CN217062248U - Electricity core ization becomes anchor clamps - Google Patents

Abstract

The utility model discloses an electric core formation clamp, which relates to the field of battery electric core formation devices, and comprises an electric core clamp supporting plate, wherein the electric core clamp supporting plate is provided with a plurality of blocks, and the plurality of electric core clamp supporting plates are connected through a supporting frame, the supporting frame is respectively provided with a longitudinal electric core positioning mechanism and a transverse electric core positioning mechanism, the longitudinal electric core positioning mechanism and the transverse electric core positioning mechanism are used for positioning an electric core in a help clamp, the electric core is placed on the electric core clamp supporting plate, a clamp cover plate is arranged right above the electric core clamp supporting plate, a cushion pad is arranged below the clamp cover plate, and the longitudinal electric core positioning mechanism and the transverse electric core positioning mechanism can help the placed electric core to be positioned, thereby not only removing the operation steps of workers, but also improving the formation efficiency of the electric core; the utility model discloses well electrode slice charge structure can be when electric core is pushed down, nimble reciprocating, prevents that the electrode slice of electric core from being pressed the deformation.

Description

Electricity core ization becomes anchor clamps

Technical Field

The utility model relates to a battery electricity core becomes device field, concretely relates to electricity core becomes anchor clamps.

Background

The formation of the lithium battery is called activation, and after the battery is manufactured, the internal positive and negative electrode substances are activated in a certain charging and discharging mode, so that the comprehensive performance of the battery is improved. The method aims to form a passivation thin layer covering the surface of a carbon electrode, namely a solid electrolyte interface film or SEI film, on a phase interface of the carbon cathode and electrolyte in the first charging process of the battery, aiming at the formation process of a battery cell, the battery cell needs to be placed in a formation clamp according to a correct placement position, and simultaneously, a pole piece of the battery cell is aligned to a charging device and put down.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electricity core ization becomes anchor clamps to solve the above-mentioned defect that leads to among the prior art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an electricity core ization becomes anchor clamps, includes electric core anchor clamps layer board, electric core anchor clamps layer board is equipped with the polylith and connect through the support frame between the polylith electric core anchor clamps layer board, be equipped with vertical electric core positioning mechanism and horizontal electric core positioning mechanism on the support frame respectively, vertical electric core positioning mechanism and horizontal electric core positioning mechanism are used for helping the electric core in the anchor clamps to fix a position, electric core is placed on electric core anchor clamps layer board, be equipped with the anchor clamps apron directly over the electric core anchor clamps layer board, the below of anchor clamps apron is equipped with the blotter.

Preferably, the side surface of the battery cell clamp supporting plate is provided with a limiting rib.

Preferably, a pressing boss is arranged at a position, opposite to the support frame, of the lower surface of the clamp cover plate.

Preferably, the longitudinal cell positioning mechanism comprises a first cylinder, a second cylinder, a longitudinal sliding rail, a first positioning block and a first pushing block, the first cylinder and the second cylinder are both installed inside a downward pressing boss, the longitudinal sliding rail is fixed inside the support frame, the first positioning block is slidably installed on the longitudinal sliding rail, the first pushing block is respectively installed on output shafts of the first cylinder and the second cylinder, and a first pressure switch is arranged on a working surface of the first positioning block.

Preferably, the transverse battery cell positioning mechanism comprises a third cylinder, a fourth cylinder, a transverse sliding rail, a second positioning block and a second pushing block, the third cylinder and the fourth cylinder are all installed inside a downward pressing boss, the transverse sliding rail is fixed in the support frame, the second positioning block is slidably installed on the transverse sliding rail, the second pushing block is respectively installed on output shafts of the third cylinder and the fourth cylinder, and a second pressure switch is arranged on a working surface of the second positioning block.

Preferably, the electrode plate charging structure comprises a copper plate, a spring and a copper sheet, the bottom of the copper plate is fixed on the electric core supporting plate, one side of the copper plate, which is close to the electric core, is provided with a spring hole, the spring is installed in the spring hole, and the copper sheet is installed at the top end of the spring.

Preferably, the sectional area of the buffer cushion is smaller than the upper surface area of the battery core, and the buffer cushion is made of an insulating rubber material.

Compared with the prior art, the invention has the beneficial effects that:

1. the vertical cell positioning mechanism and the horizontal cell positioning mechanism arranged in the utility model can help the placed cell to be positioned, thereby not only removing the operation steps of workers, but also improving the formation efficiency of the cell;

2. the utility model discloses well electrode slice charge structure can be when electric core is pushed down, nimble reciprocating, prevents that the electrode slice of electric core from being pressed the deformation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of a cover plate of the fixture;

fig. 4 is a structural schematic diagram of the electrode plate charging structure.

Wherein: 1-a cell clamp supporting plate; 11-limiting ribs;

2-a longitudinal cell positioning mechanism; 21-a first cylinder; 22-cylinder two; 23-longitudinal sliding rail; 24-positioning a first block; 25-pushing the first block; 26-a pressure switch I;

3-a support frame;

4-a transverse cell positioning mechanism; 41-cylinder three; 42-cylinder four; 43-transverse slide rail; 44-positioning block II; 45-pushing the second block; 46-pressure switch two;

5-electrode slice charging structure; 51-copper plate; 52-a spring; 53-copper sheet; 54-spring hole;

6-electric core; 7-a buffer pad; 8-a clamp cover plate; 81-Press the boss down.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

Referring to fig. 1 to 4, the present invention provides a technical solution: including electric core anchor clamps layer board 1, electric core anchor clamps layer board 1 is equipped with the polylith and connects through support frame 3 between the polylith electric core anchor clamps layer board 1, be equipped with vertical electric core positioning mechanism 2 and horizontal electric core positioning mechanism 4 on the support frame 3 respectively, vertical electric core positioning mechanism 2 and horizontal electric core positioning mechanism 4 are used for helping electric core 6 in the anchor clamps to fix a position, electric core 6 is placed on electric core anchor clamps layer board 1, be equipped with anchor clamps apron 8 directly over electric core anchor clamps layer board 1, the below of anchor clamps apron 8 is equipped with blotter 7.

In this embodiment, the side of the cell fixture support plate 1 is provided with a limiting rib 11, so that the placed cell 6 is prevented from being accidentally separated from the cell fixture support plate 1.

In this embodiment, the lower surface of the clamp cover plate 8 is provided with a pressing boss 81 at a position opposite to the support frame 3, so that the clamp cover plate can be matched with the support frame 3 and can also be pressed downwards to limit the clamp cover plate 8.

In this embodiment, the longitudinal cell positioning mechanism 2 includes a first cylinder 21, a second cylinder 22, a longitudinal slide rail 23, a first positioning block 24, and a first pushing block 25, the first cylinder 21 and the second cylinder 22 are both installed inside a pressing boss 81, the longitudinal slide rail 23 is fixed inside the support frame 3, the first positioning block 24 is slidably installed on the longitudinal slide rail 23, the first pushing block 25 is respectively installed on output shafts of the first cylinder 21 and the second cylinder 22, a first pressure switch 26 is arranged on a working surface of the first positioning block 24, the first positioning block 24 and the first pushing block 25 are electrically connected after being in contact, when the first cylinder 21 and the second cylinder 22 are pressed down along with the clamp cover plate 8, the first pushing block 25 is electrically connected with the first positioning block 24 after being in contact with the first positioning block 24, the first cylinder 21 and the second cylinder 22 are started, the first positioning block 24 is pushed forward along the longitudinal slide rail 23, and after the first pressure switch 26 is pressed onto the cell 6, and controlling the first air cylinder 21 and the second air cylinder 22 to stop working, so that the first positioning block 24 is not pushed any more, and the battery core 6 is moved to the position in the longitudinal direction.

In this embodiment, the transverse cell positioning mechanism 4 includes a third cylinder 41, a fourth cylinder 42, a transverse slide rail 43, a second positioning block 44, and a second pushing block 45, the third cylinder 41 and the fourth cylinder 42 are both installed inside a downward pressing boss 81, the transverse slide rail 43 is fixed inside the support frame 3, the second positioning block 44 is slidably installed on the transverse slide rail 43, the second pushing block 45 is respectively installed on output shafts of the third cylinder 41 and the fourth cylinder 42, a second pressure switch 46 is arranged on a working surface of the second positioning block 44, the second positioning block 44 and the second pushing block 45 are electrically connected after being contacted, when the third cylinder 41 and the fourth cylinder 42 are pressed down along with the clamp cover plate 8, the second pushing block 45 is electrically connected with the second positioning block 44 after being contacted with the second positioning block 44, the third cylinder 41 and the fourth cylinder 42 are started, the second positioning block 44 is pushed forward along the transverse slide rail 43, and after the second pressure switch 46 is pressed onto the cell 6, and controlling the third cylinder 41 and the fourth cylinder 42 to stop working, so that the positioning block 44 is not pushed any more, and the battery cell 6 is moved in place in the transverse direction.

In this embodiment, the electrode plate charging structure 5 includes a copper plate 51, a spring 52 and a copper sheet 53, the bottom of the copper plate 51 is fixed on the cell fixture supporting plate 1, a spring hole 54 is formed in one side of the copper plate 51 close to the cell 6, the spring 52 is installed in the spring hole 54, the copper sheet 53 is installed at the top end of the spring 52, the electrically conductive copper plate 51 and the copper sheet 53 are arranged to charge the cell 6, and the spring 52 is arranged below the copper sheet 53 to prevent the electrode plate 41 from deforming due to pressing down.

In this embodiment, the sectional area of the buffer pad 7 is smaller than the upper surface area of the battery cell 6, the buffer pad is made of an insulating rubber material, and the buffer pad 7 with a smaller area enables the battery cell 6 not to be completely covered, so that the heat dissipation of the battery cell 6 is facilitated.

The working principle is as follows: in use, a worker firstly places the battery cell 6 at the approximate position of the battery cell clamp supporting plate 1, then the first positioning block 24 and the second positioning block 44 are pushed back to the designated positions of the longitudinal slide rail 23 and the transverse slide rail 43, the first positioning block 24 and the first pushing block 25 are electrically communicated after being contacted, the second positioning block 44 and the second pushing block 45 are electrically communicated after being contacted, when the first air cylinder 21 and the second air cylinder 22 are pressed down along with the clamp cover plate 8, after the first pushing block 25 is contacted and electrified with the first positioning block 24, the first air cylinder 21 and the second air cylinder 22 are started, the first positioning block 24 is pushed forward along the longitudinal slide rail 23, after the first pressure switch 26 is pressed to the battery cell 6, the first air cylinder 21 and the second air cylinder 22 are controlled to stop working, the first positioning block 24 is not pushed any more, the battery cell 6 is moved to the position in the longitudinal direction, when the third air cylinder 41 and the fourth air cylinder 42 are pressed down along with the clamp cover plate 8, after the pushing block II 45 is in contact with the positioning block II 44 and powered on, the air cylinder III 41 and the air cylinder IV 42 are started, the positioning block II 44 is pushed forwards along the transverse sliding rail 43, after the pressure switch II 46 is extruded to the battery cell 6, the air cylinder III 41 and the air cylinder IV 42 are controlled to stop working, the positioning block II 44 is not pushed any more, the battery cell 6 is moved in place in the transverse direction, pole pieces of the battery cell are located on the copper plate 51 and the copper plate 53, and then formation of the battery cell 6 is started.

Based on the above, the longitudinal cell positioning mechanism and the transverse cell positioning mechanism provided in the utility model can help the placed cell to be positioned, thereby not only eliminating the operation steps of workers, but also improving the formation efficiency of the cell; the utility model discloses well electrode slice charge structure can be when electric core is pushed down, nimble reciprocating, prevents that the electrode slice of electric core from being pressed the deformation.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.

Claims (7)

1. The utility model provides an electricity ization becomes anchor clamps which characterized in that: including electric core anchor clamps layer board (1), electric core anchor clamps layer board (1) is equipped with the polylith and connect through support frame (3) between polylith electric core anchor clamps layer board (1), be equipped with vertical electric core positioning mechanism (2) and horizontal electric core positioning mechanism (4) on support frame (3) respectively, electric core (6) that vertical electric core positioning mechanism (2) and horizontal electric core positioning mechanism (4) are used for in the help anchor clamps are fixed a position, still be equipped with electrode slice charge structure (5) on electric core anchor clamps layer board (1), place on electric core anchor clamps layer board (1) electric core (6), be equipped with anchor clamps apron (8) directly over electric core anchor clamps layer board (1), the below of anchor clamps apron (8) is equipped with blotter (7).

2. The electrical core formation clamp of claim 1, wherein: and the side surface of the cell clamp supporting plate (1) is provided with a limiting rib (11).

3. The electrical core formation clamp of claim 1, wherein: and a pressing boss (81) is arranged at the position, right opposite to the support frame (3), of the lower surface of the clamp cover plate (8).

4. The electrical cellization forming clamp of claim 3, characterized in that: vertical electric core positioning mechanism (2) is including cylinder (21), cylinder two (22), vertical slide rail (23), locating piece (24) and promote piece (25), including boss (81) are all installed down in cylinder (21) and cylinder two (22), vertical slide rail (23) are fixed in support frame (3), locating piece (24) slidable mounting is on vertical slide rail (23), promote piece (25) and install respectively on the output shaft of cylinder (21) and cylinder two (22), be equipped with pressure switch (26) on the working face of locating piece (24).

5. The electrical cellization forming clamp of claim 3, characterized in that: horizontal electric core positioning mechanism (4) are including cylinder three (41), cylinder four (42), horizontal slide rail (43), locating piece two (44) and promote piece two (45), including boss (81) are all installed down in cylinder three (41) and cylinder four (42), horizontal slide rail (43) are fixed in support frame (3), locating piece two (44) slidable mounting is on horizontal slide rail (43), promote piece two (45) and install respectively on the output shaft of cylinder three (41) and cylinder four (42), be equipped with pressure switch two (46) on the working face of locating piece two (44).

6. The electrical cellization forming fixture of claim 1, characterized in that: electrode slice charging structure (5) include copper (51), spring (52) and copper sheet (53), the bottom of copper (51) is fixed on electric core anchor clamps layer board (1), one side that copper (51) are close to electric core (6) is equipped with spring hole (54), install in spring hole (54) spring (52), copper sheet (53) are installed on the top of spring (52).

7. The electrical core formation clamp of claim 1, wherein: the sectional area of the buffer pad (7) is smaller than the upper surface area of the battery cell (6), and the buffer pad is made of an insulating rubber material.

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