CN220492021U - Adjusting device and battery packaging and matching tool - Google Patents

Abstract

The disclosure relates to the technical field of vehicles, in particular to an adjusting device and a battery pack assembling tool. The adjusting device provided by the disclosure comprises a separation mechanism, an adjusting mechanism and a driving piece; the separation mechanism comprises a separation assembly, wherein the separation assembly comprises a first separation piece and a second separation piece, and a first gap is formed between the first separation piece and the second separation piece; the adjusting mechanism comprises an adjusting component, the adjusting component and the separating component are sequentially arranged in the vertical direction along the first direction, the adjusting component comprises a first adjusting piece and a second adjusting piece, a second gap is formed between the first adjusting piece and the second adjusting piece, and the length of the second gap along the first direction is equal to the length of the first gap along the first direction; the driving piece is arranged in linkage with the adjusting component so as to drive the adjusting component to move along the first direction. The battery cell can be rapidly stirred to a designated position through the cooperation of the separation component and the adjusting component.

Description

Adjusting device and battery packaging and matching tool

Technical Field

The disclosure relates to the technical field of vehicles, in particular to an adjusting device and a battery pack assembling tool.

Background

At present, the energy density of new energy vehicles in China is in a year-by-year increasing trend, each vehicle enterprise takes the endurance mileage and the charging speed as core selling points, the space utilization rate of the box body is required to be continuously improved to meet the requirements of technical development, the space utilization rate is improved, parts are required to be reduced as much as possible, meanwhile, the reliability of a system is ensured, when the three-element battery module is assembled, the battery cells are limited through a fixed-size square frame, the whole module is increased in pretightening force to form a module structure, and the structure is required to be fixed by an end plate and a side plate, so that the volume utilization rate is reduced.

For the module without the traditional thick metal end plate and side plate, the end plate or the side plate is omitted, so that the space utilization rate of the battery pack can be increased, and the energy density is improved. Under the condition that no end plate or side plate exists, how to ensure the cell gap in the cell stacking process is a technical problem to be solved by the person skilled in the art.

Disclosure of Invention

In order to solve the technical problem, the present disclosure provides an adjusting device and a battery pack assembly tool.

A first aspect of the present disclosure provides an adjustment device comprising:

the separation mechanism comprises a bottom plate and a separation assembly, wherein the separation assembly is arranged on the bottom plate and comprises a first separation piece and a second separation piece, the first separation piece and the second separation piece are arranged at intervals along a first direction, a first gap is formed between the first separation piece and the second separation piece, and the length of the first gap along the first direction is larger than the size of the battery cell along the first direction;

the adjusting mechanism comprises a moving plate and an adjusting assembly, wherein the adjusting assembly is arranged on the moving plate, the adjusting assembly and the separation assembly are sequentially arranged in the vertical direction along the first direction, the adjusting assembly comprises a first adjusting piece and a second adjusting piece, the first adjusting piece and the second adjusting piece are arranged at intervals along the first direction, a second gap is formed between the first adjusting piece and the second adjusting piece, and the length of the second gap along the first direction is equal to the length of the first gap along the first direction;

and the driving piece is connected with the moving plate and used for driving the adjusting assembly to move along the first direction.

Further, the number of the separation assemblies is multiple, a plurality of separation assemblies are arranged at intervals along the first direction, a third gap is formed between every two adjacent separation assemblies, and the length of the third gap along the first direction is equal to the length of the first gap along the first direction. Further, the number of the adjusting assemblies is multiple, the adjusting assemblies are arranged at intervals along the first direction, a fourth gap is formed between every two adjacent adjusting assemblies, and the length of the fourth gap along the first direction is equal to that of the second gap along the first direction.

Further, the first partition piece and the second partition piece comprise mounting plates and partition plates which are perpendicular to the mounting plates, mounting holes are formed in the mounting plates, and fasteners penetrate through the mounting holes and are connected with the bottom plate;

the mounting hole is strip-shaped and extends along the first direction.

Further, the driving piece comprises a cylinder, and the cylinder is connected with the moving plate;

or, the driving piece comprises a motor, and the output end of the motor and the moving plate.

Further, the number of the separation assemblies (2) is a plurality, the separation assemblies (2) are arranged at intervals along the first direction, and at least part of the first gaps are unequal in length along the first direction;

or, the number of the adjusting components (4) is a plurality, the adjusting components (4) are arranged at intervals along the first direction, and at least part of the second gaps are unequal in length along the first direction.

Further, the device also comprises a base, wherein the bottom plate and the moving plate are arranged on the base;

one of the moving plate and the base is provided with a sliding rail, the other one of the moving plate and the base is provided with a sliding groove, and the sliding rail is in sliding fit with the sliding groove.

Further, the bottom plate is provided with a limiting part, and one end, away from the bottom plate, of the limiting part is provided with a limiting part protruding towards the moving plate.

Further, the number of the separating mechanisms is two, the separating mechanisms are arranged at intervals along the vertical direction of the first direction, and the separating mechanisms are respectively arranged at two sides of the adjusting mechanism.

A second aspect of the present disclosure provides a battery pack assembly tool comprising the adjustment device of the first aspect.

Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:

the adjusting device comprises a separation mechanism, an adjusting mechanism and a driving piece, wherein the separation mechanism comprises a bottom plate and a separation assembly, the separation assembly is arranged on the bottom plate and comprises a first separation piece and a second separation piece, the first separation piece and the second separation piece are arranged at intervals along a first direction, a first gap is formed between the first separation piece and the second separation piece, and the length of the first gap along the first direction is larger than the size of the battery cell along the first direction; the adjusting mechanism comprises a moving plate and an adjusting component, the adjusting component is arranged on the moving plate, the adjusting component and the separating component are sequentially arranged in the vertical direction along the first direction, the adjusting component comprises a first adjusting piece and a second adjusting piece, the first adjusting piece and the second adjusting piece are arranged at intervals along the first direction, a second gap is formed between the first adjusting piece and the second adjusting piece, and the length of the second gap along the first direction is equal to the length of the first gap along the first direction; the driving piece is connected with the moving plate to drive the adjusting assembly to move along the first direction.

When the adjusting assembly moves along the first direction, the distance between the first or second separating member in the separating assembly and the first or second adjusting member in the adjusting assembly in the first direction can be reduced to clamp the battery cell or be increased to loosen the battery cell, so that the position of the battery cell can be adjusted.

When the battery cell is used, the battery cell is placed between the first partition piece and the second partition piece respectively, meanwhile, the battery cell is located between the first regulation piece and the second regulation piece, the distance between the first partition piece and the second partition piece is larger than the distance between the first regulation piece and the second regulation piece in the first direction of the battery cell, the distance between the first regulation piece and the second regulation piece is larger than the distance between the first regulation piece and the second regulation piece in the first direction of the battery cell, the battery cell is easy to place, and the problem of a battery cell gap is not needed to be cared. And then the driving piece drives the moving plate to enable the first adjusting piece and the second adjusting piece in the adjusting assembly to move relative to the first separating piece and the second separating piece, so that the battery cell can be clamped. Through the cooperation of movable plate and separation subassembly and adjusting part, can the quick adjustment first adjusting part and second adjusting part for the distance of first separating part and second separating part to ensure that the electric core does not collect, does not remove, and guarantees the uniformity.

According to the embodiment, the battery cells can be rapidly arranged for stacking the battery cells, the distance between the battery cells can be rapidly divided, the production efficiency and the yield are improved, and the consistency of the distance between the battery cells is ensured. Through this mode can solve the spacing inaccurate problem of spacing material clearance control of stereoplasm of electric core, can stir electric core to appointed position fast through the cooperation of separation subassembly and adjusting part, applys the clamping force simultaneously and guarantees that electric core does not rock, improves the clearance precision of electric core and electric core, guarantees the uniformity of clearance value.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments of the present disclosure or the solutions in the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic view of a structure of an adjusting device according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of another construction of an adjusting device according to an embodiment of the present disclosure;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view of the structure of the adjusting device according to the embodiment of the present disclosure in use;

fig. 5 is a schematic view of another structure of the adjusting device according to the embodiment of the present disclosure when in use.

Reference numerals: 1. a bottom plate; 2. a partition assembly; 21. a first partition; 211. a mounting plate; 212. a partition plate; 213. a fastener; 22. a second separator; 3. a moving plate; 4. an adjustment assembly; 41. a first adjustment member; 42. a second adjusting member; 5. a driving member; 6. a battery cell; 7. a limiting piece; 71. a boss.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, a further description of aspects of the present disclosure will be provided below. It should be noted that, without conflict, the embodiments of the present disclosure and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced otherwise than as described herein; it will be apparent that the embodiments in the specification are only some, but not all, embodiments of the disclosure.

If the cell stacking gap of the module is limited by using no return frame, the cell gap consistency is poor. The cell gap of the die-less structure is difficult to meet the assembly design gap value and consistency without using a mold frame control. The adjusting device provided by the embodiment of the disclosure can accurately and automatically control the gap of the module battery core, and simultaneously apply the pressing force to ensure that the battery core is not accumulated and moved, and ensure consistency.

The adjusting device provided by the embodiment of the disclosure comprises a separation mechanism and an adjusting mechanism: the separation mechanism comprises a bottom plate 1 and a plurality of separation assemblies 2, wherein the plurality of separation assemblies 2 are arranged on the bottom plate 1 along a first direction, and a first gap for placing a battery cell 6 is formed between two adjacent separation assemblies 2; the adjusting components comprise a moving plate 3 and a plurality of adjusting components 4, the plurality of adjusting components 4 are arranged on the moving plate 3 along a first direction, and a second gap for placing the battery cell 6 is formed between two adjacent adjusting components 4; the length of the first gap along the first direction is larger than the dimension of the battery cell along the first direction; the length of the second gap along the first direction is equal to the length of the first gap along the first direction; the driving member 5 is coupled to the moving plate to drive the adjustment assembly 4 to move in a first direction. According to the embodiment, the battery cells 6 can be rapidly arranged to stack the battery cells 6, the intervals of the battery cells 6 can be rapidly separated, the production efficiency and the yield are improved, and the consistency of the intervals of the battery cells 6 is ensured. The problem that the gap control of the hard limiting material is inaccurate is solved by the mode, the battery cell 6 can be rapidly stirred to the appointed position through the cooperation of the separation component and the adjusting component, meanwhile, the battery cell 6 is ensured not to shake by applying the pressing force, the gap precision of the battery cell 6 and the battery cell 6 is improved, and the consistency of gap values is ensured.

As shown in conjunction with fig. 1, 2, 3, 4, and 5, an adjustment device provided by an embodiment of the present disclosure includes a partition mechanism and an adjustment mechanism: the separation mechanism comprises a bottom plate and a separation assembly 2, the separation assembly 2 is arranged on the bottom plate 1, the separation assembly 2 comprises a first separation piece 21 and a second separation piece 22, the first separation piece 21 and the second separation piece 22 are arranged at intervals along a first direction, a first gap is formed between the first separation piece 21 and the second separation piece 22, and the length of the first gap along the first direction is larger than the dimension of the battery cell along the first direction; the adjusting mechanism comprises a moving plate 3 and an adjusting component 4, the adjusting component 4 is arranged on the moving plate 3, the adjusting component 4 and the separating component 2 are sequentially arranged in the vertical direction along the first direction, the adjusting component 4 comprises a first adjusting piece 41 and a second adjusting piece 42, the first adjusting piece 41 and the second adjusting piece 42 are arranged at intervals along the first direction, a second gap is formed between the first adjusting piece 41 and the second adjusting piece 42, and the length of the second gap along the first direction is equal to the length of the first gap along the first direction; the driving member 5 is coupled to the moving plate 3 to drive the adjustment assembly 4 to move in a first direction.

When the adjustment assembly 4 is moved in the first direction, the distance between the first or second partition 21 or 22 in the partition assembly 2 and the first or second adjustment member 41 or 42 in the adjustment assembly may be made smaller to clamp the battery cell 6 or made larger to unclamp the battery cell 6, so that the position of the battery cell 6 may be adjusted.

When the electric core 6 is used, the electric core 6 is respectively placed between the first partition piece 21 and the second partition piece 22, meanwhile, the electric core 6 is positioned between the first regulating piece 41 and the second regulating piece 42, the distance between the first partition piece 21 and the second partition piece 22 is larger than the distance between the electric core 6 in the first direction, the distance between the first regulating piece 41 and the second regulating piece 42 is larger than the distance between the electric core 6 in the first direction, the electric core 6 is easy to place, and the problem of gaps between the electric cores 6 is not needed. The moving plate 3 is then driven by the driving member 5 to move the first and second regulating members 41 and 42 of the regulating assembly with respect to the first and second partition members 21 and 22, so that the battery cell 6 can be clamped. By the cooperation of the moving plate 3 with the separation assembly 2 and the adjusting assembly 4, the distance between the first adjusting member 41 and the second adjusting member 42 relative to the first separating member 21 and the second separating member 22 can be adjusted rapidly, so that the battery cell 6 is ensured not to be accumulated or moved, and consistency is ensured.

According to the embodiment, the battery cells 6 can be rapidly arranged to stack the battery cells 6, the interval between the battery cells 6 can be rapidly separated, the production efficiency and the yield are improved, and the consistency of the interval between the battery cells is ensured. According to the embodiment, the battery cell 6 can be rapidly stirred to the appointed position through the cooperation of the separation assembly 2 and the adjustment assembly 4, meanwhile, the battery cell 6 can be ensured not to shake by applying the pressing force to the battery cell 6, the gap precision of the battery cell 6 and the battery cell 6 is improved, and the consistency of gap values is ensured. According to the scheme provided by the embodiment of the disclosure, the problem that the gap control of the hard limiting material is inaccurate when the spacing between the electric cores 6 is not available can be solved, the electric cores 6 can be rapidly stirred to the designated positions through the cooperation of the separation assembly and the adjusting assembly, meanwhile, the electric cores 6 are prevented from shaking due to the fact that the pressing force is applied, the gap precision between the electric cores 6 and 6 is improved, and the consistency of gap values is guaranteed.

In some specific embodiments, the separation mechanism comprises a bottom plate 1, the separation component 2 is arranged on the bottom plate 1, the adjusting mechanism comprises a moving plate 3, and the adjusting component 4 is arranged on the moving plate 3; the driving member 5 is connected to the moving plate 3. The adjustment assembly 4 on the moving plate 3 can cooperate with the separation assembly 2 to clamp the cells 6 when the moving plate 3 is moved relative to each other in the first direction. When the moving plate 3 moves in the opposite direction, the distance between the regulating member 4 and the partition member 2 may become large to release the battery cell 6.

The distance between the separation component 2 and the adjusting component 4 can be quickly adjusted through the cooperation of the driving piece 5 and the moving plate 3, so that the battery cell 6 is ensured not to be accumulated or moved, and consistency is ensured. The problem that the gap between the electric cores 6 is inaccurate in control of gaps of hard limiting materials can be solved, the electric cores 6 can be rapidly stirred to the designated positions through the cooperation of the separation assembly 2 and the adjusting assembly 4, meanwhile, the electric cores 6 can be applied with pressing force to ensure that the electric cores 6 do not shake, the gap precision between the electric cores 6 and the electric cores 6 is improved, and the consistency of gap values is ensured.

In some specific embodiments, the number of the separation assemblies 2 is plural, the plural separation assemblies 2 are arranged at intervals along the first direction, and a third gap is formed between two adjacent separation assemblies 2, the length of the third gap along the first direction is greater than the dimension of the battery cell along the first direction, and the length of the third gap along the first direction is equal to the length of the first gap along the first direction. The number of the adjusting assemblies 4 is multiple, the adjusting assemblies 4 are arranged at intervals along the first direction, a fourth gap is formed between every two adjacent adjusting assemblies 4, and the length of the fourth gap along the first direction is equal to the length of the third gap along the first direction. The length of the fourth gap along the first direction is equal to the length of the second gap along the first direction.

The adjusting components 4 are in one-to-one correspondence with the separating components 2 and are used for clamping or loosening the battery cells 6. The adjustment assembly 4 on the moving plate 3 can cooperate with the separation assembly 2 to clamp the cells 6 when the moving plate 3 is moved relative to each other in the first direction. When the moving plate 3 moves in the opposite direction, the distance between the regulating member 4 and the partition member 2 may become large to release the battery cell 6. The distance between the separation component 2 and the adjusting component 4 can be quickly adjusted through the cooperation of the driving piece 5 and the moving plate 3, so that the battery cell 6 is ensured not to be accumulated or moved, and consistency is ensured. The problem that the gap between the electric cores 6 is inaccurate in control of gaps of hard limiting materials can be solved, the electric cores 6 can be rapidly stirred to the designated positions through the cooperation of the plurality of separation assemblies 2 and the plurality of adjusting assemblies 4, meanwhile, the electric cores 6 are prevented from shaking due to the fact that the pressing force is applied, the gap precision between the electric cores 6 and the electric cores 6 is improved, and the consistency of gap values is guaranteed.

In some specific embodiments, each of the first and second spacers 21 and 22 includes a mounting plate 211 and a partition plate 212 disposed perpendicular to the mounting plate 211, the mounting plate 211 having mounting holes through which fasteners 213 are coupled to the base plate 1; the mounting hole is long-strip-shaped and extends along a first direction. The mounting plate 211 is connected to the base plate 1 by fasteners 213, and the first partition 21 or the second partition 22 can be detachably connected to the base plate 1. By adjusting the position of the mounting plate 211, the size of the first gap between the first separator 21 and the second separator 22 can be adjusted, so as to be convenient for adapting to the battery cells 6 with different specifications, thereby realizing the compatibility of the battery size. Because the mounting plate 211 is provided with the strip holes, the clearance distance between the adjacent partition plates 212 can be adjusted by adjusting the matching positions of the mounting plate 211 and the bottom plate 1, so that the battery cells 6 with different specifications can be conveniently adapted. Specifically, the elongated hole may be a waist hole. The partition plate 212 for adjusting the pitch of the battery 6 can be adjusted through the elongated holes provided in the mounting plate 211, so that compatibility of the battery size can be achieved.

In some embodiments, the driving member 5 comprises a cylinder connected to the moving plate 3; alternatively, the driving member 5 includes a motor, an output end of which is coupled to the moving plate 3. The air cylinder is connected with the moving plate 3 and used for driving the moving plate 3 to move along a first direction; or, an output end of the motor is connected with the moving plate 3 for driving the moving plate 3 to move along the first direction. The driving member 5 uses a motor or a cylinder as a driving means, has the advantage of being movable or high-precision, and simplifies the assembly process. The adjusting device is driven by an air source, so that the production efficiency is improved, and the possibility is created for automatic manufacturing.

In some embodiments, the first gap and the third gap are equal and the second gap and the fourth gap are equal along the first direction, such that equidistant spacing between the plurality of cells may be achieved. The distance between the separation assembly 2 and the adjustment assembly 4 can be quickly adjusted by the cooperation of the driving piece 5 and the separation assembly 2 and the adjustment assembly 4, so that the battery cell 6 is ensured not to be accumulated or moved, and consistency is ensured.

In some specific embodiments, the number of the separation assemblies 2 is plural, the plural separation assemblies 2 are arranged at intervals along the first direction, at least part of the first gaps are unequal in length along the first direction, and non-equidistant separation among the plural battery cells can be achieved.

In some specific embodiments, the number of the adjusting assemblies 4 is multiple, the adjusting assemblies 4 are arranged at intervals along the first direction, at least part of the second gaps are unequal in length along the first direction, and non-equidistant separation among the battery cells can be achieved.

In some embodiments, the adjusting device further comprises a base (not shown in the figures), on which the base plate 1 and the mobile plate 3 are both arranged; one of the moving plate 3 and the base is provided with a sliding rail, and the other one of the moving plate 3 and the base is provided with a sliding groove which is in sliding fit with the sliding groove. The bottom plate 1 is arranged on the base and connected with the base, and the moving plate 3 is movably arranged on the base. The base is used for supporting the battery cell 6; the distance between the separation assembly 2 and the adjustment assembly 4 can be quickly adjusted by the cooperation of the driving piece 5 and the separation assembly 2 and the adjustment assembly 4, so that the battery cell 6 is ensured not to be accumulated or moved, and consistency is ensured. One of the moving plate 3 and the base is provided with a sliding rail, the other one of the moving plate 3 and the base is provided with a sliding groove, the sliding rail is in sliding fit with the sliding groove, the moving plate 3 is convenient to slide relative to the base, and when the driving piece 5 drives the moving plate 3 to move, the adjusting component 4 positioned on the moving plate 3 can be matched with the separation component 2 to clamp the battery cell 6.

According to the embodiment, the battery cells 6 can be rapidly placed on the base to be stacked, the distance between the battery cells 6 can be rapidly divided, the production efficiency and the yield are improved, and the consistency of the distance between the battery cells 6 is ensured. The problem that the gap control of the hard limiting material is inaccurate is solved by the mode, the battery cell 6 can be rapidly stirred to the appointed position through the cooperation of the separation assembly 2 and the adjusting assembly 4, the battery cell 6 is ensured not to shake by applying the pressing force, the gap precision of the battery cell 6 and the battery cell 6 is improved, and the consistency of gap values is ensured.

In some embodiments, the base plate 1 is provided with a limiting member 7, and an end of the limiting member 7 away from the base plate 1 is provided with a limiting portion protruding toward the moving plate 3. The limiting piece 7 is used for limiting the movement of the moving plate 3 in the first direction or limiting the movement distance of the moving plate 3 in the first direction, so that the stability of the adjusting device is improved, and the consistency and accuracy of the clearance value are ensured. The limiting part can be plate-shaped, block-shaped or protruding structure and the like. The stopper may abut against an end of the moving plate 3 to restrict movement of the moving plate 3 in the first direction.

In some specific embodiments, the number of the separating mechanisms is two, the two separating mechanisms are arranged at intervals along the vertical direction of the first direction, and the two separating mechanisms are respectively arranged at two sides of the adjusting mechanism, so that the stability of the adjusting device and the consistency and accuracy of the clearance value can be improved.

In some specific embodiments, the number of the adjusting components is two, and the two adjusting components are respectively arranged at two sides of the separation component along the vertical direction of the first direction, so that the stability of the adjusting device and the consistency and accuracy of the clearance value are improved.

The battery packaging and matching tool provided by the embodiment of the disclosure comprises the adjusting device provided by the embodiment of the disclosure. Since the battery pack assembling tool provided by the embodiment of the present disclosure has the same advantages as the adjusting device provided by the embodiment of the present disclosure, the description thereof will not be repeated.

It should be noted that in this document, relational terms such as "first" and "second" and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The above is merely a specific embodiment of the disclosure to enable one skilled in the art to understand or practice the disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An adjustment device, comprising:

the separation mechanism comprises a bottom plate and a separation assembly, wherein the separation assembly is arranged on the bottom plate and comprises a first separation piece and a second separation piece, the first separation piece and the second separation piece are arranged at intervals along a first direction, a first gap is formed between the first separation piece and the second separation piece, and the length of the first gap along the first direction is larger than the size of the battery cell along the first direction;

the adjusting mechanism comprises a moving plate and an adjusting assembly, wherein the adjusting assembly is arranged on the moving plate, the adjusting assembly and the separation assembly are sequentially arranged in the vertical direction along the first direction, the adjusting assembly comprises a first adjusting piece and a second adjusting piece, the first adjusting piece and the second adjusting piece are arranged at intervals along the first direction, a second gap is formed between the first adjusting piece and the second adjusting piece, and the length of the second gap along the first direction is equal to the length of the first gap along the first direction;

and the driving piece is connected with the moving plate and used for driving the adjusting assembly to move along the first direction.

2. The adjustment device of claim 1, wherein the number of the partition members is plural, the plural partition members are disposed at intervals along the first direction, and a third gap is formed between two adjacent partition members, and a length of the third gap along the first direction is equal to a length of the first gap along the first direction.

3. The adjustment device of claim 1, wherein the number of adjustment assemblies is plural, the plural adjustment assemblies are disposed at intervals along the first direction, and a fourth gap is formed between two adjacent adjustment assemblies, and a length of the fourth gap along the first direction is equal to a length of the second gap along the first direction.

4. The adjusting device according to claim 1, wherein the first partition piece and the second partition piece each comprise a mounting plate and a partition plate which is perpendicular to the mounting plate, mounting holes are formed in the mounting plate, and fasteners penetrate through the mounting holes to be connected with the bottom plate;

the mounting hole is strip-shaped and extends along the first direction.

5. The adjustment device of claim 1, wherein the driving member comprises a cylinder connected to the moving plate;

or, the driving piece comprises a motor, and the output end of the motor and the moving plate.

6. The adjustment device of claim 1, wherein the number of separation assemblies is a plurality, the plurality of separation assemblies being spaced apart along the first direction, at least a portion of the first gap being unequal in length along the first direction;

or, the number of the adjusting components is a plurality, the adjusting components are arranged at intervals along the first direction, and at least part of the second gaps are unequal in length along the first direction.

7. The adjustment device of any one of claims 1 to 6, further comprising a base, wherein the base plate and the moving plate are both disposed on the base;

one of the moving plate and the base is provided with a sliding rail, the other one of the moving plate and the base is provided with a sliding groove, and the sliding rail is in sliding fit with the sliding groove.

8. The adjusting device of claim 7, wherein the bottom plate is provided with a stopper, and one end of the stopper away from the bottom plate is provided with a stopper protruding toward the moving plate.

9. The adjusting device according to claim 1, wherein the number of the partition mechanisms is two, two partition mechanisms are arranged at intervals along the direction perpendicular to the first direction, and two partition mechanisms are respectively arranged on two sides of the adjusting mechanism.

10. A battery pack assembly tool comprising an adjustment device according to any one of claims 1 to 9.