CN220525869U - Battery test rack - Google Patents

Abstract

The utility model relates to the field of battery testing equipment, in particular to a battery testing frame which comprises a supporting unit, a battery supporting plate, two fixing frames and two side brackets which are arranged in a bilateral symmetry manner; one of the fixed frames is detachably and fixedly connected between the top ends of the two side brackets, and the other fixed frame is detachably and fixedly connected between the bottom ends of the two side brackets; the support unit is detachably and fixedly connected between the two side brackets, and the mounting height of the support unit on the side brackets can be adjusted; the battery supporting plate is horizontally arranged between the two side brackets and is arranged on the supporting unit, and the inner side surfaces of the two side brackets are respectively attached to the left end and the right end of the battery supporting plate; two limit structures are symmetrically arranged on the lower end face of the battery supporting plate in a front-back mode, and the front side and the rear side of the supporting unit are respectively attached to the inner side faces of the limit structures on the same side; the battery testing frame solves the problems that the existing battery testing frame is poor in stability or inconvenient to transport and poor in compatibility of batteries with different sizes.

Description

Battery test rack

Technical Field

The utility model relates to the field of battery testing equipment, in particular to a battery testing frame.

Background

Along with the development of new energy, the requirements of the 3C battery and the power battery are increased, when a series of tests are needed for the battery, a battery test frame is often needed to be configured for placing the battery to be tested and a test fixture, the battery frame commonly used in the market at present is generally formed by integral welding and cannot be detached, the integral size is large, the transportation is inconvenient, and the interlayer spacing of the battery frame cannot be adjusted, so that the battery frame has poor compatibility for batteries with different sizes; the battery rack is similar to a shelf, a cross brace is hung on a stand column sheet of the shelf, the cross brace is fixed without screws, the cross brace is limited through a bolt, the stability of the battery rack when independently placed is poor, and when a battery supporting plate is placed on a placement area surrounded by the cross brace, the battery supporting plate is not limited, and in the battery test process, the phenomenon that the battery supporting plate slides or shakes can occur due to external force, dead weight of the battery or uneven placement of the battery;

for the above reasons, the existing battery test rack generally has technical problems of poor stability or inconvenient transportation and poor compatibility with batteries of different sizes during use.

Therefore, providing a battery test rack with strong compatibility, stable structure, convenient transportation, simple installation and low manufacturing cost is a problem to be solved.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides the battery test rack to solve the technical problems that the conventional battery test rack is generally poor in stability or inconvenient to transport and poor in compatibility with batteries of different sizes in the use process.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a battery test rack comprises a supporting unit, a battery supporting plate, a fixed frame and two side brackets which are symmetrically arranged left and right;

the fixed frame is detachably and fixedly connected between the two side brackets;

the supporting unit is detachably and fixedly connected between the two side brackets, and the mounting height of the supporting unit on the side brackets can be adjusted along the vertical direction;

the battery supporting plate is horizontally arranged between the two side brackets and is arranged on the supporting unit, and the inner side surfaces of the two side brackets are respectively attached to the left end and the right end of the battery supporting plate; two limit structures are symmetrically arranged on the lower end face of the battery supporting plate in a front-back mode, and the front side and the rear side of the supporting unit are respectively attached to the inner side faces of the limit structures on the same side.

Compared with the existing battery test frame formed by integral welding, as all the parts of the battery test frame provided by the utility model are detachable parts, the battery test frame provided by the utility model can be detached into a plurality of parts for transportation, and the problems that the existing battery test frame formed by integral welding is inconvenient to transport due to incapability of being detached and large in integral size are solved; adjusting the mounting height of the support unit on the side bracket in a vertical direction; the mounting height of the battery supporting plate can be adjusted, so that the height of the battery mounting space on the battery supporting plate can be adjusted, and the problem that the layer spacing of the existing battery test frame formed by integral welding cannot be adjusted, so that the battery frame has poor compatibility to batteries with different sizes is solved;

meanwhile, compared with the existing battery test frame in the form of a goods shelf, the battery test frame is detachably and fixedly connected between the two side brackets, the cross brace is hung on the stand column sheet of the goods shelf and is fixed without screws, and the cross brace is limited by the bolt;

therefore, the battery test frame solves the technical problems that the existing battery test frame is poor in stability or inconvenient to transport and poor in compatibility with batteries of different sizes in the use process.

Further, the battery test rack comprises two fixing frames, wherein one fixing frame is detachably and fixedly connected between the top ends of the two side brackets, and the other fixing frame is detachably and fixedly connected between the bottom ends of the two side brackets.

Further, the side support comprises two rectangular stand columns, four rectangular stand columns are arranged in a rectangular array, four rectangular stand columns are fixedly connected with the supporting unit in a detachable mode, and four rectangular stand columns are fixedly connected with the two fixing frames in a detachable mode.

By means of the battery test frame, the four rectangular stand columns can support the supporting unit and the battery supporting plate through four points, and the battery test frame can achieve better stability when being placed independently.

Further, the supporting unit comprises two groups of supporting components which are symmetrically arranged left and right, a group of supporting components are detachably and fixedly connected to the inner side surfaces of the two side brackets, and the mounting heights of the two supporting components on the corresponding side brackets can be adjusted;

the front side and the rear side of the two supporting components are respectively attached to the inner side faces of the limiting structures on the same side.

By enabling the supporting unit to comprise two groups of supporting components which are symmetrically arranged left and right, compared with the scheme that the supporting unit is arranged as a whole, the volume and the weight of the supporting unit can be effectively reduced, and the battery testing frame is further convenient to transport after being disassembled.

Further, the supporting components comprise two supports which are arranged at intervals in the front-back direction, the supports are detachably and fixedly connected to the inner side surfaces of the corresponding side brackets, and the mounting height of each support on the corresponding side bracket can be adjusted;

the support that is located the front side in every supporting component all is used for with the laminating of limit structure of battery layer board front side, every the support that is located the rear side in the supporting component all is used for with the laminating of limit structure of battery layer board rear side.

Through making the supporting component all include two supports that the interval set up around, for regard as the scheme that an integral set up with the supporting component, can effectively reduce the volume and the weight of supporting component, further make things convenient for the transportation after the battery test frame dismantles that the utility model provided.

Further, the left end and the right end of the battery supporting plate are located between the two limiting structures and are folded inwards downwards to form folded edges, and the two folded edges are respectively used for being attached to the upper end faces of the supporting assemblies on the corresponding sides.

By arranging the overlapping edges, the stress parts of the battery supporting plates and the supporting components are thickened, and deformation of the stress parts of the battery supporting plates and the supporting components is avoided.

Further, the inner side ends of the overlapping edges extend downwards to form first flanging, and the two first flanging are respectively used for being attached to the inner side faces of the supporting components on the corresponding sides.

The first flanging is respectively attached to the inner side faces of the supporting assemblies on the corresponding sides, and the two side brackets are matched to limit the battery supporting plate to the left and the right, so that the battery testing frame provided by the utility model is more stable in limiting the battery supporting plate to the left and the right, and the left and the right shaking or sliding of the battery supporting plate in the battery testing process is further reduced.

Further, the two limiting structures are two second flanges formed by extending the front end and the rear end of the battery supporting plate downwards;

the lower extreme of two the second turn-ups is located two the part between the first turn-ups is all inwards extended and is formed the third turn-ups, two the lower extreme of the first turn-ups is located two the part between the third turn-ups is all inwards extended and is formed the fourth turn-ups, the third turn-ups with the fourth turn-ups all are in same horizontal plane, the third turn-ups with the equal welded connection of piece between the fourth turn-ups.

The third flanging and the fourth flanging are arranged, and the joints between the third flanging and the fourth flanging are welded, so that the structural strength of the battery supporting plate is further enhanced.

Further, the left side and the right side of the limiting structure are respectively connected with the supporting components on the same side through bolts.

Through making limit structure's left and right sides respectively with the supporting component bolted connection of homonymy, can restrict the removal of battery layer board makes the battery test in-process battery layer board can be more stable.

Further, a plurality of groups of mounting hole groups are formed in the two side supports along the vertical direction, each mounting hole group comprises at least one mounting hole penetrating through the side support from left to right, and the left side and the right side of the supporting unit are connected to the side supports on the same side through the mounting hole bolts respectively.

The supporting units are arranged on different mounting hole groups through bolts, and therefore the mounting heights of the supporting units on the two side brackets can be adjusted.

Further, the plurality of groups of supporting units are arranged at intervals along the vertical direction, and each group of supporting units is provided with one battery supporting plate.

By arranging a plurality of groups of supporting units, each group of supporting units is provided with one battery supporting plate, so that the battery testing frame provided by the utility model can be provided with a plurality of layers of battery supporting plates, the space height of each layer of battery supporting plate for accommodating batteries can be adjusted, the space utilization rate of the battery testing frame provided by the utility model is improved, and batteries with different sizes can be compatible.

Drawings

In order to more clearly illustrate the technical solutions of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the front view of a battery test rack according to an embodiment;

FIG. 2 is a schematic diagram of a left-hand structure of a battery test rack according to an embodiment;

FIG. 3 is a schematic top view of a battery test rack according to an embodiment;

fig. 4 is a schematic perspective view of a battery test rack according to an embodiment;

FIG. 5 is a schematic perspective view of a rectangular column in an embodiment;

FIG. 6 is a schematic perspective view of a fixed frame in an embodiment;

fig. 7 is a schematic perspective view of a battery tray in an embodiment;

FIG. 8 is a schematic perspective view of the stand in the embodiment;

wherein, 1-side bracket, 2-fixed frame, 3-battery pallet, 4-support;

11-rectangular upright posts;

112-a first bolt hole;

21-a second bolt hole;

111-a set of mounting holes;

31-overlapped edge, 32-first flanging, 33-second flanging, 34-third flanging, 35-fourth flanging and 36-third bolt hole;

41-fourth bolt hole, 42-fifth bolt hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the examples described are only some, but not all, examples of the present utility model.

As shown in fig. 1 to 4, the present embodiment provides a battery test rack including a support unit, a battery tray 3, a fixing frame 2, and two side brackets 1 arranged bilaterally symmetrically;

the fixed frame 2 is detachably and fixedly connected between the two side brackets 1; for connecting and fixing the two side brackets 1;

the support unit is detachably and fixedly connected between the two side brackets 1, and the mounting height of the support unit on the side brackets 1 can be adjusted along the vertical direction;

the battery supporting plate 3 is horizontally arranged between the two side brackets 1 and is arranged on the supporting unit, and the inner side surfaces of the two side brackets 1 are respectively attached to the left end and the right end of the battery supporting plate 3; two limit structures are symmetrically arranged on the lower end face of the battery supporting plate 3 in front-back mode, and the front side and the rear side of the supporting unit are respectively attached to the inner side faces of the limit structures on the same side.

Compared with the existing battery test frame formed by integral welding, as all the parts of the battery test frame provided by the utility model are detachable parts, the battery test frame provided by the utility model can be detached into a plurality of parts for transportation, and the problems that the existing battery test frame formed by integral welding is inconvenient to transport due to incapability of being detached and large in integral size are solved; by adjusting the mounting height of the support unit on the side bracket 1 in the vertical direction; the mounting height of the battery supporting plate 3 can be adjusted, so that the height of the battery mounting space on the battery supporting plate 3 can be adjusted, and the problem that the layer spacing of the existing battery test frame formed by integral welding cannot be adjusted, so that the battery frame has poor compatibility to batteries with different sizes is solved;

meanwhile, as the supporting units are detachably and fixedly connected between the two side brackets 1, compared with the existing battery testing frame in the form of a goods shelf, the cross brace is hung on the stand column sheet of the goods shelf and is fixed without screws, and the cross brace is limited by the bolt, the battery testing frame provided by the utility model has better stability when being independently placed, the inner side surfaces of the two side brackets 1 are respectively attached to the left end and the right end of the battery supporting plate 3, so that the two side brackets 1 limit the battery supporting plate 3 left and right, the front side and the rear side of the supporting units are respectively attached to the inner side surfaces of the limiting structures on the same side, so that the supporting units limit the battery supporting plate 3 front and rear, and then the battery supporting plate 3 is pressed down by the dead weight of a battery, so that the battery supporting plate 3 cannot slide or shake due to external force, dead weight of the battery or uneven battery placement in the battery testing process;

therefore, the battery test frame solves the technical problems that the existing battery test frame is poor in stability or inconvenient to transport and poor in compatibility with batteries of different sizes in the use process.

As shown in fig. 1 to 4, the battery testing rack provided in this embodiment includes two fixing frames 2, wherein one fixing frame 2 is detachably and fixedly connected between the top ends of the two side brackets 1, and the other fixing frame 2 is detachably and fixedly connected between the bottom ends of the two side brackets 1.

As shown in fig. 1 to 4, the side bracket 1 includes two rectangular columns 11, four rectangular columns 11 are arranged in a rectangular array, the four rectangular columns 11 are detachably and fixedly connected with the supporting unit, and the four rectangular columns 11 are detachably and fixedly connected with two fixing frames.

By enabling the battery test rack provided by the utility model to support the supporting unit and the battery supporting plate 3 through four rectangular upright posts 11 at four points, the battery test rack can obtain better stability when being independently placed.

Wherein, as shown in fig. 1 to 5, the fixed connection of the upright 11 and the fixed frame 2 is mutually matched with the second bolt hole 21 arranged on the fixed frame 2 through the first bolt hole 112 arranged on the upright 11 for bolt fixation.

Further, the supporting unit comprises two groups of supporting components which are symmetrically arranged left and right, a group of supporting components are correspondingly and detachably fixedly connected to the inner side surfaces of the two side brackets 1, and the mounting heights of the two supporting components on the corresponding side brackets 1 can be adjusted;

the front side and the rear side of the two supporting components are respectively attached to the inner side faces of the limiting structures on the same side.

Through making the supporting unit include two sets of supporting components that bilateral symmetry set up, for regard the scheme that the supporting unit set up as a whole, can effectively reduce the volume and the weight of supporting unit, further make things convenient for the transportation after the battery test frame dismantles that this utility model provided.

Preferably, as shown in fig. 4, in the embodiment, the supporting assembly includes two supports 4 disposed at intervals in front and rear, each support 4 is detachably and fixedly connected to an inner side surface of a corresponding side bracket 1, each support 4 is capable of adjusting its installation height on the corresponding side bracket 1 (specifically, the supporting unit includes four supports 4 in total, each support 4 is capable of adjusting its installation height on the corresponding upright 11, and each support 4 is mounted on an inner side surface of four rectangular uprights 11);

the support 4 at the front side of each supporting component is used for being attached to the limiting structure at the front side of the battery supporting plate 3, and the support 4 at the rear side of each supporting component is used for being attached to the limiting structure at the rear side of the battery supporting plate 3.

Through making the supporting component all include two supports 4 that the interval set up around, for regard supporting component as the scheme that an integral set up, can effectively reduce supporting component's volume and weight, further make things convenient for the transportation after the battery test frame dismantles that the utility model provided.

As shown in fig. 6, the portions of the left and right ends of the battery supporting plate 3 between the two limiting structures are folded inwards downward to form folded edges 31, and the two folded edges 31 are respectively used for being attached to the upper end surfaces of the supporting components on the corresponding sides (specifically, the two folded edges 31 are respectively used for being attached to the upper end surfaces of the corresponding supports 4).

By providing the overlapping edge 31, the stress portion of the battery support plate 3 contacting the support assembly is thickened, so as to avoid deformation of the stress portion of the battery support plate 3 contacting the support assembly (specifically, in this embodiment, avoid deformation of the stress portion of the battery support plate 3 contacting the support 4).

As shown in fig. 7, the inner ends of the overlapping edges 31 extend downward to form first flanges 32, and the two first flanges 32 are respectively attached to the inner side surfaces of the support assemblies on the corresponding sides.

The first flanges 32 are respectively attached to the inner side faces of the corresponding side support assemblies, and are matched with the left and right limiting of the two side supports 1 on the battery supporting plate 3, so that the left and right limiting of the battery testing frame provided by the utility model on the battery supporting plate 3 is more stable, and the left and right shaking or sliding of the battery supporting plate 3 in the battery testing process is further reduced.

Further, as shown in fig. 7, the two limiting structures are two second flanges 33 formed by extending the front end and the rear end of the battery supporting plate 3 downwards;

the lower ends of the two second flanges 33 are located between the two first flanges 32 and extend inwards to form a third flange 34, the lower ends of the two second flanges 33 are located between the two third flanges 34 and extend inwards to form a fourth flange 35, the third flange 34 and the fourth flange 35 are located in the same horizontal plane, and the joints between the third flange 34 and the fourth flange 35 are welded.

Through setting up third turn-ups 34 and fourth turn-ups 35 to make the equal welded connection of piece between third turn-ups 34 and the fourth turn-ups 35, further strengthened the structural strength of battery layer board 3.

The left side and the right side of the limiting structure are respectively connected with the supporting components on the same side through bolts.

Through making limit structure's left and right sides respectively with the supporting component bolted connection of homonymy, can restrict the removal of battery layer board 3, make battery layer board 3 can be more stable in the battery test process.

Specifically, in the present embodiment, as shown in fig. 1, 4, 7 and 8, the left and right sides of the two limiting structures (i.e., the two second flanges 33) are respectively provided with a third bolt hole 36, the four supports 4 (i.e., the two supporting components) are each provided with a fifth bolt hole 42, and each support 4 is mutually matched with the third bolt hole 36 on the corresponding second flange 33 through the fifth bolt hole 42 provided thereon to fix the bolts.

As shown in fig. 4 and fig. 5, a plurality of groups of mounting hole groups 111 are formed on the two side brackets 1 along the vertical direction, each mounting hole group 111 comprises at least one mounting hole penetrating through the side bracket 1 from left to right, and the left side and the right side of the supporting unit are respectively connected to the side brackets 1 on the same side through mounting hole bolts.

The support units are mounted on different mounting hole groups 111 through bolts, so that the adjustment of the mounting heights of the support units on the two side brackets 1 can be realized.

Specifically, in this embodiment, as shown in fig. 4, 5 and 8, each of the mounting hole groups 111 includes three mounting holes penetrating through the side bracket 1 from left to right, the three mounting holes are arranged at intervals along the front-rear direction, three fourth bolt holes 41 are formed in each of the supports 4, one support 4 is correspondingly and fixedly mounted on each of the rectangular columns 11, each support 4 is mutually matched with the mounting hole group 111 on the corresponding rectangular column 11 through the fourth bolt holes 41, the support 4 is fixedly mounted on the corresponding rectangular column 11, and the adjustment of the mounting height of the support 4 on the corresponding rectangular column 11 can be realized by the bolting of the support 4 to the different mounting hole groups 111 on the corresponding rectangular column 11.

As shown in fig. 4, a plurality of groups of support units (in this embodiment, each group of support units includes four supports) are disposed at intervals in the vertical direction, and each group of support units is provided with a battery tray 3.

By arranging a plurality of groups of supporting units, each group of supporting units is provided with one battery supporting plate 3, so that the battery testing frame provided by the utility model can be provided with a plurality of layers of battery supporting plates 3, the space height of each layer of battery supporting plates 3 for accommodating batteries can be adjusted (specifically, in the embodiment, the distance between each layer of battery supporting plates 3 and the distance between the uppermost layer of battery supporting plate 3 and the top layer of fixed frame 2 can be adjusted), the space utilization rate of the battery testing frame provided by the utility model is improved, and batteries with different sizes can be compatible.

The battery test rack provided by the embodiment has at least the following technical effects or advantages:

1. compared with the existing battery test frame formed by integral welding, as all the parts of the battery test frame provided by the utility model are detachable parts, the battery test frame provided by the utility model can be detached into a plurality of parts for transportation, and the problems that the existing battery test frame formed by integral welding is inconvenient to transport due to incapability of being detached and large in integral size are solved; by adjusting the mounting height of the support unit on the side bracket 1 in the vertical direction; the mounting height of the battery supporting plate 3 can be adjusted, so that the height of the battery mounting space on the battery supporting plate 3 can be adjusted, and the problem that the layer spacing of the existing battery test frame formed by integral welding cannot be adjusted, so that the battery frame has poor compatibility to batteries with different sizes is solved;

meanwhile, as the supporting units are detachably and fixedly connected between the two side brackets 1, compared with the existing battery testing frame in the form of a goods shelf, the cross brace is hung on the stand column sheet of the goods shelf and is fixed without screws, and the cross brace is limited by the bolt, the battery testing frame provided by the utility model has better stability when being independently placed, the inner side surfaces of the two side brackets 1 are respectively attached to the left end and the right end of the battery supporting plate 3, so that the two side brackets 1 limit the battery supporting plate 3 left and right, the front side and the rear side of the supporting units are respectively attached to the inner side surfaces of the limiting structures on the same side, so that the supporting units limit the battery supporting plate 3 front and rear, and then the battery supporting plate 3 is pressed down by the dead weight of a battery, so that the battery supporting plate 3 cannot slide or shake due to external force, dead weight of the battery or uneven battery placement in the battery testing process;

therefore, the battery test frame solves the technical problems that the existing battery test frame is poor in stability or inconvenient to transport and poor in compatibility with batteries of different sizes in the use process.

2. By enabling the battery test rack provided by the utility model to support the supporting unit and the battery supporting plate 3 through four rectangular upright posts 11 at four points, the battery test rack can obtain better stability when being independently placed.

3. Through making the supporting unit include two sets of supporting components that bilateral symmetry set up, for regard the scheme that the supporting unit set up as a whole, can effectively reduce the volume and the weight of supporting unit, further make things convenient for the transportation after the battery test frame dismantles that this utility model provided.

4. Through making the supporting component all include two supports 4 that the interval set up around, for regard supporting component as the scheme that an integral set up, can effectively reduce supporting component's volume and weight, further make things convenient for the transportation after the battery test frame dismantles that the utility model provided.

5. By providing the overlapping edge 31, the stress portion of the battery support plate 3 contacting the support assembly is thickened, so as to avoid deformation of the stress portion of the battery support plate 3 contacting the support assembly (specifically, in this embodiment, avoid deformation of the stress portion of the battery support plate 3 contacting the support 4).

6. The first flanges 32 are respectively attached to the inner side faces of the corresponding side support assemblies, and are matched with the left and right limiting of the two side supports 1 on the battery supporting plate 3, so that the left and right limiting of the battery testing frame provided by the utility model on the battery supporting plate 3 is more stable, and the left and right shaking or sliding of the battery supporting plate 3 in the battery testing process is further reduced.

7. Through setting up third turn-ups 34 and fourth turn-ups 35 to make the equal welded connection of piece between third turn-ups 34 and the fourth turn-ups 35, further strengthened the structural strength of battery layer board 3.

8. Through making limit structure's left and right sides respectively with the supporting component bolted connection of homonymy, can restrict the removal of battery layer board 3, make battery layer board 3 can be more stable in the battery test process.

9. The support units are mounted on different mounting hole groups 111 through bolts, so that the adjustment of the mounting heights of the support units on the two side brackets 1 can be realized.

10. By arranging a plurality of groups of supporting units, each group of supporting units is provided with one battery supporting plate 3, so that the battery testing frame provided by the utility model can be provided with a plurality of layers of battery supporting plates 3, the space height of each layer of battery supporting plates 3 for accommodating batteries can be adjusted (specifically, in the embodiment, the distance between each layer of battery supporting plates 3 and the distance between the uppermost layer of battery supporting plate 3 and the top layer of fixed frame 2 can be adjusted), the space utilization rate of the battery testing frame provided by the utility model is improved, and batteries with different sizes can be compatible.

The above is only a specific application example of the present utility model, and the protection scope of the present utility model is not limited at all, and the technical solution formed by adopting equivalent transformation or equivalent substitution falls within the protection scope of the present utility model.

Claims (10)

1. A battery test rack, characterized in that: comprises a supporting unit, a battery supporting plate, a fixed frame and two side brackets which are arranged symmetrically left and right;

the fixed frame is detachably and fixedly connected between the two side brackets;

the supporting unit is detachably and fixedly connected between the two side brackets, and the mounting height of the supporting unit on the side brackets can be adjusted along the vertical direction;

the battery supporting plate is horizontally arranged between the two side brackets and is arranged on the supporting unit, and the inner side surfaces of the two side brackets are respectively attached to the left end and the right end of the battery supporting plate; two limit structures are symmetrically arranged on the lower end face of the battery supporting plate in a front-back mode, and the front side and the rear side of the supporting unit are respectively attached to the inner side faces of the limit structures on the same side.

2. The battery test rack of claim 1, wherein: the side brackets all include two rectangle stands, four rectangle stand is rectangular array arrangement, four rectangle stand all with supporting element detachably fixed connection, four rectangle stand all with two fixed frame detachably fixed connection.

3. The battery test rack of claim 1, wherein: the support unit comprises two groups of support components which are symmetrically arranged left and right, a group of support components are correspondingly and detachably fixedly connected to the inner side surfaces of the two side brackets, and the mounting heights of the two support components on the corresponding side brackets can be adjusted;

the front side and the rear side of the two supporting components are respectively attached to the inner side faces of the limiting structures on the same side.

4. A battery test rack as claimed in claim 3, wherein: the support assemblies comprise two supports which are arranged at intervals in the front-back direction, the supports are detachably and fixedly connected to the inner side surfaces of the corresponding side brackets, and the mounting height of each support on the corresponding side bracket can be adjusted;

the support that is located the front side in every supporting component all is used for with the laminating of limit structure of battery layer board front side, every the support that is located the rear side in the supporting component all is used for with the laminating of limit structure of battery layer board rear side.

5. A battery test rack as claimed in claim 3, wherein: the left end and the right end of the battery supporting plate are positioned between the two limiting structures and are folded inwards downwards to form folded edges, and the two folded edges are respectively used for being attached to the upper end faces of the supporting assemblies on the corresponding sides.

6. The battery test rack of claim 5, wherein: the inner side ends of the overlapping edges extend downwards to form first flanging, and the two first flanging are respectively used for being attached to the inner side faces of the supporting assemblies on the corresponding sides.

7. The battery test rack of claim 6, wherein: the two limiting structures are two second flanges formed by extending the front end and the rear end of the battery supporting plate downwards;

the lower extreme of two the second turn-ups is located two the part between the first turn-ups is all inwards extended and is formed the third turn-ups, two the lower extreme of the first turn-ups is located two the part between the third turn-ups is all inwards extended and is formed the fourth turn-ups, the third turn-ups with the fourth turn-ups all are in same horizontal plane, the third turn-ups with the equal welded connection of piece between the fourth turn-ups.

8. A battery test rack as claimed in claim 3, wherein: the left side and the right side of the limiting structure are respectively connected with the supporting components on the same side through bolts.

9. The battery test rack of claim 1, wherein: a plurality of groups of mounting hole groups are formed in the two side supports along the vertical direction, each mounting hole group comprises at least one mounting hole penetrating through the side support from left to right, and the left side and the right side of the supporting unit are connected to the side supports on the same side through the mounting hole bolts respectively.

10. The battery test rack of claim 1, wherein: the plurality of groups of supporting units are arranged at intervals along the vertical direction, and each group of supporting units is provided with one battery supporting plate.