurality of probe assemblies which are sequentially distributed along a first preset direction;

the frame is used for installing the battery module; the plurality of probe assemblies are movably arranged on the frame along a first preset direction, so that the positions of the probe assemblies are adjustable along the first preset direction; each probe assembly is used for being connected with external charging and discharging equipment so as to charge and discharge a single battery cell, or each probe assembly is used for being disconnected with the external charging and discharging equipment so as to stop charging and discharging the battery cell.

Additionally, the embodiment of the utility model provides a battery module mends electrician and adorns can also have following additional technical characterstic:

optionally: the probe assembly comprises a mounting plate, a first probe and a second probe; the mounting panel is along the movably setting on the frame of first preset direction, and first probe and second probe all set up on the mounting panel, and first probe and second probe are used for being connected or breaking off with outside charge and discharge equipment.

Optionally: the frame is provided with an opening extending along a first preset direction, the mounting plate comprises mounting parts protruding towards one side, and the mounting parts are slidably arranged in the opening; the first probe and the second probe are both arranged on the mounting part.

Optionally: the frame is provided with the spout that extends along first preset direction, and the mounting panel is provided with the locating hole, and the probe subassembly still includes first fastener, and first fastener is used for passing locating hole and spout to with the mounting panel locking on the spout.

Optionally: the first probe and the second probe are movably arranged on the mounting plate along a second preset direction, so that the positions of the first probe and the second probe are adjustable along the second preset direction; the second preset direction is perpendicular to the first preset direction.

Optionally: the probe assembly further comprises a first conductive connector and a second conductive connector, the first conductive connector is electrically connected with the first probe, the second conductive connector is electrically connected with the second probe, and the first conductive connector and the second conductive connector are respectively used for being detachably and electrically connected with external charging and discharging equipment.

Optionally: the battery module electricity supplementing device further comprises a third conductive joint and a fourth conductive joint, the third conductive joint and the fourth conductive joint are respectively used for being electrically connected with external charging and discharging equipment, and the third conductive joint is detachably connected with the first conductive joint so as to enable the first probe to be connected with or disconnected from the charging and discharging equipment; the fourth conductive joint is detachably connected with the second conductive joint so that the second probe is connected with or disconnected from the charging and discharging equipment.

Optionally: the probe assembly further comprises a first crimping piece, a second crimping piece, a first insulating column and a second insulating column, wherein the first insulating column and the second insulating column are arranged on the mounting plate; the first crimping piece is detachably connected with the first insulating column so as to crimp the first conductive joint and the third conductive joint onto the first insulating column together, and the second crimping piece is connected with the second insulating column so as to crimp the second conductive joint and the fourth conductive joint onto the second insulating column together.

Optionally: the frame comprises a first side plate, a bottom plate, a second side plate and a cover plate which are sequentially connected end to end; apron one side is articulated with first curb plate, and the opposite side and the second curb plate detachably of apron are connected, and a plurality of probe subassemblies set up on the apron along first movably in the direction of predetermineeing, and a plurality of probe subassemblies are used for the in-process and the battery module butt of being connected at apron and second curb plate.

Optionally: the battery module electricity supplementing device also comprises a limiting piece, and the limiting piece is arranged on the bottom plate; the limiting part is provided with a first matching surface, a second matching surface and a third matching surface, the first matching surface is used for limiting the unidirectional movement of the battery module along a first preset direction, and the second matching surface and the third matching surface are respectively used for limiting the reciprocating movement of the battery module along a second preset direction.

The utility model discloses battery module benefit electric frock's beneficial effect includes, for example:

battery module mends electrician dress for after the battery module preparation is accomplished, the frock mechanism that mends electricity or discharge to single electric core voltage low excessively or too high. A plurality of probe subassemblies are portable, can correspond with the electric core that removes with needs charge-discharge respectively, when certain electric core needs to carry out charge-discharge, remove the probe subassembly and correspond with electric core, then switch on probe subassembly and outside charging and discharging equipment, can carry out charge-discharge to single electric core. The mode that adopts the probe charges and discharges to electric core, is difficult for appearing contact failure's problem, can charge single or different electric core selectively simultaneously at the same moment, and then improves the charge-discharge efficiency of battery module.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic view of an overall structure of a battery module power supplement tool provided in an embodiment of the present invention;

fig. 2 is a schematic view of a local structure of a battery module power supplement tool provided by an embodiment of the present invention.

Icon: 10-a battery module power supplementing tool; 100-a frame; 110-a first side panel; 120-a backplane; 130-a second side plate; 140-a cover plate; 141-opening; 150-a chute; 200-a probe assembly; 210-a mounting plate; 220-a mounting portion; 221-a first groove; 222-a second slot; 230-a first probe; 240-a second probe; 250-a first conductive contact; 260-a second conductive contact; 300-a first power line; 310-a second power line; 320-a third conductive joint; 330-a fourth conductive contact; 400-a first insulating column; 410-a second insulating column; 500-a first limit stop; 510-a second limit stop; 600-hasp.

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. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the 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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that, if the terms "upper", "lower", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, the description is only for convenience of description and simplification, but the indication or suggestion that the indicated device or element must have a specific position, be constructed and operated in a specific orientation, and thus, should not be interpreted as a limitation of the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

The following describes the battery module recharging tool 10 provided in this embodiment in detail with reference to fig. 1 to 2.

Referring to fig. 1, an embodiment of the present invention provides a battery module electrical compensation device 10, which includes a frame 100 and a plurality of probe assemblies 200 sequentially distributed along a first predetermined direction; the frame 100 is used to mount a battery module; the plurality of probe assemblies 200 are movably arranged on the frame 100 along a first preset direction, so that the positions of the probe assemblies 200 are adjustable along the first preset direction; each probe assembly 200 is used to connect with an external charging and discharging device to charge and discharge a single battery cell, or each probe assembly 200 is used to disconnect with an external charging and discharging device to stop charging and discharging the battery cell.

It should be noted that: the "first predetermined direction" refers to a direction indicated by an arrow a in fig. 1 and 2, and the "second predetermined direction" refers to a direction indicated by an arrow B in fig. 1 and 2.

When the battery module needs to be charged, the battery module is mounted to the frame 100. Then remove probe assembly 200, make probe assembly 200 correspond with the electric core that the battery module needs to charge and discharge, be connected corresponding probe assembly 200 and charging and discharging equipment after that, charging and discharging equipment can charge or discharge electric core.

The position of the probe assembly 200 may be moved according to the position of the cell until interfacing with the cell. The single probe assembly 200 can also be connected with or disconnected from charging and discharging equipment, so that single or multiple different battery cells can be charged and discharged at the same time, the charging and discharging of each battery cell can be independently carried out, the charging and discharging are not required to be carried out together, the charging and discharging efficiency can be improved, and the energy is saved. Meanwhile, the probe assembly 200 is movable, and can be charged and discharged for different types of battery modules, so that the application range of the battery module repairing device 10 is expanded. In addition, the probe is adopted to be in contact with the battery core for charging and discharging, the problem of poor contact is not easy to occur, and the safety and the product goodness are improved.

With reference to fig. 1, in the present embodiment, the frame 100 includes a first side plate 110, a bottom plate 120, a second side plate 130, and a cover plate 140 connected end to end in sequence; one side of the cover plate 140 is hinged to the first side plate 110, the other side of the cover plate 140 is detachably connected to the second side plate 130, the plurality of probe assemblies 200 are movably disposed on the cover plate 140 along a first predetermined direction, and the plurality of probe assemblies 200 are used for abutting against the battery module during the connection of the cover plate 140 and the second side plate 130.

Specifically, the first side plate 110 and the second side plate 130 are arranged on the bottom plate 120 side by side at intervals. In this embodiment, one side of the cover plate 140 is hinged to the first side plate 110, and the cover plate 140 can swing relative to the first side plate 110 to unfold or close the cover plate 140; the other side of the cover plate 140 is connected with the second side plate 130 through the buckle 600, the buckle 600 is unlocked, the cover plate 140 is separated from the second side plate 130, and the cover plate 140 can swing relative to the first side plate 110; the apron 140 passes through hasp 600 and detains back on second curb plate 130, and a plurality of probe subassemblies 200 and battery module butt specifically can compress tightly the positive and negative utmost point post of electric core.

In other embodiments, both sides of the cover plate 140 may be detachably connected with the first side plate 110 and the second side plate 130.

With reference to fig. 1, in the present embodiment, the battery module electrical repair device 10 further includes a limiting member disposed on the bottom plate 120; the limiting part is provided with a first matching surface, a second matching surface and a third matching surface, the first matching surface is used for limiting the unidirectional movement of the battery module along a first preset direction, and the second matching surface and the third matching surface are respectively used for limiting the reciprocating movement of the battery module along a second preset direction.

Specifically, the limiting members include a first limiting member 500 and a second limiting member 510 that are disposed on the bottom plate 120 at an interval side by side, the first limiting member 500 includes a first member and a second member that are disposed at an included angle, the second limiting member 510 includes a third member and a fourth member that are disposed at an included angle, wherein the first member and the third member are disposed side by side, a first mating surface is formed on one side of the first member facing the second member and one side of the third member facing the fourth member, a second mating surface is formed on one side of the second member facing the fourth member, and a third mating surface is formed on one side of the fourth member facing the second member.

The battery module is moved in from one end of the frame 100, and then one end of the battery module abuts against between the first limiting member 500 and the second limiting member 510.

Referring to fig. 2, in the present embodiment, the probe assembly 200 includes a mounting plate 210, a first probe 230, and a second probe 240; the mounting plate 210 is movably disposed on the frame 100 along a first predetermined direction, the first probe 230 and the second probe 240 are disposed on the mounting plate 210, and the first probe 230 and the second probe 240 are used for connecting or disconnecting with an external charging/discharging device.

The first probe 230 is used for abutting against the positive pole post of the battery cell, and the second probe 240 is used for abutting against the negative pole post of the battery cell. After the first probe 230 and the second probe 240 are connected to the charging and discharging device, one battery cell may be charged and discharged. The first probe 230 and the second probe 240 are disposed on one mounting plate 210, and move synchronously, and each movement may correspond to one battery cell.

With continued reference to fig. 2, in conjunction with fig. 1, in the present embodiment, the frame 100 is provided with an opening 141 extending along a first preset direction, the mounting plate 210 includes a mounting portion 220 protruding toward one side, and the plurality of mounting portions 220 are slidably disposed in the opening 141; the first probe 230 and the second probe 240 are both provided on the mounting portion 220. The opening 141 is used to limit the movement of the mounting plate 210. While also preventing the mounting plate 210 from falling out of the frame 100.

With continued reference to fig. 2 and with reference to fig. 1, in the present embodiment, the frame 100 is provided with a sliding slot 150 extending along a first predetermined direction, the mounting plate 210 is provided with a positioning hole, and the probe assembly 200 further includes a first fastening member for passing through the positioning hole and the sliding slot 150 to lock the mounting plate 210 on the sliding slot 150.

With the sliding groove 150, the first fastening member can fix the mounting plate 210 within a movable range of the mounting plate 210.

Specifically, the first fastening member includes a bolt and a wing nut, the bolt passes through the sliding slot 150 and the positioning hole, and the wing nut is in threaded connection with the bolt to realize that the mounting plate 210 slides along the first preset direction or is fixed on the sliding slot 150.

Specifically, the number of the sliding grooves 150 is two, and the two sliding grooves 150 are arranged on the cover plate 140 side by side at intervals. The two ends of the mounting plate 210 are provided with positioning holes, the positioning holes at the two ends correspond to the sliding grooves 150 respectively, and the first fastening piece penetrates through the positioning holes and the sliding grooves 150 to realize the movement or fixation of the two ends of the mounting plate 210 and the sliding grooves 150.

Referring to fig. 2, in the present embodiment, the first probe 230 and the second probe 240 are movably disposed on the mounting plate 210 along a second predetermined direction, so that the positions of the first probe 230 and the second probe 240 are adjustable along the second predetermined direction; the second preset direction is perpendicular to the first preset direction.

Different battery module, positive negative pole interval on every electric core is different, and the position between first probe 230 and the second probe 240 is adjustable, is convenient for correspond with the positive negative pole of electric core to can realize the charge-discharge to different battery module.

Referring to fig. 2, in this embodiment, a guide groove extending along a second predetermined direction is formed on the mounting plate 210, the probe assembly 200 further includes a second fastener and a third fastener, the first probe 230 and the second probe 240 are movably disposed in the guide groove, the first probe 230 is fixed on the mounting plate 210 by the first fastener, and the second probe 240 is fixed on the mounting plate 210 by the second fastener.

Specifically, the guide groove includes a first groove 221 and a second groove 222 extending along the second preset direction, and the first groove 221 and the second groove 222 are disposed at intervals along the second preset direction. The first probe 230 is slidably disposed in the first slot 221, and the second probe 240 is slidably disposed in the second slot 222.

Specifically, the probe assembly 200 further includes a first moving plate on which the first probes 230 are disposed, and a second moving plate on which the second probes 240 are disposed. The mounting portion 220 is provided with a plurality of first holes and a plurality of second holes, the plurality of first holes are sequentially arranged on one side of the first groove 221 at intervals along a second preset direction, the plurality of second holes are sequentially arranged on one side of the second groove 222 at intervals along the second preset direction, the first moving plate is provided with a third hole, and the second moving plate is provided with a fourth hole. The third holes correspond to different first holes and are connected by a second fastening member to fix the first moving plate at different positions of the first slot 221, and the fourth holes correspond to different second holes and are connected by a third fastening member to fix the second moving plate at different positions of the second slot 222.

Referring to fig. 2, in combination with fig. 1, in the present embodiment, the probe assembly 200 further includes a first conductive contact 250 and a second conductive contact 260, the first conductive contact 250 is electrically connected to the first probe 230, the second conductive contact 260 is electrically connected to the second probe 240, and the first conductive contact 250 and the second conductive contact 260 are respectively used for being detachably electrically connected to an external charging and discharging device.

The first and second conductive tabs 250 and 260 serve as tabs for connection and disconnection with external charging and discharging equipment. Specifically, the first conductive contact 250 and the second conductive contact 260 employ copper noses.

Referring to fig. 2, in the present embodiment, the battery module recharging apparatus 10 further includes a third conductive contact 320 and a fourth conductive contact 330, the third conductive contact 320 and the fourth conductive contact 330 are respectively used for being electrically connected to external charging and discharging equipment, and the third conductive contact 320 is detachably connected to the first conductive contact 250, so that the first probe 230 is connected to or disconnected from the charging and discharging equipment; the fourth conductive contact 330 is detachably connected to the second conductive contact 260 to connect or disconnect the second probe 240 to the charge and discharge device. Specifically, the third conductive contact 320 and the fourth conductive contact 330 are both copper noses.

Specifically, the battery module recharging device 10 further includes a first power line 300 and a second power line 310, the first power line 300 and the second power line 310 are connected to an external charging/discharging device, the third conductive connector 320 is connected to the first power line 300, and the fourth conductive connector 330 is connected to the second power line 310. When charging is required, the third conductive contact 320 abuts against the first conductive contact 250, and the fourth conductive contact 330 abuts against the second conductive contact 260, so as to realize the energization of the first probe 230 and the second probe 240.

Referring to fig. 2, in the present embodiment, the probe assembly 200 further includes a first crimp member, a second crimp member, a first insulating column 400 and a second insulating column 410, wherein the first insulating column 400 and the second insulating column 410 are disposed on the mounting plate 210; the first crimping member is detachably connected to the first insulating column 400 to crimp the first conductive contact 250 and the third conductive contact 320 together onto the first insulating column 400, and the second crimping member is connected to the second insulating column 410 to crimp the second conductive contact 260 and the fourth conductive contact 330 together onto the second insulating column 410.

Specifically, the first crimping part and the second crimping part both use bolts, the first crimping part is in threaded connection with the first insulating column 400, the first conductive joint 250 and the third conductive joint 320 are jointly fixed on the first insulating column 400, and the first conductive joint 250 and the third conductive joint 320 are in contact with each other to realize electrical connection. The second crimping member is screwed to the second insulating column 410, so that the second conductive contact 260 and the fourth conductive contact 330 are jointly fixed to the second insulating column 410, and the second conductive contact 260 and the fourth conductive contact 330 are in contact with each other to achieve electrical connection. Adopt the crimping mode, firm in connection is difficult for appearing contact failure's problem.

The utility model discloses a concrete technical scheme key is that the main part material is selected, is full of high voltage and heavy current in the benefit electricity process loop, then main material should be insulating.

The battery module electricity supplementing device 10 provided by the embodiment at least has the following advantages:

a plurality of probe subassemblies 200 can movably set up on frame 100, and every probe subassembly 200 can move and correspond with electric core, and every probe subassembly 200 can be connected or break off with charge-discharge equipment alone simultaneously, realizes same moment, can mend the electricity to the different monomer electric cores of same module.

The positions of the probe assemblies 200 on the frame 100 can be adjusted according to the distribution of battery module cells, the positions of the first probe 230 and the second probe 240 in each probe assembly 200 can also be adjusted, and rapid model change is supported for battery modules of different models. To different model modules, only need adjust stopper and probe position, can use.

The first conductive contact 250, the third conductive contact 320, the second conductive contact 260 and the fourth conductive contact 330 are all in press-contact, so that the contact risk is prevented.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a battery module mends electrician dress which characterized in that includes:

the probe assembly comprises a frame (100) and a plurality of probe assemblies (200) which are sequentially distributed along a first preset direction;

the frame (100) is used for installing a battery module; the plurality of probe assemblies (200) are movably arranged on the frame (100) along the first preset direction, so that the positions of the probe assemblies (200) are adjustable along the first preset direction; each probe assembly (200) is used for being connected with external charging and discharging equipment so as to charge and discharge a single battery cell, or each probe assembly (200) is used for being disconnected with the external charging and discharging equipment so as to stop charging and discharging the battery cell.

2. The battery module electricity supplementing tool according to claim 1, wherein:

the probe assembly (200) includes a mounting plate (210), a first probe (230), and a second probe (240); the mounting plate (210) is movably arranged on the frame (100) along the first preset direction, the first probe (230) and the second probe (240) are arranged on the mounting plate (210), and the first probe (230) and the second probe (240) are used for being connected with or disconnected from the external charging and discharging equipment.

3. The battery module electricity supplementing tool according to claim 2, wherein:

the frame (100) is provided with an opening (141) extending along the first preset direction, the mounting plate (210) comprises mounting parts (220) protruding towards one side, and the mounting parts (220) are slidably arranged in the opening (141); the first probe (230) and the second probe (240) are both disposed on the mounting portion (220).

4. The battery module electricity supplementing tool according to claim 3, wherein:

the frame (100) is further provided with a sliding groove (150) extending along the first preset direction, a positioning hole is formed in the end portion of the mounting plate (210), and the probe assembly (200) further comprises a first fastening piece which is used for penetrating through the positioning hole and the sliding groove (150) so as to lock the mounting plate (210) on the sliding groove (150).

5. The battery module electricity supplementing tool according to claim 2, wherein:

the first probe (230) and the second probe (240) are movably arranged on the mounting plate (210) along a second preset direction, so that the positions of the first probe (230) and the second probe (240) are adjustable along the second preset direction; the second preset direction is perpendicular to the first preset direction.

6. The battery module electricity supplementing tool according to any one of claims 2 to 5, wherein:

the probe assembly (200) further comprises a first conductive connector (250) and a second conductive connector (260), wherein the first conductive connector (250) is electrically connected with the first probe (230), the second conductive connector (260) is electrically connected with the second probe (240), and the first conductive connector (250) and the second conductive connector (260) are respectively used for being detachably and electrically connected with the external charging and discharging equipment.

7. The battery module electricity supplementing tool according to claim 6, wherein:

the battery module electricity supplementing device further comprises a third conductive connector (320) and a fourth conductive connector (330), wherein the third conductive connector (320) and the fourth conductive connector (330) are respectively used for being electrically connected with external charging and discharging equipment, and the third conductive connector (320) is detachably connected with the first conductive connector (250) so that the first probe (230) is connected with or disconnected from the charging and discharging equipment; the fourth conductive contact (330) is detachably connected to the second conductive contact (260) to connect or disconnect the second probe (240) to the charge and discharge device.

8. The battery module electricity supplementing tool according to claim 7, wherein:

the probe assembly (200) further includes a first crimp, a second crimp, a first insulating column (400), and a second insulating column (410), the first insulating column (400) and the second insulating column (410) each disposed on the mounting plate (210); the first crimping member is detachably connected to the first insulating column (400) to crimp the first conductive contact (250) and the third conductive contact (320) together against the first insulating column (400), and the second crimping member is connected to the second insulating column (410) to crimp the second conductive contact (260) and the fourth conductive contact (330) together against the second insulating column (410).

9. The battery module electricity supplementing tool according to claim 5, wherein:

the frame (100) comprises a first side plate (110), a bottom plate (120), a second side plate (130) and a cover plate (140) which are sequentially connected end to end; one side of the cover plate (140) is hinged to the first side plate (110), the other side of the cover plate (140) is detachably connected to the second side plate (130), the plurality of probe assemblies (200) are movably arranged on the cover plate (140) along the first preset direction, and the plurality of probe assemblies (200) are used for abutting against the battery module in the process of connecting the cover plate (140) and the second side plate (130).

10. The battery module electricity supplementing tool according to claim 9, wherein:

the battery module electricity supplementing device further comprises a limiting piece, and the limiting piece is arranged on the bottom plate (120); the limiting part is provided with a first matching surface, a second matching surface and a third matching surface, the first matching surface is used for limiting the unidirectional movement of the battery module along the first preset direction, and the second matching surface and the third matching surface are respectively used for limiting the reciprocating movement of the battery module along the second preset direction.

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