CN217727637U - Electricity core welding jig - Google Patents

Abstract

The utility model relates to an electric core welding clamp, which adopts a frame fixed on a panel; a side plate pressing structure is arranged below the frame; the cell welding fixture can be suitable for cell welding fixtures of cells with different lengths; the technical problem of low working efficiency caused by the fact that workers need to continuously replace fixtures of different models when installing the electric core welding fixture is solved.

Description

Electricity core welding jig

Technical Field

The embodiment of the utility model relates to a welding jig, in particular to electric core welding jig.

Background

In current electric core production process, need weld electric core, because the length dimension of different electric cores is all different, just need the supporting welding jig of each model, just so caused the workman when installing electric core welding jig, the anchor clamps of the different models of change that need not stop, caused work efficiency low.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model aims to provide an electric core welding jig of electric core that can be applicable to different length.

In order to achieve the above object, an embodiment of the present invention provides an electrical core welding jig, which is characterized in that, including:

a panel;

a frame to which the panel is fixed;

the side plate pressing structure is arranged below the frame;

and the adjusting structure is arranged below the frame and on the panel in the direction perpendicular to the side plate pressing structure and is used for adjusting the fixing positions of the battery cores with different lengths.

Further, the panel is arranged at the bottom of the battery cell welding fixture.

Further, the frame further comprises:

the front door frame is fixed on one side of the panel, and the adjusting structure is fixed on the lower part of the front door frame;

the rear door frame is fixed on the other side of the panel, and the side plate pressing structure is fixed on the lower part of the rear door frame;

a lacing wire bolt is respectively arranged below the front door frame and the rear door frame;

the terminal post pressing strip penetrates into a waist-shaped hole in the terminal post pressing strip through the lacing bolt, and the terminal post pressing strip moves on the lacing bolt along the preset axis direction of the battery cell;

and the polar post pressing strip pressing clamp is fixed below and above the front door frame and the rear door frame.

Further, curb plate compact structure set up the left side of electric core, the front side of electric core and the rear side of electric core.

Further, curb plate compact structure, still include:

the side plate fixing plate is fixed on the panel;

the side plate slide rails are fixed on the side plate fixing plate;

the side plate sliding block is movably connected with the side plate sliding rail;

the side plate pressing clamp base is arranged between the side plate sliding rails and fixed on the side plate fixing plate;

the side plate pressing clamp is fixed on the side plate pressing clamp base;

the side plate bracket is fixed on one side of the side plate bracket on the side plate sliding block;

lateral plate crosspieces; fixing the lateral plate crosspiece on the other side of the lateral plate bracket; one end of the lateral plate crosspiece is fixed with a lateral plate connecting block; one end of a pressing rod of the side plate pressing clamp is clamped into the clamping groove of the side plate connecting block;

and the side plate is fixed on the other side of the lateral plate crosspiece.

Further, the adjusting structure further comprises:

the adjusting fixing plate is fixed on the panel;

the first adjusting slide rails are fixed on the adjusting fixing plate;

the first adjusting slide block is movably connected with the first adjusting slide rail;

the adjusting pressure clamp base is fixed on the adjusting fixing plate between the first adjusting slide rails;

the adjusting pressing pliers are fixed on the adjusting pressing pliers base;

the first adjusting bracket is fixed on one side of the first adjusting sliding block;

adjusting the crosspiece; fixing the adjusting crosspiece on the other side of the first adjusting bracket; one end of the adjusting crosspiece is fixed with an adjusting connecting block; one end of a pressing rod of the adjusting pressing clamp is clamped into the clamping groove of the adjusting connecting block;

the adjusting side plate is fixed on the other side of the adjusting crosspiece;

the adjusting fixing block is fixed between the two adjusting pressing pliers on the adjusting fixing plate;

the adjusting vertical plate is fixed above one side of the adjusting fixing block; a bearing is arranged on the adjusting vertical plate;

the battery cell compression screw penetrates into the bearing and penetrates into one end of the battery cell compression screw;

the second adjusting slide rail is fixed on the adjusting fixing block;

the second adjusting slide block is movably connected with the second adjusting slide rail;

the second adjusting bracket is fixed on one side of the second adjusting bracket on the second adjusting slide block;

the adjusting compression block is fixed on the other side of the second adjusting bracket; a gland nut on the cell gland screw is fixed on the adjusting gland block;

the battery cell compression screw rotates to push the second adjusting bracket forwards to adjust the fixing positions of the battery cells with different lengths.

Compared with the prior art, the utility model adopts the fixing frame on the panel; a side plate pressing structure is arranged below the frame; the cell welding fixture can be suitable for cell welding fixtures of cells with different lengths; the technical problem of low working efficiency caused by the fact that workers need to continuously replace fixtures of different models when installing the electric core welding fixture is solved.

Drawings

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

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following describes each embodiment of the present invention in detail with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

The utility model discloses an embodiment relates to an electricity core welding jig, as shown in FIG. 1, include:

the panel 1 is used as a base plate in the cell welding jig of the present embodiment,

fixing the frame 20 on the panel 1; the frame 20 is used for supporting the whole frame of the cell welding fixture;

a side plate pressing structure 30 is arranged below the frame 20; the side plate compression structure 30 is used for fixing the side surface of the battery cell.

And the adjusting structure 40 is arranged below the frame 20 and on the panel 1 in a direction perpendicular to the side plate pressing structure 30, and is used for adjusting the fixing positions of the battery cells with different lengths.

The utility model provides an electric core welding jig can be applicable to the electric core welding jig of the electric core of different length; the technical problem of low working efficiency caused by the fact that workers need to continuously replace fixtures of different models when installing the electric core welding fixture is solved.

In order to achieve the above technical effects, as shown in fig. 1, a panel 1 is disposed at the bottom of the cell welding jig in this embodiment.

In order to achieve the above technical effects, as shown in fig. 1, the frame 20 further includes:

a front door frame 21, wherein the front door frame 21 is fixed on one side of the panel 1, and an adjusting structure 40 is fixed on the lower part of the front door frame 21;

a rear door frame 22, the rear door frame 22 being fixed to the other side of the panel 1, the side plate pressing structure 30 being fixed to the lower portion of the rear door frame 22;

a lacing bolt 23 is respectively arranged below the front door frame 21 and the rear door frame 22;

the terminal post pressing strip 24 is inserted into a kidney-shaped hole 25 in the terminal post pressing strip 24 through the tie bar bolt 23, and the terminal post pressing strip 24 moves on the tie bar bolt 23 along the preset axis direction of the battery core 2;

and the pole pressing clamp 26 is fixed below and above the front door frame 21 and the rear door frame 22.

In order to achieve the above technical effects, as shown in fig. 1, the side plate pressing structures 30 are disposed on the left side of the battery cell 2, the front side of the battery cell 2, and the rear side of the battery cell 2. The side plate compression structures 30 on the left side of the battery cell 2, the front side of the battery cell 2 and the rear side of the battery cell 2 have the same structure.

In order to achieve the above technical effects, as shown in fig. 1, the side plate pressing structure 30 further includes:

fixing a side plate fixing plate 31 on the panel 1; the side plate fixing plate 31 serves as a bottom plate of the side plate pressing structure 30;

two side plate slide rails 32 are fixed on the side plate fixing plate 31;

a side plate sliding block 33 is movably connected on the side plate sliding rail 32; the side plate slide block 33 slides on the side plate slide rail 32;

a side plate press jaw base 34 is fixed on the side plate fixing plate 31 between the side plate slide rails 32;

a side plate press tong 35 is fixed on the side plate press tong base 34; the side plate pressing clamp 35 is arranged on the side plate pressing clamp base 34;

one side of the side plate bracket 36 is fixed to the side plate slider 33; the side plate bracket 36 plays a supporting role;

securing a side panel rail 37 on the other side of the side panel bracket 36; one end of the lateral plate crosspiece 37 is fixed with a lateral plate connecting block 38; one end of a pressing rod of a side plate pressing clamp 39 is clamped in a clamping groove of the side plate connecting block 38;

the side plate 391 is fixed on the other side of the side plate crosspiece 37. The side plate presser 39 pushes the side plate crosspiece 37 and the side plate 391, and the fixation of the side plate presser structure 30 is achieved.

In order to achieve the above technical effects, as shown in fig. 1, the adjusting structure 40 further includes:

fixing an adjusting fixing plate 41 on the panel 1; the adjusting fixing plate 41 serves as a bottom plate of the adjusting structure 40;

two first adjusting slide rails 42 are fixed on the adjusting fixing plate 41;

a first adjusting slide block 43 is movably connected on the first adjusting slide rail 42; the first adjustment slider 43 slides on the first adjustment slide 42;

an adjusting clamp base 44 is fixed on the adjusting fixing plate 41 between the first adjusting slide rails 42;

an adjusting pressure clamp 45 is fixed on the adjusting pressure clamp base 44; an adjusting pressure clamp 45 is fixed on the adjusting pressure clamp base 44;

one side of the first adjusting bracket 46 is fixed to the first adjusting slider 43; the first adjusting bracket 46 is used for installing an adjusting crosspiece 47;

an adjustment rail 47 is fixed on the other side of the first adjustment bracket 46; one end of the adjusting crosspiece 47 is fixed with an adjusting connecting block 48; one end of a pressing rod of the adjusting pressing clamp 45 is clamped into the clamping groove of the adjusting connecting block 48;

an adjusting side plate 49 is fixed on the other side of the adjusting crosspiece 47; the adjusting pressure clamp 45 pushes the adjusting side plate 49 to clamp the battery cell 2; and the positioning of the battery cell 2 is realized.

An adjusting fixing block 50 is fixed between the two adjusting pressing pliers 45 on the adjusting fixing plate 41; the adjusting fixing block 50 is used for bottom support.

An adjusting vertical plate 51 is fixed above one side of the adjusting fixed block 50; a bearing 52 is arranged on the adjusting vertical plate 51; the adjusting vertical plate 51 mainly plays a supporting role;

a cell compression screw 53, one end of which penetrates into the bearing 52;

a second adjusting slide rail 54 is fixed on the adjusting fixing block 50;

a second adjusting slide block 55 is movably connected to the second adjusting slide rail 54; the second adjustment slider 55 slides on the second adjustment slide 54;

one side of the second adjusting bracket 56 is fixed to the second adjusting slider 55; the second adjusting bracket 56 mainly plays a role of supporting;

an adjusting pressing block 57, wherein the adjusting pressing block 57 is fixed on the other side of the second adjusting bracket 56; a compression nut 58 on the cell compression screw 53 is fixed on the adjusting compression block 57;

the cell compression screw 53 rotates to push the second adjusting bracket 56 forward, so as to adjust the fixing positions of the cells with different lengths.

In this embodiment, an unwelded battery cell 2 is manually assembled on the battery cell welding jig in this embodiment; manually screwing the cell pressing screw 53 to pre-tighten the left and right positions of the cell 2; manually placing the side plate 391 on the side plate pressing structure 30, and pushing the side plate pressing pliers 39 to press the side plate 391, so that the front and rear positions of the battery cell 2 are fixed; then manually placing the plate pole layering 24 on the battery core 2, and pressing the plate pole layering with a pole layering pressing clamp 26; the battery cell 2 is fixed up and down, and then the battery cell 2 can be welded and assembled.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (6)

1. The utility model provides a electricity core welding jig which characterized in that includes:

a panel;

a frame to which the panel is fixed;

the side plate pressing structure is arranged below the frame;

and the adjusting structure is arranged below the frame and on the panel in the vertical direction of the side plate pressing structure and is used for adjusting the fixing positions of the battery cores with different lengths.

2. The cell welding jig of claim 1, wherein the faceplate is disposed at a bottom of the cell welding jig.

3. The cell welding jig of claim 1, wherein the frame further comprises:

the front door frame is fixed on one side of the panel, and the adjusting structure is fixed on the lower part of the front door frame;

the rear door frame is fixed on the other side of the panel, and the side plate pressing structure is fixed on the lower part of the rear door frame;

a lacing wire bolt is respectively arranged below the front door frame and the rear door frame;

the terminal post pressing strip penetrates into a waist-shaped hole in the terminal post pressing strip through the lacing bolt, and the terminal post pressing strip moves on the lacing bolt along the preset axis direction of the battery cell;

and the polar post pressing strip pressing clamp is fixed below and above the front door frame and the rear door frame.

4. The cell core welding jig of claim 1, wherein the side plate compression structure is disposed at a left side of the cell, a front side of the cell, and a rear side of the cell.

5. The cell welding jig of claim 4, wherein the side plate pressing structure further comprises:

the side plate fixing plate is fixed on the panel;

the side plate slide rails are fixed on the side plate fixing plate;

the side plate sliding block is movably connected with the side plate sliding rail;

the side plate pressing clamp base is arranged between the side plate sliding rails and fixed on the side plate fixing plate;

the side plate pressing clamp is fixed on the side plate pressing clamp base;

the side plate bracket is fixed on one side of the side plate bracket on the side plate sliding block;

lateral plate crosspieces; the lateral plate crosspiece is fixed on the other side of the lateral plate bracket; one end of the lateral plate crosspiece is fixed with a lateral plate connecting block; one end of a pressing rod of the side plate pressing clamp is clamped into the clamping groove of the side plate connecting block;

and the side plate is fixed on the other side of the lateral plate crosspiece.

6. The cell welding jig of claim 1, wherein the adjustment structure further comprises:

the adjusting fixing plate is fixed on the panel;

the first adjusting slide rails are fixed on the adjusting fixing plate;

the first adjusting slide block is movably connected with the first adjusting slide rail;

the adjusting pressure clamp base is fixed on the adjusting fixing plate between the first adjusting slide rails;

the adjusting pressing clamp is fixed on the adjusting pressing clamp base;

the first adjusting bracket is fixed on one side of the first adjusting sliding block;

adjusting the crosspiece; fixing the adjusting crosspiece on the other side of the first adjusting bracket; one end of the adjusting crosspiece is fixed with an adjusting connecting block; one end of a pressing rod of the adjusting pressing clamp is clamped into the clamping groove of the adjusting connecting block;

the adjusting side plate is fixed on the other side of the adjusting crosspiece;

the adjusting fixing block is fixed between the two adjusting pressing pliers on the adjusting fixing plate;

the adjusting vertical plate is fixed above one side of the adjusting fixing block; a bearing is arranged on the adjusting vertical plate;

the battery cell compression screw penetrates into the bearing and penetrates into one end of the battery cell compression screw;

the second adjusting slide rail is fixed on the adjusting fixing block;

the second adjusting slide block is movably connected with the second adjusting slide rail;

the second adjusting bracket is fixed on one side of the second adjusting bracket on the second adjusting slide block;

the adjusting compression block is fixed on the other side of the second adjusting bracket; a gland nut on the cell gland screw is fixed on the adjusting gland block;

the battery cell compression screw rotates to push the second adjusting bracket forwards to adjust the fixing positions of the battery cells with different lengths.

Images