CN217023309U - Novel vertical integrated interlayer battery cell tray - Google Patents

Abstract

The utility model discloses a novel vertical integrated interlayer battery cell tray which comprises a tray support, wherein two sides of the tray support are respectively provided with at least one placing component, each placing component comprises a plurality of placing plates distributed in the vertical direction, and each placing plate is used for placing a battery cell; the placing plate is obliquely arranged, the first end of the placing plate extends into the tray support, the bottom end of the placing plate is used for taking and placing the battery cell, and the height of the first end of the placing plate is lower than that of the second end of the placing plate; the first end of the placing plate is provided with a stopping part for stopping the battery cell, the placing plate bears the battery cell through a plurality of the placing plates, the tray support does not need to be stacked or disassembled when the battery cell is taken and placed, and the battery cell can be prevented from vibrating or colliding with each other.

Description

Novel vertical integrated interlayer battery cell tray

Technical Field

The utility model relates to the field of lithium battery processing equipment, in particular to a novel vertical integrated interlayer battery cell tray.

Background

In the processing process of the lithium battery, after the liquid injection treatment is performed on the lithium battery, the unprocessed lithium battery needs to be aged, and the aging process generally comprises the steps of standing the lithium battery and then infiltrating the battery core through electrolyte.

At present, when a lithium battery is aged, a device for placing electric cores is generally a tray, one or more electric cores are placed on the tray, and then other trays are stacked, when the electric cores are taken and placed in the manner, the tray needs to be disassembled and stacked, and dust is easily generated due to friction in the disassembling and stacking processes, so that the quality of the electric cores is affected; and the tray is dismantled and the in-process of pile easily because of producing the vibration for electric core displacement on the tray makes electric core bump easily, makes the defective products appear in the product.

SUMMERY OF THE UTILITY MODEL

In view of the above, the utility model discloses a novel vertical integrated interlayer cell tray, which can be used for placing a plurality of cells simultaneously, and does not need to be stacked and disassembled when the cells are taken and placed.

The utility model discloses a novel vertical integrated interlayer battery cell tray which comprises a tray bracket, wherein two sides of the tray bracket are respectively provided with at least one placing component, each placing component comprises a plurality of placing plates distributed in the vertical direction, and each placing plate is used for placing a battery cell;

the placing plate is obliquely arranged, the first end of the placing plate extends into the tray support, the bottom end of the placing plate is used for taking and placing the battery cell, and the height of the first end of the placing plate is lower than that of the second end of the placing plate; the first end of placing the board is provided with right the electricity core carries out the backstop portion of backstop.

Further, the tray support comprises a bottom frame and a top plate, stand columns are arranged between the bottom frame and the top plate, and the placing assembly is arranged between every two adjacent stand columns.

Furthermore, a plurality of first positioning grooves are respectively formed in two sides of each upright column, the placing plate is supported and positioned by the adjacent two upright columns through the corresponding first positioning grooves, and the first positioning grooves can prevent the placing plate from penetrating through the upright columns.

Furthermore, positioning rods are respectively arranged on two sides of the upright post, a plurality of second positioning grooves which correspond to the first positioning grooves one to one are arranged on the positioning rods, and the first end of the placing plate can penetrate through the positioning rods through the second positioning grooves and extend into the first positioning grooves.

Furthermore, the side of placing the board is provided with the spacing groove, be provided with spacing post between chassis and the roof, spacing post passes through the spacing groove a plurality of place the board, prevent place the relative tray support of board slides.

Further, the placing components on two sides of the tray support are symmetrically distributed.

Furthermore, the support surface of the placing plate is provided with an anti-skid layer.

Furthermore, the bottom end of the tray support is provided with a cushion block made of PES (polyether sulfone) material, and the tray support is stacked or placed through the cushion block.

Further, the tray support and the placing plate are made of aluminum materials.

Furthermore, a taking and placing groove for the taking and placing device to pass through is formed in the placing plate.

Compared with the prior art, the technical scheme disclosed by the utility model has the beneficial effects that:

a plurality of placing assemblies are arranged on the tray bracket, and each placing assembly comprises a plurality of placing plates, so that a plurality of battery cells can be placed on one electric tray, and the battery cells can be taken and placed at the second ends of the placing plates without disassembling the battery cell tray; the placing plates on each placing assembly are distributed in an array in the vertical direction, and each placing plate is used for placing one battery cell, so that collision between adjacent battery cells can be avoided; the placing plate is obliquely placed to place the battery cell and the electrolyte to flow out, and the soaking time of the electrolyte to the battery cell can be shortened.

Drawings

Fig. 1 is a schematic structural view of a cell tray;

fig. 2 is a side view of the cell tray when the placing plates on both sides of the column are symmetrically arranged;

fig. 3 is a side view of the battery cell tray when the placing plates on the two sides of the column are arranged in a staggered manner;

FIG. 4 is a schematic view of the structure of the placing board;

FIG. 5 is a schematic structural view of the column when the first positioning slots on both sides are symmetrical;

FIG. 6 is a schematic structural view of the column when the first positioning slots on two sides are distributed in a staggered manner;

FIG. 7 is a schematic view of a positioning rod;

fig. 8 is a schematic structural diagram of the battery tray with the top plate removed;

FIG. 9 is a schematic view of a chuck jaw configuration;

fig. 10 is a top view of a cell tray;

description of the figures

100. A battery cell tray; 10. a tray support; 11. a chassis; 12. a top plate; 121. a notch groove; 13. a column; 131. a first positioning groove; 14. positioning a rod; 141. a second positioning groove; 15. a limiting post; 20. placing the component; 21. placing a plate; 211. a stopper portion; 212. an anti-slip layer; 213. a positioning part; 214. a limiting groove; 215. a taking and placing groove; 30. a suction cup clamping jaw; 31. a suction nozzle.

Detailed Description

While the embodiments of the present invention will be described more fully hereinafter with reference to the accompanying drawings, it is to be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It should also be noted that unless expressly specified or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly and include, for example, fixed and removable connections as well as integral connections; either mechanically or electrically, and may be internal to both elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

It should be further noted that in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and operate, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the present application discloses a novel vertical integrated interlayer cell tray 100, which can be used for simultaneously placing a plurality of cells, and when taking and placing the cells, the cell tray 100 does not need to be stacked or disassembled, thereby avoiding the influence on the yield of the cells.

The battery cell tray 100 includes a tray support 10, and a plurality of battery cells may be placed on the tray support 10 at the same time. Specifically, at least one of the placing assemblies 20 is respectively disposed at two side positions of the tray support 10, and the battery cell is carried by the tray support 10 through the placing assemblies 20. In the present application, the cells may enter or exit the placement assembly 20 from the outside of the placement assembly 20.

With continued reference to fig. 2 and 3, further, the tray support 10 includes a bottom frame 11 and a top plate 12, the bottom frame 11 is disposed below the top plate 12, and the tray support 10 is disposed on the corresponding device or plane through the bottom frame 11.

A spacer 16 is arranged on the bottom surface of the base frame 11, and the base frame 11 is placed on a plane or a corresponding device through the spacer 16. In the present application, the spacer 16 is made of PES material, and when the spacer 16 is placed on a corresponding plane or device, dust generated by friction can be reduced, and the influence on the battery cell can be reduced.

The placing assemblies 20 are located between the top plate 12 and the bottom frame 11, the vertical columns 13 are further arranged between the top plate 12 and the bottom frame 11, the vertical columns 13 are arranged between the two corresponding placing assemblies 20, and the battery cells placed on the two placing assemblies 20 can be separated through the vertical columns 13, so that collision of the battery cells is avoided.

Further, the tray support 10 includes at least two columns 13, the columns 13 are linearly distributed, and the distance between two adjacent columns 13 may be the same or different, and is set according to the size of the battery cell. In the present application, a plurality of the vertical columns 13 are distributed along a linear array, the placing assemblies 20 are disposed between two adjacent vertical columns 13, and the different placing assemblies 20 are separated by the adjacent vertical columns 13.

Further, the placing assembly 20 includes a plurality of placing plates 21, the placing plates 21 are distributed in an array in a vertical direction, the battery cells are placed on the placing plates 21, the placing assembly 20 carries the battery cells through the placing plates 21, and each of the battery cell trays 100 can be provided with a plurality of the placing plates 21 at a time, so that a plurality of the battery cells can be simultaneously carried and placed. In the present application, each of the placing plates 21 is provided with one battery cell, so as to prevent transmission collision between the battery cells.

In the present application, the placing plate 21 is placed obliquely so that the battery cells are placed obliquely on the placing plate 21, and the placing plate 21 is tilted inward. Specifically, the placing plate 21 has a first end and a second end, the first end and the second end of the placing plate 21 are respectively located at two opposite sides of the placing plate 21, the first end of the placing plate 21 extends into the tray support 10, the second end of the placing plate 21 may or may not extend into the tray support 10, and the battery cell may enter or leave the placing plate 21 through the position of the second end according to the specific length of the placing plate 21. When the placing plate 21 is placed on the tray support 10, the position of the first end of the placing plate 21 is lower than the position of the second end, when the battery cell is placed on the placing plate 21, the battery cell is placed in an inclined manner, the battery cell can be prevented from shaking and separating from the battery cell tray 100 due to the tray support 10, and the electrolyte can flow to the inner side under the action of gravity, so that the electrolyte is prevented from leaking, and the soaking time of the battery cell can be shortened.

Further, the inclination angle of the placing plate 21 when placed on the tray support 10 is between 5 degrees and 45 degrees, and the inclination angle of the placing plate 21 is specifically set according to the product, and is not specifically limited herein.

As shown in fig. 4, further, the first end of the placing plate 21 is bent upward to form a stopping portion 211, when the battery cell is placed on the placing plate 21, because the battery cell is set by its own weight and the placing plate 21 is inclined, the battery cell can slide along the placing plate 21 toward the first end of the placing plate 21, and when the battery cell slides to a certain position, the stopping portion 211 stops the battery cell to prevent the battery cell on the placing plate 21 on both sides of the tray support 10 from colliding.

Further, the support surface of the battery cell by the placing plate 21 is provided with an anti-slip layer 212, in this application, the upper surface of the placing plate 21 is provided with the anti-slip layer 212, and when the battery cell is placed on the placing plate 21, the anti-slip layer 212 can increase the friction force between the battery cell and the placing plate 21, and prevent the battery cell from sliding relative to the placing plate 21 to some extent. When the battery cell tray 100 slightly shakes, the placing plate 21 can prevent the battery cell from sliding through the anti-slip layer 212, so that the battery cell can be prevented from colliding with other devices or surfaces.

In this application, skid resistant course 212 is the silica gel gasket, the silica gel gasket bond place the upper surface of board 21, increase electric core with place the frictional force between the board 21.

With reference to fig. 5, further, the placing plate 21 is placed on the tray support 10 through the upright column 13, two side positions of the upright column 13 are respectively provided with a plurality of first positioning slots 131, the plurality of first positioning slots 131 are distributed along the upright column 13 in a vertical direction, and distances between two adjacent first positioning slots 131 may be the same or different, and may be set as required. The first positioning slots 131 on the adjacent sides of two adjacent vertical columns 13 correspond to each other one by one, and the two vertical columns 13 position the placing plate 21 through the corresponding first positioning slots 131. In the present application, a plurality of the first positioning slots 131 are arranged on the upright column 13 in an array, and the distance between every two adjacent placing plates 21 is the same. The first end of the placing board 21 can extend into the first positioning groove 131, two corresponding first positioning grooves 131 on two adjacent upright columns 13 respectively support two sides of the first end, and the placing board 21 is arranged on the tray support 10.

Further, the first positioning slot 131 may be obliquely disposed, so that the placing plate 21 extending into the first positioning slot 131 is obliquely disposed, and an inclination angle of the placing plate 21 corresponds to an inclination angle of the first positioning slot 131.

Further, the first positioning slots 131 at two sides of the upright 13 may be symmetrically distributed or alternatively disposed. As shown in fig. 5 and 2, when the first positioning slots 131 on both sides of the upright 13 are symmetrically arranged, two symmetrical first positioning slots 131 are not communicated, so that two opposite placing plates 21 cannot be contacted and collided, and the placing plates 21 on both sides of the upright 13 are symmetrically distributed; as shown in fig. 6 and 3, when the first positioning slots 131 on both sides of the upright 13 are alternately disposed, the first positioning slots 131 do not penetrate through the upright 13, so that the first positioning slots 131 can stop the placing plate 21 and prevent the placing plate 21 from penetrating through the upright 13, and the placing plates 21 on both sides of the upright 13 are alternately disposed.

As shown in fig. 4, further, a first end of the placing plate 21 is provided with a positioning portion 213, and the placing plate 21 extends into the first positioning groove 131 through the positioning portion 213.

With continued reference to fig. 7, further, positioning rods 14 are respectively disposed on two sides of the upright 13, the positioning rods 14 are fixed between the bottom frame 11 and the top plate 12, and the positioning rods 14 support the placing plate 21, so that the placing plate 21 is stably installed. Specifically, a plurality of second positioning grooves 141 are uniformly arranged on the positioning rod 14, the plurality of second positioning grooves 141 are distributed in the vertical direction along the positioning rod 14, the plurality of second positioning grooves 141 are in one-to-one correspondence with the plurality of first positioning grooves 131, the first end of the placing plate 21 can pass through the second positioning grooves 141 and then extend into the first positioning grooves 131, the upright 13 passes through the first positioning grooves 131, and the positioning rod 14 simultaneously supports the placing plate 21 through the corresponding second positioning grooves 141, so that the stability of installation of the placing plate 21 is ensured. The adjacent two placing plates 21 can be separated by the positioning rod 14, so that collision of battery cells on the adjacent placing plates 21 is prevented.

In the present application, when the placing plate 21 needs to be installed, the two side positions of the first end of the placing plate 21 can pass through the two positioning rods 14 through the two second positioning slots 141, and then extend into the first positioning slots 131 on the two upright posts 13, so as to implement installation of the placing plate 21; the placing plate 21 can slide relative to the tray support 10 through the second positioning groove 141 and the first positioning groove 131, so that the placing plate 21 can be detached and installed.

As shown in fig. 4 and 8, further, a limiting groove 214 is provided on a side surface of the placing plate 21, a limiting post 15 is provided between the bottom frame 11 and the top plate 12, the limiting post 15 passes through a plurality of placing plates 21 through the limiting groove 214 to position the placing plate 21, thereby preventing the placing plate 21 from sliding relative to the tray support 10, preventing the placing plate 21 from being separated from the tray support 10, and ensuring the stability of the placing plate 21 on the tray support 10.

Further, the limiting column 15 may pass through the top plate 12 from above the top plate 12 to be matched with the limiting groove 214 on each of the placing plates 21, when the bottom end of the limiting column 15 abuts against the bottom frame 11, the limiting column 15 is then fixed to prevent the limiting column 15 from sliding relative to the tray support 10, and at this time, limiting of a plurality of placing plates 21 may be achieved; when the placing plate 21 needs to be disassembled, the limiting column 15 is disassembled first, so that the limiting column 15 no longer positions the placing plate 21 through the limiting groove 214, and at this time, the placing plate 21 can slide relative to the tray support 10 and is separated from the tray support 10.

Referring to fig. 9 and 10 in conjunction with fig. 4, further, a placing and placing groove 215 is provided on the placing plate 21, a plurality of the placing and placing grooves 215 are distributed on the same straight line, a notch groove 121 corresponding to the placing and placing groove 215 is provided on the top plate 12, a placing and placing device can enter between the top plate 12 and the bottom frame 11 from the notch groove 121, sequentially pass through the placing plate 21 through the placing and placing groove 215, and then drive the battery cell to enter or leave the placing plate 21 from the second end position of the placing plate 21. In this application, get and put the device and be sucking disc clamping jaw 30, be provided with a plurality of suction nozzles 31 on the sucking disc clamping jaw 30, be used for adsorbing electric core, drive arrangement accessible drive sucking disc clamping jaw 30 removes, realizes getting of electric core and puts.

In the present application, the tray support 10 and the placing plate 21 are made of aluminum material, so that the tray support 10 and the placing plate 21 have good heat conduction performance and uniform temperature transmission.

In this application, tray support 10 accessible place subassembly 20 and once only place a plurality ofly electric core, and can follow place the second end of board 21 to the electric core is got and is put, when getting and putting electric core, need not right tray support 10 piles up and dismantles, can reduce tray support 10's vibration for electric core is comparatively stable place on tray support 10.

The present invention may be embodied in various forms and modifications without departing from the spirit and scope of the utility model, and the above-described embodiments are intended to illustrate the present invention, but not to limit the scope of the utility model.

Claims (10)

1. The novel vertical integrated interlayer battery cell tray is characterized by comprising a tray support, wherein at least one placing component is arranged on each of two sides of the tray support, each placing component comprises a plurality of placing plates distributed in the vertical direction, and each placing plate is used for placing a battery cell;

the placing plate is obliquely arranged, the first end of the placing plate extends into the tray support, the bottom end of the placing plate is used for taking and placing the battery cell, and the height of the first end of the placing plate is lower than that of the second end of the placing plate; the first end of placing the board is provided with right the electricity core carries out the backstop portion of backstop.

2. The novel vertical integrated interlayer cell tray of claim 1, wherein the tray support comprises a bottom frame and a top plate, wherein a stand column is arranged between the bottom frame and the top plate, and the placing assembly is arranged between two adjacent stand columns.

3. The novel vertical integrated interlayer cell tray of claim 2, wherein a plurality of first positioning grooves are respectively formed on two sides of each of the vertical columns, and two adjacent vertical columns support and position the placing plate through the corresponding first positioning grooves, and the first positioning grooves can prevent the placing plate from passing through the vertical columns.

4. The novel vertical integrated interlayer cell tray according to claim 3, wherein positioning rods are respectively disposed on two sides of the vertical column, a plurality of second positioning grooves corresponding to the first positioning grooves are disposed on the positioning rods, and the first end of the placing plate can pass through the positioning rods through the second positioning grooves and extend into the first positioning grooves.

5. The novel vertical integrated interlayer cell tray of claim 4, wherein a limiting groove is formed on a side edge of the placing plate, a limiting post is arranged between the bottom frame and the top plate, and the limiting post passes through a plurality of the placing plates through the limiting groove to prevent the placing plates from sliding relative to the tray support.

6. The novel vertical integrated interlayer cell tray according to claim 1, wherein the placing components on two sides of the tray support are symmetrically distributed.

7. The novel vertical integrated interlayer cell tray of claim 1, wherein the supporting surface of the placing plate is provided with an anti-slip layer.

8. The novel vertical integrated interlayer cell tray of claim 1, wherein the bottom end of the tray support is provided with a spacer block made of PES material, and the tray support is stacked or placed by the spacer block.

9. The novel vertical integrated interlayer cell tray of claim 1, wherein the tray support and the placing plate are made of aluminum material.

10. The novel vertical integrated interlayer cell tray of claim 1, wherein the placing plate is provided with a taking and placing groove for a taking and placing device to pass through.

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