CN216928830U - Positioning fixture for battery cell - Google Patents

Abstract

The utility model provides a positioning fixture for a battery cell, and belongs to the technical field of battery production. The positioning clamp comprises a fixed seat, a support plate, a first clamping assembly and a second clamping assembly, wherein two sides of the fixed seat are respectively provided with a side plate; the support plate is fixed on the two side plates, a first fixing block and a second fixing block which are perpendicular to each other are arranged on the support plate, and a first notch opposite to the first fixing block and a second notch opposite to the second fixing block are further formed in the support plate. The battery cell is firmly clamped between the first fixed block, the second fixed block, the first movable block and the second movable block, the battery cell is guaranteed to be fixed and stable, the battery cell is guaranteed to be clamped when a code spraying test is carried out, and the accuracy of the test is guaranteed.

Description

Positioning fixture for battery core

Technical Field

The utility model belongs to the technical field of battery production, and relates to a positioning fixture for a battery cell.

Background

The battery core is a raw material of a lithium ion polymer battery product, and in the process of manufacturing the lithium battery, an identification code needs to be sprayed on the battery core, and the identification code is used as an information carrier for information identification of a user, so that the battery core with the correct model is selected. At the in-process of spouting identification code for battery electricity core, need guarantee to spout the stable just can guarantee to spout the sign indicating number definition to battery electricity core of code head inkjet, consequently, need test before spouting identification code for battery electricity core and spout the stability of pier, however, in traditional mode, mainly rely on the manual work to detect and spout whether the sign indicating number inkjet is stable, observe the completion through people's eye promptly, and people's eye detects the inefficiency, and the rate of accuracy is not high.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a positioning clamp for a battery cell, and the technical problems to be solved by the utility model are as follows: how to clamp the battery cell during the code spraying test, and the stability of the battery cell is ensured.

The purpose of the utility model can be realized by the following technical scheme:

a positioning fixture for battery cells, comprising:

the two sides of the fixed seat are provided with side plates respectively;

the support plate is fixed on the two side plates, a first fixing block and a second fixing block which are perpendicular to each other are arranged on the support plate, and a first notch opposite to the first fixing block and a second notch opposite to the second fixing block are further formed in the support plate;

the first clamping assembly comprises a first slide rail, a first moving block, a first movable block and an extension spring, the first slide rail is mounted on the fixed seat, the first moving block is connected to the first slide rail in a sliding mode, the first movable block is fixed on the first moving block, the first movable block penetrates through the first notch and extends to the upper portion of the carrier plate, one end of the extension spring is fixed on the side plate, and the other end of the extension spring is fixed on one side of the first moving block;

The second clamping assembly comprises a second slide rail, a second moving block, a second movable block and a compression spring, the second slide rail is mounted on the fixed seat, the second moving block is connected to the second slide rail in a sliding mode, the second movable block is fixed on the second moving block, the second movable block penetrates through the second notch to extend above the carrier plate, one end of the compression spring is fixed on a connecting block on the side edge of the carrier plate, and the other end of the compression spring is fixed on the second moving block;

the battery electric core is placed in a groove formed by the first fixed block, the second fixed block, the first movable block and the second movable block in a surrounding mode.

In the above positioning fixture for battery cells, the first moving block includes a first slider and a first support block, the first slider is slidably connected to the first slide rail, the first support block is fixedly connected to the first slider, and the first movable block is fixedly connected to the first support block.

In the above positioning fixture for a battery electric core, the second moving block includes a second slider and a second supporting block, the second slider is slidably connected to the second slide rail, the second supporting block is fixedly connected to the second slider, and the second moving block is fixedly connected to the second supporting block.

In foretell a positioning fixture for battery electricity core, positioning fixture is still including opening the subassembly, open the subassembly and include the cylinder and promote the piece, the cylinder install in on the fixing base, promote piece fixed connection in the output of cylinder, the one side that promotes the piece is the hypotenuse, one side that first slider kept away from extension spring is provided with first bearing, first bearing with promote the hypotenuse looks butt of piece, work as when the cylinder promotes to promote the piece and moves forward, promotes the hypotenuse of piece and promotes first bearing, orders about first movable block and keeps away from the extension spring direction and remove.

In the above positioning fixture for battery cells, the second slider is provided with a second bearing, one side of the pushing block, which is away from the cylinder, is a straight edge, the second bearing is in abutting joint with the straight edge of the pushing block, which is away from the cylinder, and when the cylinder pushes the pushing block to move forward, the straight edge of the pushing block pushes the second bearing, so that the second moving block is driven to move in a direction close to the compression spring.

In the above positioning fixture for battery cells, two L-shaped positioning blocks are arranged on the second movable block.

In the above positioning fixture for battery cells, the connecting block includes a vertical connecting plate and a transverse connecting plate, the vertical connecting plate is fixedly connected to the carrier plate, the transverse connecting plate is fixedly connected to one end of the vertical connecting plate, which is far away from the carrier plate, one end of the compression spring is fixed to the vertical connecting plate, and the other end of the compression spring is fixed to the second slider.

In the positioning fixture for the battery cell, the carrier plate is provided with two groups of first fixing blocks and second fixing blocks which form a right angle with each other, and the carrier plate is provided with two first notches opposite to the first fixing blocks and two second notches opposite to the second fixing blocks; the first clamping assembly comprises two first movable blocks, and the two first sliding blocks respectively penetrate through the two first notches and extend to the upper part of the carrier plate; the second clamping assembly comprises two second movable blocks, and the two second movable blocks respectively penetrate through the two second notches and extend to the upper part of the carrier plate; the battery electric core is placed in the groove positions formed by the first fixed block, the second fixed block, the first movable block and the second movable block in a surrounding mode.

Compared with the prior art, the utility model has the following advantages:

in the positioning fixture, a battery cell is placed in a groove formed by enclosing a first fixed block, a second fixed block, a first movable block and a second movable block, namely, two sides of the battery cell abut against the first fixed block and the second fixed block; and the second slide rail is installed on the fixing base, the second movable block is connected on the second slide rail in a sliding manner, the second movable block is fixed on the second movable block, the second movable block passes through the second notch and extends to the upper portion of the support plate, the compression spring is in a compression state in an initial state, namely, the compression spring always props up the second movable block, the second movable block is pushed up by the second movable block, the second movable block and the second fixed block clamp the two ends of a battery cell, the battery cell is firmly clamped on the first fixed block, the second fixed block, the first movable block and the second movable block, the battery cell is ensured to be fixed and stable, the battery cell is ensured to be clamped in code spraying tests, and the test accuracy is ensured.

Drawings

FIG. 1 is a schematic view of the present positioning jig;

FIG. 2 is a schematic structural view of the positioning fixture from another perspective;

fig. 3 is a schematic structural view of the installation of the first clamping assembly, the second clamping assembly and the flaring assembly.

In the figure, 1, a fixed seat; 2. a side plate; 3. a carrier plate; 4. a first fixed block; 5. a second fixed block; 6. a first notch; 7. a second notch; 8. a first slide rail; 9. a first moving block; 10. a first movable block; 11. an extension spring; 12. a second slide rail; 13. a second moving block; 14. a second movable block; 15. a compression spring; 16. a first slider; 17. a first support block; 18. a second slider; 19. a second support block; 20. a cylinder; 21. a pushing block; 22. a first bearing; 23. a second bearing; 24. an L-shaped positioning block; 25. a vertical connecting plate; 26. a transverse connecting plate; 27. a battery cell.

Detailed Description

The following are specific embodiments of the present invention, and the technical solutions of the present invention will be further described with reference to the drawings, but the present invention is not limited to these embodiments.

It will be understood that the terms "upper," "lower," "front," "rear," "left," "right," "horizontal," "top," "inner," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the utility model and for simplicity in description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the utility model.

The terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", and "third" may explicitly or implicitly include one or more of the features. In the description of the present invention, a "set" means two or more unless otherwise specified.

As shown in fig. 1-3, the positioning clamp includes a fixed seat 1, a carrier plate 3, a first clamping assembly and a second clamping assembly, wherein two sides of the fixed seat 1 are both provided with a side plate 2; the carrier plate 3 is fixed on the two side plates 2, a first fixing block 4 and a second fixing block 5 which are perpendicular to each other are arranged on the carrier plate 3, and a first notch 6 opposite to the first fixing block 4 and a second notch 7 opposite to the second fixing block 5 are also arranged on the carrier plate 3; the first clamping assembly comprises a first slide rail 8, a first moving block 9, a first movable block 10 and an extension spring 11, the first slide rail 8 is mounted on the fixed seat 1, the first moving block 9 is slidably connected to the first slide rail 8, the first movable block 10 is fixed on the first moving block 9, the first movable block 10 penetrates through the first notch 6 and extends to the upper side of the carrier plate 3, one end of the extension spring 11 is fixed on the side plate 2, and the other end of the extension spring 11 is fixed on one side of the first moving block 9; the second clamping assembly comprises a second slide rail 12, a second moving block 13, a second movable block 14 and a compression spring 15, the second slide rail 12 is mounted on the fixed seat 1, the second moving block 13 is connected to the second slide rail 12 in a sliding manner, the second movable block 14 is fixed on the second moving block 13, the second movable block 14 penetrates through the second notch 7 and extends to the upper side of the carrier plate 3, one end of the compression spring 15 is fixed on a connecting block on the side edge of the carrier plate 3, and the other end of the compression spring 15 is fixed on the second moving block 13; the battery cell 27 is placed in a slot formed by the first fixed block 4, the second fixed block 5, the first movable block 10 and the second movable block 14 in a surrounding manner.

It should be noted that, this positioning fixture is applied to spout a yard test equipment, when spouting a yard head stability test promptly, need press from both sides tight location to battery electricity core 27 earlier, guarantees that battery electricity core 27 is stable when spouting a yard, ensures to spout the accuracy of yard head test, and during the inkjet test, spouts the yard head and carries out the inkjet to fixed battery electricity core 27. The stability of the inkjet head is proved to be good if the ink on the battery cell 27 is continuously applied.

In the positioning fixture, a battery cell 27 is placed in a groove formed by enclosing a first fixed block 4, a second fixed block 5, a first movable block 10 and a second movable block 14, namely, two sides of the battery cell 27 abut against the first fixed block 4 and the second fixed block 5, because a first slide rail 8 is mounted on a fixed seat 1, a first movable block 9 is slidably connected to the first slide rail 8, the first movable block 10 is fixed on the first movable block 9, and the first movable block 10 passes through a first notch 6 and extends to the upper side of a carrier plate 3, in an initial state, a tension spring 11 is in a tension state, namely, the tension spring 11 always pulls the first movable block, so that the first movable block 10 abuts against one side of the battery cell 27, and the first movable block 10 and the first fixed block 4 clamp the battery cell 27; and the second slide rail 12 is installed on the fixed seat 1, the second moving block 13 is slidably connected to the second slide rail 12, the second moving block 14 is fixed on the second moving block 13, the second moving block 14 passes through the second notch 7 and extends to the upper side of the support plate 3, the compression spring 15 is in a compression state in an initial state, namely, the compression spring 15 always pushes against the second moving block 13, so that the second moving block 14 pushes against the second moving block 14, the second moving block 14 and the second fixed block 5 clamp two ends of the battery cell 27, at this time, the battery cell 27 is firmly clamped between the first fixed block 4, the second fixed block 5, the first moving block 10 and the second moving block 14, it is ensured that the battery cell 27 is fixed and stable, it is ensured that the battery cell 27 is clamped during code spraying tests, and the accuracy of the tests is ensured.

As shown in fig. 1 to 3, in this embodiment, the first moving block 9 includes a first sliding block 16 and a first supporting block 17, the first sliding block 16 is slidably connected to the first sliding rail 8, the first supporting block 17 is fixedly connected to the first sliding block 16, and the first moving block 10 is fixedly connected to the first supporting block 17. In this structure, 16 sliding connection of first slider are on first slide rail 8, and first supporting block 17 fixed connection is on first slider 16, and first movable block 10 fixed connection can guarantee that first movable block 10 can move smoothly in first notch 6 on first supporting block 17.

As shown in the drawings, in this embodiment, the second moving block 13 includes a second sliding block 18 and a second supporting block 19, the second sliding block 18 is slidably connected to the second slide rail 12, the second supporting block 19 is fixedly connected to the second sliding block 18, and the second moving block 14 is fixedly connected to the second supporting block 19. In this structure, the second slide block 18 is slidably connected to the second slide rail 12, the second support block 19 is fixedly connected to the second slide block 18, and the second movable block 14 is fixedly connected to the second support block 19, so that the second movable block 14 can be ensured to move smoothly in the second notch 7.

As shown in fig. 1-3, in this embodiment, the positioning fixture further includes an expanding assembly, the expanding assembly includes an air cylinder 20 and a pushing block 21, the air cylinder 20 is installed on the fixing base 1, the pushing block 21 is fixedly connected to an output end of the air cylinder 20, one side of the pushing block 21 is a bevel edge, a first bearing 22 is disposed on one side of the first slider 16 away from the extension spring 11, the first bearing 22 abuts against the bevel edge of the pushing block 21, and when the air cylinder 20 pushes the pushing block 21 to move forward, the bevel edge of the pushing block 21 pushes the first bearing 22, so as to drive the first moving block 9 to move away from the extension spring 11. In this structure, one side that promotes piece 21 is the hypotenuse, first slider 16 keeps away from one side of extension spring 11 is provided with first bearing 22, first bearing 22 and the hypotenuse looks butt that promotes piece 21, when first movable block 10 is opened to needs, when changing electric core battery, when cylinder 20 promoted and promotes piece 21 and move forward, the hypotenuse that promotes piece 21 promotes first bearing 22, order about first movable block 9 and keep away from extension spring 11 direction and move, can open first movable block 10, change battery electric core 27 again, close cylinder 20 this moment, because extension spring 11 handles tensile state, first movable block 10 drives first movable block 10 and is close to the removal of first fixed block 4 direction under tensile pulling force effect, press from both sides tight battery electric core 27 both sides after changing.

As shown in fig. 1 to 3, in this embodiment, a second bearing 23 is disposed on the second slider 18, a side of the pushing block 21 away from the air cylinder 20 is a straight edge, the second bearing 23 abuts against the straight edge of the pushing block 21 away from the air cylinder 20, and when the air cylinder 20 pushes the pushing block 21 to move forward, the straight edge of the pushing block 21 pushes the second bearing 23, so as to drive the second moving block 13 to move in a direction approaching the compression spring 15. In the structure, one side of the pushing block 21, which is far away from the cylinder 20, is a straight edge, the second bearing 23 abuts against the straight edge of the pushing block 21, which is far away from one side of the cylinder 20, when the battery cell 27 needs to be replaced, the cylinder 20 pushes the pushing block 21 to move forward, the straight edge of the pushing block 21 pushes the second bearing 23 to drive the second moving block 13 to move in the direction close to the compression spring 15, so that the second moving block 14 can be opened, the battery cell 27 is replaced, at this time, the cylinder 20 is closed, and because the compression spring 15 is in a compression state, the second moving block 14 drives the second moving block 14 to move in the direction close to the second fixing block 5 under the thrust action of the compression spring 15, so as to clamp two ends of the replaced battery cell 27.

As shown in fig. 3, in this embodiment, two L-shaped positioning blocks 24 are disposed on the second movable block 14. In the structure, the two L-shaped positioning blocks 24 are arranged on the second movable block 14, and the L-shaped positioning blocks 24 are used for positioning the tabs of the battery electric core 27, so that the clamping position when the battery electric core 27 is clamped is accurate, and the accuracy of code spraying test is ensured.

As shown in fig. 3, in this embodiment, the connecting block includes a vertical connecting plate 25 and a transverse connecting plate 26, the vertical connecting plate 25 is fixedly connected to the carrier plate 3, the transverse connecting plate 26 is fixedly connected to one end of the vertical connecting plate 25 away from the carrier plate 3, one end of the compression spring 15 is fixed to the vertical connecting plate 25, and the other end of the compression spring 15 is fixed to the second slider 18.

As shown in the figure, in this embodiment, two sets of first fixing blocks 4 and second fixing blocks 5 which are perpendicular to each other are arranged on the carrier plate 3, and two first notches 6 opposite to the first fixing blocks 4 and two second notches 7 opposite to the second fixing blocks 5 are arranged on the carrier plate 3; the first clamping assembly comprises two first movable blocks 10, and the two first sliding blocks respectively penetrate through the two first notches 6 and extend to the upper part of the carrier plate 3; the second clamping assembly comprises two second movable blocks 14, and the two second movable blocks 14 respectively penetrate through the two second notches 7 and extend to the upper part of the carrier plate 3; the battery electric core 27 is placed in a groove formed by the first fixed block 4, the second fixed block 5, the first movable block 10 and the second movable block 14 in a surrounding manner. In this structure, through setting up two sets of first fixed block 4 and the second fixed block 5 that become the right angle each other, be provided with two first notches 6 relative with first fixed block 4 and two second notches 7 relative with second fixed block 5 on the support plate 3, can carry out the inkjet test to two battery electricity cores 27 simultaneously, improve efficiency of software testing, in other embodiments, can set up more than two sets of first fixed block 4 and the second fixed block 5 that become the right angle each other, be provided with two first notches 6 relative with first fixed block 4 and two second notches 7 relative with second fixed block 5 on the support plate 3, do not limit herein.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (8)

1. A positioning fixture for battery cells (27), comprising:

the device comprises a fixed seat (1), wherein two sides of the fixed seat (1) are respectively provided with a side plate (2);

the support plate (3) is fixed on the two side plates (2), a first fixing block (4) and a second fixing block (5) which are perpendicular to each other are arranged on the support plate (3), and a first notch (6) opposite to the first fixing block (4) and a second notch (7) opposite to the second fixing block (5) are further arranged on the support plate (3);

the first clamping assembly comprises a first slide rail (8), a first movable block (9), a first movable block (10) and an extension spring (11), the first slide rail (8) is installed on the fixed seat (1), the first movable block (9) is connected to the first slide rail (8) in a sliding mode, the first movable block (10) is fixed to the first movable block (9), the first movable block (10) penetrates through the first notch (6) and extends to the position above the carrier plate (3), one end of the extension spring (11) is fixed to the side plate (2), and the other end of the extension spring (11) is fixed to one side of the first movable block (9);

The second clamping assembly comprises a second slide rail (12), a second movable block (13), a second movable block (14) and a compression spring (15), the second slide rail (12) is mounted on the fixed seat (1), the second movable block (13) is connected to the second slide rail (12) in a sliding mode, the second movable block (14) is fixed to the second movable block (13), the second movable block (14) penetrates through the second notch (7) and extends to the upper side of the carrier plate (3), one end of the compression spring (15) is fixed to a connecting block on the side edge of the carrier plate (3), and the other end of the compression spring (15) is fixed to the second movable block (13);

the battery electric core (27) is placed in a groove formed by the first fixed block (4), the second fixed block (5), the first movable block (10) and the second movable block (14) in a surrounding mode.

2. The positioning fixture for battery cells (27) as claimed in claim 1, wherein the first moving block (9) comprises a first slider (16) and a first supporting block (17), the first slider (16) is slidably connected to the first sliding rail (8), the first supporting block (17) is fixedly connected to the first slider (16), and the first moving block (10) is fixedly connected to the first supporting block (17).

3. The positioning fixture for battery cells (27) according to claim 2, wherein the second moving block (13) comprises a second sliding block (18) and a second supporting block (19), the second sliding block (18) is slidably connected to the second sliding rail (12), the second supporting block (19) is fixedly connected to the second sliding block (18), and the second moving block (14) is fixedly connected to the second supporting block (19).

4. The positioning fixture for the battery cells (27) according to claim 3, further comprising an expanding assembly, wherein the expanding assembly comprises a cylinder (20) and a pushing block (21), the cylinder (20) is mounted on the fixing seat (1), the pushing block (21) is fixedly connected to an output end of the cylinder (20), one side of the pushing block (21) is a bevel edge, one side of the first slider (16) away from the tension spring (11) is provided with a first bearing (22), the first bearing (22) abuts against the bevel edge of the pushing block (21), and when the cylinder (20) pushes the pushing block (21) to move forward, the bevel edge of the pushing block (21) pushes the first bearing (22) to drive the first moving block (9) to move away from the tension spring (11).

5. The positioning fixture for the battery cells (27) according to claim 4, wherein the second sliding block (18) is provided with a second bearing (23), one side of the pushing block (21) away from the cylinder (20) is a straight edge, the second bearing (23) abuts against the straight edge of one side of the pushing block (21) away from the cylinder (20), and when the pushing block (21) is pushed by the cylinder (20) to move forward, the straight edge of the pushing block (21) pushes the second bearing (23) to drive the second moving block (13) to move in a direction approaching the compression spring (15).

6. The positioning clamp for battery cells (27) according to claim 1, characterized in that two L-shaped positioning blocks (24) are provided on the second movable block (14).

7. A positioning fixture for battery cells (27) according to claim 3, characterized in that the connecting block comprises a vertical connecting plate (25) and a transverse connecting plate (26), the vertical connecting plate (25) is fixedly connected to the carrier plate (3), the transverse connecting plate (26) is fixedly connected to one end of the vertical connecting plate (25) away from the carrier plate (3), one end of the compression spring (15) is fixed to the vertical connecting plate (25), and the other end of the compression spring (15) is fixed to the second slider (18).

8. The positioning fixture for battery cells (27) as claimed in claim 1, characterized in that the carrier plate (3) is provided with two sets of first fixing blocks (4) and second fixing blocks (5) at right angles to each other, and the carrier plate (3) is provided with two first notches (6) opposite to the first fixing blocks (4) and two second notches (7) opposite to the second fixing blocks (5); the first clamping assembly comprises two first movable blocks (10), and the two first sliding blocks respectively penetrate through the two first notches (6) and extend to the upper part of the carrier plate (3); the second clamping assembly comprises two second movable blocks (14), and the two second movable blocks (14) respectively penetrate through the two second notches (7) and extend to the upper part of the carrier plate (3); the battery electric core (27) is placed in a groove formed by the first fixed block (4), the second fixed block (5), the first movable block (10) and the second movable block (14) in a surrounding mode.

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