CN211438659U - Jacking mechanism of lithium battery laser welding fixture - Google Patents

Abstract

The utility model relates to a lithium cell laser welding anchor clamps climbing mechanism, including first base plate, the second base plate, the cylinder, the profile modeling sloping block, the gyro wheel, the guide rail, the guide post, linear bearing and removal support, the second base plate passes through the guide post and linear bearing installs in the top of first base plate and can follow the guide post and go up and down, install the guide rail on the first base plate, install on the guide rail and can slide through the cylinder drive removal support with removing the support slidable, the profile modeling sloping block is installed in the both sides of removing the support, install bottom the second base plate and correspond conflict complex gyro wheel with the profile modeling sloping block, the top level of profile modeling sloping block. The utility model discloses can realize the synchronous jacking of laser welding anchor clamps, effectively prevent the incline, can realize that the auto-lock of jacking height is spacing, guarantee the accuracy of jacking location, have the effect of steady location.

Description

Jacking mechanism of lithium battery laser welding fixture

Technical Field

The utility model belongs to the technical field of lithium cell busbar laser welding, especially, relate to a lithium cell laser welding anchor clamps climbing mechanism.

Background

In the existing lithium battery busbar welding process, the jacking mechanism has two structures of a double air cylinder and an electric cylinder drive. The advantage of double-cylinder is that final atress is even, can avoid causing the atress incline because of the change of module length, and the shortcoming is that double-cylinder's synchronism is relatively poor, and the spacing regulation of jacking is in the frame bottom, and the debugging operation is difficult. The electric cylinder driving has the advantages that the electric cylinder driving is not required to be limited, the electric cylinder driving can be conveniently compatible with products with different heights, the defects that the stress deflection of the busbar sheet is uneven due to large length change of the module, and the cost of the electric cylinder is high.

Disclosure of Invention

The utility model aims to solve the technical problem that a lithium cell laser welding anchor clamps climbing mechanism is provided, realizes the synchronous jacking of laser welding anchor clamps, effectively prevents the incline, can realize that the auto-lock of jacking height is spacing.

The utility model provides a technical scheme that its technical problem adopted provides a lithium cell laser welding anchor clamps climbing mechanism, including first base plate, second base plate, cylinder, profile modeling sloping block, gyro wheel, guide rail, guide post, linear bearing and removal support, the second base plate passes through guide post and linear bearing and installs in the top of first base plate and can follow the guide post and go up and down, install the guide rail on the first base plate, remove support slidable ground and install on the guide rail and can slide through the cylinder drive, the both sides at the removal support are installed to the profile modeling sloping block, second base plate installs bottom and corresponds conflict complex gyro wheel with the profile modeling sloping block, the top level of profile modeling sloping block.

Guide rails are respectively installed on two sides of the first base plate, and two sides of the movable support are respectively installed on the guide rails through sliding blocks.

The cylinder is mounted on the first substrate.

The second substrate is connected with the first substrate through four guide posts in matrix distribution in a supporting mode, the bottom ends of the guide posts are fixed with the first substrate, and the second substrate is connected with the guide posts through linear bearings.

The roller is installed at the bottom of the second substrate through the installation support.

And an adjusting gasket is arranged between the mounting support and the second substrate.

And the second substrate is provided with a lithium battery laser welding clamp.

The top surface of the profiling inclined block is in smooth transition with the inclined surface.

Advantageous effects

First, the utility model discloses in, promote both sides profile modeling sloping block forward through the cylinder in step and slide, the inclined plane guide effect through the profile modeling sloping block makes the gyro wheel of both sides can be in step by the jacking that makes progress to promote second base plate and laser welding anchor clamps along guide post rebound, the synchronous jacking in both sides can prevent effectively that laser welding anchor clamps from appearing the incline.

Second, the utility model discloses in, the top level of profile modeling sloping block, when the cooperation strong point of gyro wheel and profile modeling sloping block reached profile modeling sloping block top, it is spacing to realize the auto-lock of jacking height, can avoid jacking height to receive the influence of cylinder drive fluctuation factor, has guaranteed the accuracy of jacking location, has the effect of steady location.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the matching of the profiling oblique block and the roller.

Detailed Description

The present invention will be further described with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes and modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope of the appended claims.

As shown in fig. 1 and 2, the jacking mechanism of the lithium battery laser welding fixture comprises a first base plate 1, a second base plate 2, a cylinder 3, a profiling oblique block 4, a roller 5, a guide rail 6, a guide post 7, a linear bearing 8 and a movable support 9.

The second substrate 2 is mounted above the first substrate 1 through four guide posts 7 and four linear bearings 8, and can perform lifting motion along the guide posts 7. Four guide posts 7 are in matrix distribution, and the bottom of guide post 7 is fixed with first base plate 1, is connected through linear bearing 8 between second base plate 2 and the guide post 7. And the second substrate 2 is provided with a lithium battery laser welding fixture for loading a lithium battery module.

Guide rails 6 are respectively installed on two sides of the first substrate 1, and the movable support 9 spans the two guide rails 6, and two sides of the movable support are respectively installed on the guide rails 6 through sliders. The cylinder 3 horizontal installation is on first base plate 1, and the telescopic link and the movable support 9 of cylinder 3 are connected, and through the drive of cylinder 3, movable support 9 can follow guide rail 6 and make a round trip to slide. The two sides of the movable support 9 are respectively provided with a profiling inclined block 4, the profiling inclined block is provided with an inclined plane and a horizontal top surface, the top surface and the inclined plane of the profiling inclined block 4 are in smooth transition, and the inclined plane is subjected to quenching treatment.

The bottom of the second substrate 2 is provided with a roller 5 corresponding to the abutting fit with the profiling inclined block 4, the roller 5 is arranged at the bottom of the second substrate 2 through a mounting support 10, an adjusting gasket is arranged between the mounting support 10 and the second substrate 2, the rollers 5 on two sides can be adjusted to the same height through the adjusting gasket, and the height of the roller 5 which is jacked can be adjusted.

This lithium cell laser welding anchor clamps climbing mechanism is at the during operation, stretch out through cylinder 3, promote and remove support 9 and the forward slip of profile modeling sloping block 4, the inclined plane guide effect through profile modeling sloping block 4 makes the gyro wheel 5 of both sides can be in step by the jacking that makes progress, thereby promote second base plate 2 and the laser welding anchor clamps on it along guide post 7 rebound, when gyro wheel 5 reaches profile modeling sloping block 4 top with the cooperation strong point of profile modeling sloping block 4, can realize that the auto-lock of anchor clamps jacking height is spacing, avoid the impact that the cylinder motion caused, the effect of steady location has, play the work piece guard action.

Claims (8)

1. The utility model provides a lithium cell laser welding anchor clamps climbing mechanism, includes first base plate (1), second base plate (2), cylinder (3), profile modeling sloping block (4), gyro wheel (5), guide rail (6), guide post (7), linear bearing (8) and moving support (9), its characterized in that: second base plate (2) are installed in the top of first base plate (1) and can be followed guide post (7) through guide post (7) and linear bearing (8) and go up and down, install guide rail (6) on first base plate (1), it can slide to remove support (9) slidable install on guide rail (6) and can drive through cylinder (3), the both sides at removal support (9) are installed in profile modeling sloping block (4), second base plate (2) bottom is installed and is corresponded conflict complex gyro wheel (5) with profile modeling sloping block (4), the top level of profile modeling sloping block (4).

2. The lithium battery laser welding fixture jacking mechanism of claim 1, wherein: guide rails (6) are respectively installed on two sides of the first base plate (1), and two sides of the movable support (9) are respectively installed on the guide rails (6) through sliding blocks.

3. The lithium battery laser welding fixture jacking mechanism of claim 1, wherein: the cylinder (3) is mounted on the first substrate (1).

4. The lithium battery laser welding fixture jacking mechanism of claim 1, wherein: the second substrate (2) is in supporting connection with the first substrate (1) through four guide posts (7) distributed in a matrix mode, the bottom ends of the guide posts (7) are fixed with the first substrate (1), and the second substrate (2) is connected with the guide posts (7) through linear bearings (8).

5. The lithium battery laser welding fixture jacking mechanism of claim 1, wherein: the roller (5) is installed at the bottom of the second substrate (2) through an installation support (10).

6. The lithium battery laser welding fixture jacking mechanism of claim 5, wherein: and an adjusting gasket is arranged between the mounting support (10) and the second substrate (2).

7. The lithium battery laser welding fixture jacking mechanism of claim 1, wherein: and the second substrate (2) is provided with a lithium battery laser welding fixture.

8. The lithium battery laser welding fixture jacking mechanism of claim 1, wherein: the top surface of the profiling inclined block (4) is in smooth transition with the inclined surface.

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