CN210092159U

CN210092159U - Butterfly welding positioning tray compatible with different-size battery cores

Info

Publication number: CN210092159U
Application number: CN201920784966.7U
Authority: CN
Inventors: 温军
Original assignee: Gotion High Tech Co Ltd
Current assignee: Gotion High Tech Co Ltd
Priority date: 2019-05-29
Filing date: 2019-05-29
Publication date: 2020-02-18
Anticipated expiration: 2029-05-29

Abstract

The utility model provides a butterfly welding positioning tray compatible with electric cores with different sizes, which comprises a fixed plate and two electric core positioning components; the battery cell positioning assembly comprises a positioning plate, a supporting plate, an X-axis blocking piece, a Y-axis blocking piece, a first driving assembly, a second driving assembly, a third driving assembly and a fourth driving assembly, the positioning plate is slidably mounted on the fixing plate and driven by the first driving assembly to move on the fixing plate along the X-axis direction, the supporting plate is driven by the second driving assembly to move on the positioning plate along the Y-axis direction, the fixed blocking piece arranged along the X-axis direction is arranged on one side of the top surface of the supporting plate in the Y-axis direction, and the Y-axis blocking piece is driven by the third driving assembly to move on the supporting plate along the Y-axis direction; the X-axis blocking piece is driven by the fourth driving assembly to move in the X-axis direction. The utility model discloses can be used for the location of not unidimensional electric core, reduce mechanism change design and manufacturing cost and the time that reduces the mechanism part of changing brought because of the change of electric core size.

Description

Butterfly welding positioning tray compatible with different-size battery cores

Technical Field

The utility model relates to a lithium cell technical field especially relates to a butterfly welding positioning tray that can compatible not unidimensional electricity core

Background

Along with the national requirement for improving the energy density of the lithium battery, lithium battery manufacturers begin to manufacture different battery cores to improve the energy density of the single battery, the size of the battery is changed frequently, however, most of the existing butterfly welding positioning trays are only used for the battery cores with a fixed size, and each size of battery core is provided with a corresponding tray for use, so that the production cost is improved, the production period is prolonged, and the positioning trays need to be replaced when the battery cores with different sizes are processed, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Note that, in the present invention, the X-axis direction, the Y-axis direction, and the Z-axis direction are orthogonal to each other.

Based on the technical problem that exists among the background art, the utility model provides a butterfly welding positioning tray of compatible not unidimensional electricity core.

The utility model provides a butterfly welding positioning tray compatible with electric cores with different sizes, which comprises a fixed plate and two electric core positioning components;

the fixing plate is horizontally arranged, and the two cell positioning assemblies are oppositely arranged on the fixing plate;

the battery cell positioning assembly comprises a positioning plate, a supporting plate, an X-axis blocking piece, a Y-axis blocking piece, a first driving assembly, a second driving assembly, a third driving assembly and a fourth driving assembly, wherein the positioning plate is slidably mounted on the fixed plate and driven by the first driving assembly to move on the fixed plate along the X-axis direction, the supporting plate is slidably mounted on the positioning plate and driven by the second driving assembly to move on the positioning plate along the Y-axis direction, a fixed blocking piece arranged along the X-axis direction is arranged on one side of the top surface of the supporting plate in the Y-axis direction, the Y-axis blocking piece is arranged opposite to the fixed blocking piece and slidably mounted on the supporting plate, and the Y-axis blocking piece is driven by the third driving assembly to move on; the X-axis blocking piece is arranged along the Y-axis direction and is installed on the supporting plate in a sliding mode, and the X-axis blocking piece is driven by the fourth driving assembly to move in the X-axis direction.

Preferably, the first driving assembly comprises a first adjusting knob and a first guide rail, the first guide rail is arranged and fixed on the fixing plate along the X-axis direction, the bottom end of the positioning plate is slidably mounted on the first guide rail, and the first adjusting knob is arranged on the positioning plate and drives the positioning plate to move on the first guide rail along the X-axis direction by rotating the first adjusting knob.

Preferably, the second drive assembly comprises a second adjusting knob and a second guide rail, the second guide rail is arranged along the Y-axis direction and fixed at the top end of the positioning plate, the bottom end of the supporting plate is slidably mounted on the second guide rail, and the second adjusting knob is arranged on the positioning plate and drives the supporting plate to move on the second guide rail along the Y-axis direction by rotating the second adjusting knob.

Preferably, the third driving assembly comprises a first bolt, the support plate is provided with a first bolt groove arranged along the Y-axis direction, the first bolt is arranged in the first bolt groove and rotatably mounted on the support plate, and the Y-axis blocking piece is in threaded connection with the first bolt.

Preferably, the fourth driving assembly comprises a second bolt, a second bolt groove arranged along the X-axis direction is formed in the supporting plate, the second bolt is arranged in the second bolt groove and rotatably mounted on the supporting plate, and the X-axis blocking piece is in threaded connection with the second bolt.

Preferably, the battery cell positioning assembly further comprises a connecting piece adjusting piece, the connecting piece adjusting piece comprises a Z-axis guide block, an X-axis guide block and a Y-axis guide block, third bolt grooves are formed in two ends of the Y-axis direction of the Z-axis guide block, third bolts which are connected with the supporting plate and can move in the third spiral grooves along the Z-axis direction are arranged in the third bolt grooves, first sliding grooves which are arranged along the Y-axis direction are formed in the Z-axis guide block, the Y-axis guide block is in sliding connection with the first sliding grooves and can move in the first sliding grooves along the Y-axis direction, second sliding grooves which are arranged along the X-axis direction are formed in the Y-axis guide block, the X-axis guide block is in sliding connection with the second sliding grooves and can move in the second sliding grooves along the X-axis direction, and L-shaped positioning grooves which are used for positioning the connecting piece.

The utility model provides a butterfly welding positioning tray of compatible not unidimensional electric core, electric core locating component passes through the locating plate, the layer board, first drive assembly, the second drive assembly, the third drive assembly, mutually supporting of fourth drive assembly and connection piece regulating part realizes electric core, the location of connection piece, can be used for the location of not unidimensional electric core, reduce the time of mechanism change design and manufacturing cost and reduction change mechanism part that brings because of electric core size's change, improve the compatibility of production efficiency and battery model.

Drawings

Fig. 1 is a schematic structural view of a butterfly welding positioning tray compatible with battery cells of different sizes according to the present invention;

fig. 2 is a schematic structural view of a cell positioning assembly in a butterfly welding positioning tray compatible with cells of different sizes according to the present invention;

fig. 3 is a side view of a cell positioning assembly in a butterfly welding positioning tray compatible with cells of different sizes according to the present invention;

fig. 4 is a schematic structural view of a Z-axis guide block in a butterfly welding positioning tray compatible with battery cells of different sizes according to the present invention;

fig. 5 is a schematic structural view of an X-axis guide block in a butterfly welding positioning tray compatible with battery cells of different sizes according to the present invention;

fig. 6 is a schematic structural view of a Y-axis guide block in a butterfly welding positioning tray compatible with different sizes of battery cells provided by the present invention;

fig. 7 is a schematic diagram of the butterfly welding positioning tray compatible with different sizes of battery cells according to the present invention.

Detailed Description

Referring to fig. 1 to 7, the utility model provides a butterfly welding positioning tray compatible with electric cores of different sizes, which comprises a fixing plate 1 and two electric core positioning components; wherein:

the fixed plate 1 is horizontally arranged, and the two cell positioning assemblies are oppositely arranged on the fixed plate 1. The battery cell positioning assembly comprises a positioning plate 2, a supporting plate 3, an X-axis baffle 4, a Y-axis baffle 5, a first driving assembly, a second driving assembly, a third driving assembly and a fourth driving assembly.

The positioning plate 2 is slidably mounted on the fixing plate 1 and is driven by a first driving assembly to move on the fixing plate 1 along the X-axis direction. Specifically, first drive assembly includes first adjust knob 6 and first guide rail, and first guide rail is arranged and is fixed on fixed plate 1 along X axle direction, and 2 bottom slidable mounting on first guide rail of locating plate, and first adjust knob 6 sets up on locating plate 2 and drives locating plate 2 and remove along X axle direction on first guide rail through rotatory first adjust knob 6.

The supporting plate 3 is slidably mounted on the positioning plate 2 and driven by the second driving assembly to move on the positioning plate 2 along the Y-axis direction, and a fixed blocking piece 20 arranged along the X-axis direction is arranged on one side of the top surface of the supporting plate 3 in the Y-axis direction. Specifically, the second drive assembly includes second adjust knob 7 and second guide rail, and the second guide rail is arranged and is fixed on 2 tops of locating plate along Y axle direction, and layer board 3 bottom slidable mounting is on the second guide rail, and second adjust knob 7 sets up on locating plate 2 and drives layer board 3 and remove along Y axle direction on the second guide rail through rotatory second adjust knob 7.

The Y-axis blocking piece 5 and the fixed blocking piece are oppositely arranged and are slidably mounted on the supporting plate 3, and the Y-axis blocking piece 5 is driven by the third driving assembly to move on the supporting plate 3 along the Y-axis direction. Specifically, the third driving assembly comprises a first bolt 8, a first bolt groove 9 arranged along the Y-axis direction is formed in the supporting plate 3, the first bolt 8 is arranged in the first bolt groove 9 and rotatably mounted on the supporting plate 3, and the Y-axis baffle 5 is in threaded connection with the first bolt 8.

The X-axis blocking piece 4 is arranged along the Y-axis direction and is installed on the supporting plate 3 in a sliding mode, and the X-axis blocking piece 4 is driven by the fourth driving assembly to move in the X-axis direction. Specifically, the fourth driving assembly includes a second bolt 10, a second bolt groove 11 arranged along the X-axis direction is provided on the supporting plate 3, the second bolt 10 is provided in the second bolt groove 11 and rotatably mounted on the supporting plate 3, and the X-axis blocking piece 4 is in threaded connection with the second bolt 10.

In this embodiment, the cell positioning assembly further includes a connecting sheet adjusting part, the connecting sheet adjusting part includes a Z-axis guide block 12, an X-axis guide block 13, and a Y-axis guide block 14, both ends of the Z-axis guide block 12 in the Y-axis direction are provided with third bolt grooves 15, third bolts 16 connected to the support plate 3 and capable of moving in the third spiral grooves along the Z-axis direction are provided in the third bolt grooves 15, the Z-axis guide block 12 is provided with first slide grooves 17 arranged in the Y-axis direction, the Y-axis guide block 14 is slidably connected to the first slide grooves 17 and capable of moving in the first slide grooves 17 along the Y-axis direction, the Y-axis guide block 14 is provided with second slide grooves 18 arranged in the X-axis direction, the X-axis guide block 13 is slidably connected to the second slide grooves 18 and capable of moving in the second slide grooves 18 along the X-axis direction, and the X-axis guide block 13 is provided with L-shaped positioning grooves 19 for.

The utility model discloses the theory of operation as follows: firstly, respectively placing two battery cores 21 on a support plate 3 of two battery core positioning assemblies, confirming the positions of the battery cores 21 by taking a fixed baffle 20 on the support plate 3 as a reference, confirming the positions of the battery cores 21 by taking a Z-axis guide block 12 as a reference on one side of the two battery cores 21 with a lug as the reference, adjusting third bolts 16 on two sides of the Z-axis guide block 12 according to the required welding height of the battery core lug so as to adjust the height of the Z-axis guide block 12 in the Z-axis direction, then adjusting the position of a Y-axis guide block 14 in a first sliding groove 17 and adjusting the position of an X-axis guide block 13 in a second sliding groove 18, and after the positions are adjusted, placing a connecting sheet 22 in an L-shaped positioning groove 19 of the two X-axis guide blocks 14; then, adjusting the first bolt 8 to enable the Y-axis blocking piece 5 to move close to the battery cell 21 and abut against the battery cell 21, so that the battery cell 21 is positioned in the Y-axis direction; then adjusting the second bolt 10 to enable the X-axis baffle 4 to move close to the battery cell 21 and abut against the battery cell 21, so that the battery cell 21 is positioned in the X-axis direction; and finally, respectively adjusting a first adjusting knob 6 and a second adjusting knob 7 of the two battery cell positioning assemblies, so as to adjust the positions of the positioning plate 2 and the supporting plate 3 to enable the distance between the two battery cells 21 to reach the expected distance.

The utility model discloses a location that electric core locating component passes through mutually supporting realization electricity core 21, connection piece 22 of locating plate 2, layer board 3, first drive assembly, second drive assembly, third drive assembly, fourth drive assembly and connection piece regulating part can be used for the location of not unidimensional electric core 21, reduce mechanism change design and manufacturing cost that bring because of the change of electric core 21 size and reduce the time of change mechanism part, improve the compatibility of production efficiency and battery model.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. A butterfly welding positioning tray compatible with battery cores of different sizes is characterized by comprising a fixing plate (1) and two battery core positioning components;

the fixing plate (1) is horizontally arranged, and the two cell positioning assemblies are oppositely arranged on the fixing plate (1);

the battery cell positioning assembly comprises a positioning plate (2), a supporting plate (3), an X-axis blocking piece (4), a Y-axis blocking piece (5), a first driving assembly, a second driving assembly, a third driving assembly and a fourth driving assembly, wherein the positioning plate (2) is slidably mounted on a fixing plate (1) and driven by the first driving assembly to move on the fixing plate (1) along the X-axis direction, the supporting plate (3) is slidably mounted on the positioning plate (2) and driven by the second driving assembly to move on the positioning plate (2) along the Y-axis direction, a fixed blocking piece (20) arranged along the X-axis direction is arranged on one side of the top surface of the supporting plate (3) in the Y-axis direction, the Y-axis blocking piece (5) is arranged opposite to the fixed blocking piece and slidably mounted on the supporting plate (3), and the Y-axis blocking piece (5) is driven by the third driving assembly to move on the supporting plate; the X-axis blocking piece (4) is arranged along the Y-axis direction and is slidably mounted on the supporting plate (3), and the X-axis blocking piece (4) is driven by the fourth driving component to move in the X-axis direction.

2. The butterfly welding positioning tray compatible with different-size battery cores according to claim 1, wherein the first driving assembly comprises a first adjusting knob (6) and a first guide rail, the first guide rail is arranged and fixed on the fixing plate (1) along the X-axis direction, the bottom end of the positioning plate (2) is slidably mounted on the first guide rail, the first adjusting knob (6) is arranged on the positioning plate (2) and drives the positioning plate (2) to move on the first guide rail along the X-axis direction by rotating the first adjusting knob (6).

3. The butterfly welding positioning tray compatible with different-size battery cores according to claim 1, wherein the second driving assembly comprises a second adjusting knob (7) and a second guide rail, the second guide rail is arranged along the Y-axis direction and fixed at the top end of the positioning plate (2), the bottom end of the supporting plate (3) is slidably mounted on the second guide rail, the second adjusting knob (7) is arranged on the positioning plate (2) and drives the supporting plate (3) to move on the second guide rail along the Y-axis direction by rotating the second adjusting knob (7).

4. The butterfly welding positioning tray compatible with different battery cores in different sizes as claimed in any one of claims 1 to 3, wherein the third driving assembly comprises a first bolt (8), a first bolt groove (9) arranged along the Y-axis direction is formed in the support plate (3), the first bolt (8) is arranged in the first bolt groove (9) and rotatably mounted on the support plate (3), and the Y-axis blocking piece (5) is in threaded connection with the first bolt (8).

5. The butterfly welding positioning tray compatible with different battery cores in size according to any one of claims 1 to 3, wherein the fourth driving assembly comprises a second bolt (10), a second bolt groove (11) arranged along the X-axis direction is formed in the support plate (3), the second bolt (10) is arranged in the second bolt groove (11) and rotatably mounted on the support plate (3), and the X-axis blocking piece (4) is in threaded connection with the second bolt (10).

6. The butterfly welding positioning tray compatible with batteries with different sizes according to any one of claims 1 to 3, wherein the battery positioning assembly further comprises a connecting sheet adjusting member, the connecting sheet adjusting member comprises a Z-axis guide block (12), an X-axis guide block (13) and a Y-axis guide block (14), the Z-axis guide block (12) is provided with third bolt grooves (15) at two ends in the Y-axis direction, third bolts (16) connected with the support plate (3) and capable of moving in the third spiral grooves in the Z-axis direction are arranged in the third bolt grooves (15), the Z-axis guide block (12) is provided with first sliding grooves (17) arranged in the Y-axis direction, the Y-axis guide block (14) is slidably connected with the first sliding grooves (17) and capable of moving in the Y-axis direction in the first sliding grooves (17), the Y-axis guide block (14) is provided with second sliding grooves (18) arranged in the X-axis direction, and the X-axis guide block (13) is slidably connected with the second sliding grooves (18) and capable of moving in the second sliding grooves (18) in the X-axis direction And an L-shaped positioning groove (19) for positioning the connecting sheet is arranged on the X-axis guide block (13).