CN220480940U - Clamping mechanism for waste battery cell cutting device - Google Patents

Abstract

The utility model discloses a clamping mechanism for a waste battery cell cutting device, which comprises the following components: two clamps, each clamp comprises a mounting plate and a positioning plate, wherein the mounting plate comprises a first transverse plate used for being fixed on a base body and a first vertical plate vertically fixed on the first transverse plate; the locating plate comprises a second vertical plate and a second transverse plate, wherein the second vertical plate is arranged on the first vertical plate in a sliding mode along the vertical direction, the second transverse plate is perpendicularly fixed at the top end of the second vertical plate, and a locking assembly used for enabling the second vertical plate to be fixed or move relative to the first vertical plate is connected between the second vertical plate and the first vertical plate. According to the utility model, the two sides of the top of the waste battery core can be pressed and fixed, so that the waste battery core always keeps the electrode upwards stably fixed on the milling bed plate.

Description

Clamping mechanism for waste battery cell cutting device

Technical Field

The utility model relates to the technical field of battery cell disassembly equipment, in particular to a clamping mechanism for a waste battery cell cutting device.

Background

In the process of manually sorting the waste battery core-stage sheets, the cover plate and the end side plate of the waste battery are firstly removed, and the material of the cover plate and the end side plate is mostly aluminum. In the process of removing the cover plate and the end side plate of the old battery, the battery is required to be fixed on the milling bed plate, and the battery always keeps the upward direction of the electrode. However, the force for pressing and fixing the battery on the milling bed plate in the partial cutting device is unstable and uneven, so that the position of the waste battery is easily deviated, and the cutting or milling error is caused. Therefore, a clamping and positioning mechanism is needed that can stably fix the battery to the milling machine plate in a direction that always keeps the electrode upward.

Disclosure of Invention

In order to solve the technical problems in the background art, the utility model provides a clamping mechanism for a waste battery cell cutting device.

The utility model provides a clamping mechanism for a waste battery cell cutting device, which comprises the following components: two clamps, each clamp comprises a mounting plate and a positioning plate, wherein the mounting plate comprises a first transverse plate used for being fixed on a base body and a first vertical plate vertically fixed on the first transverse plate; the locating plate comprises a second vertical plate and a second transverse plate, wherein the second vertical plate is arranged on the first vertical plate in a sliding mode along the vertical direction, the second transverse plate is perpendicularly fixed at the top end of the second vertical plate, and a locking assembly used for enabling the second vertical plate to be fixed or move relative to the first vertical plate is connected between the second vertical plate and the first vertical plate.

Preferably, the first vertical plate is provided with a sliding groove with an open top, the bottom end of the second vertical plate stretches into the sliding groove, and the second vertical plate is in sliding contact with the sliding groove.

Preferably, the locking assembly comprises a first bolt and a first nut; the first vertical plate is provided with a first strip-shaped through hole extending along the vertical direction, the first strip-shaped through hole vertically penetrates through the side surfaces of the two opposite sides of the first vertical plate, and the first strip-shaped through hole is communicated with the sliding groove; the second riser has seted up first through-hole with first bar through-hole corresponding department, and first bolt passes first bar through-hole and first through-hole and with first nut threaded connection.

Preferably, when the penetrating direction of the first bar-shaped through hole is parallel to the extending direction of the second transverse plate, one end of the first bar-shaped hole, which is close to the free end of the second transverse plate, is a countersunk hole, and the first bolt penetrates through the first bar-shaped through hole and the first through hole through the countersunk hole and is in threaded connection with the first nut.

Preferably, the locking assemblies are in two sets.

Preferably, the locking assembly comprises a first screw, a second screw and a second nut;

the top end of the second vertical plate is provided with a second through hole extending along the vertical direction, and the inner wall of the second through hole is provided with a second internal thread matched with the external thread of the first screw rod;

the bottom end of the first screw rod penetrates through the second through hole and is rotationally connected with the first vertical plate, and the top end of the first screw rod extends out of the second through hole; the first screw is in threaded connection with the inner wall of the second through hole;

the first screw rod is coaxially provided with a third through hole, the bottom end of the second screw rod penetrates through the third through hole and is fixedly connected with the first vertical plate, the top end of the second screw rod extends out of the third through hole and is in threaded connection with the second nut, and the bottom end of the second nut is propped against the top end of the first screw rod.

Preferably, the first cross plate is provided with a second bar-shaped through hole extending in a direction from the first cross plate to the second cross plate.

The utility model provides a clamping mechanism for a waste battery cell cutting device, wherein each clamp comprises a mounting plate and a positioning plate, and the mounting plate comprises a first transverse plate and a first vertical plate, wherein the first transverse plate is used for being fixed on a base body, and the first vertical plate is vertically fixed on the first transverse plate; the locating plate comprises a second vertical plate and a second transverse plate, wherein the second vertical plate is arranged on the first vertical plate in a sliding mode along the vertical direction, the second transverse plate is perpendicularly fixed at the top end of the second vertical plate, and a locking assembly used for enabling the second vertical plate to be fixed or move relative to the first vertical plate is connected between the second vertical plate and the first vertical plate. The relative position of the second vertical plate and the first vertical plate is adjusted through adjusting the locking assembly, so that the height of the second transverse plate is adjusted, the two sides of the top of the waste battery cell are pressed and fixed, and the waste battery cell can be stably fixed on the milling machine plate in the upward direction of the electrode.

Drawings

Fig. 1 is a schematic structural diagram of a clamping mechanism for a waste electrical core cutting device according to an embodiment of the present utility model.

Fig. 2 is a schematic structural diagram of a clamp according to an embodiment of the utility model.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

Referring to fig. 1 and 2, a clamping mechanism for a waste electrical core cutting device according to the present utility model includes: two clamps with the same structure, each clamp comprises a mounting plate 1 and a positioning plate 2, the mounting plate 1 comprises a first transverse plate 11 and a first vertical plate 12 which are used for being fixed on a base body, and the first vertical plate 12 is vertically fixed on the first transverse plate 11;

the locating plate 2 comprises a second vertical plate 21 and a second transverse plate 22, the bottom end of the second vertical plate 21 is arranged on the first vertical plate 12 in a sliding mode along the vertical direction, a locking assembly 3 used for enabling the second vertical plate 21 to be fixed or move relative to the first vertical plate 12 is connected between the second vertical plate 21 and the first vertical plate 12, and the second transverse plate 22 is vertically fixed at the top end of the second vertical plate 21.

When the utility model is specifically used, the locking component 3 is regulated to enable the second vertical plate 21 and the first vertical plate 12 to relatively move to a certain height, then the waste battery cell is vertically placed between the two clamps, and then when the second vertical plate 21 is moved to enable the second transverse plate 22 to be pressed on two sides of the top of the waste battery cell, the second vertical plate 21 and the first vertical plate 12 are relatively fixed through the locking component 3, so that the waste battery cell is fixed. Therefore, the utility model can stably fix the waste battery cell on the milling machine board in the upward direction of the electrode all the time through the matching of the two clamps.

In order to enable the bottom end of the second riser 21 to be slidably disposed on the first riser 12 along the vertical direction, in one embodiment, the first riser 12 is provided with a sliding groove with an open top, the bottom end of the second riser 21 extends into the sliding groove, and the second riser 21 is in sliding contact with the sliding groove.

In order to fix or move the second riser 21 relative to the first riser 12, in one embodiment, the locking assembly 3 includes a first bolt 31 and a first nut 32; the first vertical plate 12 is provided with a first strip-shaped through hole 13 extending along the vertical direction, the first strip-shaped through hole 13 vertically penetrates through two opposite side surfaces of the first vertical plate 12, and the first strip-shaped through hole 13 is communicated with the sliding groove;

the second riser 21 is provided with a first through hole corresponding to the first bar-shaped through hole 13, and the first bolt 31 passes through the first bar-shaped through hole 13 and the first through hole and is in threaded connection with the first nut 32.

In a further embodiment, when the penetrating direction of the first bar-shaped through hole 13 is parallel to the extending direction of the second transverse plate 22, one end of the first bar-shaped hole near the free end of the second transverse plate 22 is a countersunk hole, and the first bolt 31 passes through the first bar-shaped through hole 13 and the first through hole through the countersunk hole and is in threaded connection with the first nut 32. By avoiding the contact between the first bolt 31 and the waste battery cell shell, the first vertical plate 12 and the side surface of the waste battery cell shell can be contacted and fixed, so that the stability of fixation is further improved.

It should be understood that the free end of the second cross plate 22 specifically refers to the other end of the second cross plate 22 opposite to the connection end of the second riser 21, and the extending direction of the second cross plate 22 refers to the direction from the connection end of the second cross plate 22 to the free end of the second riser 21.

In order to fix or move the second riser 21 relative to the first riser 12, in another specific embodiment, the locking assembly 3 comprises a first screw, a second screw and a second nut; the top end of the second vertical plate 21 is provided with a second through hole extending along the vertical direction, and the inner wall of the second through hole is provided with a second internal thread matched with the external thread of the first screw rod; the bottom end of the first screw rod passes through the second through hole and is rotationally connected with the first vertical plate 12, and the top end of the first screw rod extends out of the second through hole; the first screw is in threaded connection with the inner wall of the second through hole;

the first screw is coaxially provided with a third through hole, the bottom end of the second screw penetrates through the third through hole and is fixedly connected with the first vertical plate 12, the top end of the second screw extends out of the third through hole and is in threaded connection with the second nut, and the bottom end of the second nut is propped against the top end of the first screw.

In the specific implementation, the second nut is rotated first, so that the second nut is separated from the first screw; then the first screw is rotated, and the rotation movement of the first screw is converted into the linear movement of the second riser 21 due to the limit action of the first riser 12 on the second riser 21, so that the position of the second riser 21 is adjusted; when the position of the second riser 21 is adjusted to a proper position, the second nut is rotated to tightly abut against the first screw rod, the first screw rod is fixed, and when the first screw rod is not rotated any more, the height position of the second riser 21 is fixed.

Of course, in order to further improve the uniformity of the force applied to the cell housing by the second transverse plate 22, and thus further improve the stability of the fixation, in this embodiment, the locking assemblies 3 are two groups.

Specifically, the two sets of retraction assemblies are connected in spaced and uniform relation between the first riser 12 and the second riser 21.

In this embodiment, the first transverse plate 11 is provided with a second strip-shaped through hole extending along the direction from the first transverse plate 11 to the second transverse plate 22, so as to adjust the position relationship between the first transverse plate 11 and the substrate, thereby adjusting the distance between the two clamps, and being applicable to waste electrical cores with different width specifications.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. A fixture for old and useless electric core cutting device, characterized by, include: two clamps, each clamp comprises a mounting plate (1) and a positioning plate (2), and the mounting plate (1) comprises a first transverse plate (11) used for being fixed on a base body and a first vertical plate (12) vertically fixed on the first transverse plate (11); the locating plate (2) comprises a second vertical plate (21) which is arranged on the first vertical plate (12) in a sliding manner along the vertical direction and a second transverse plate (22) which is vertically fixed at the top end of the second vertical plate (21), and a locking assembly (3) which is used for enabling the second vertical plate (21) to be relatively fixed with the first vertical plate (12) is connected between the second vertical plate (21) and the first vertical plate (12).

2. The clamping mechanism for the waste battery cell cutting device according to claim 1, wherein the first vertical plate (12) is provided with a sliding groove with an open top, the bottom end of the second vertical plate (21) extends into the sliding groove, and the second vertical plate (21) is in sliding contact with the sliding groove.

3. Clamping mechanism for a scrap cell cutting device according to claim 2, characterized in that the locking assembly (3) comprises a first bolt (31) and a first nut (32); the first vertical plate (12) is provided with a first strip-shaped through hole (13) extending along the vertical direction, the first strip-shaped through hole (13) vertically penetrates through two opposite side surfaces of the first vertical plate (12), and the first strip-shaped through hole (13) is communicated with the sliding groove; a first through hole is formed in a position, corresponding to the first strip-shaped through hole (13), of the second vertical plate (21), and a first bolt (31) penetrates through the first strip-shaped through hole (13) and the first through hole and is in threaded connection with a first nut (32).

4. A clamping mechanism for a waste and old cell cutting device according to claim 3, wherein when the penetrating direction of the first bar-shaped through hole (13) is parallel to the extending direction of the second transverse plate (22), one end of the first bar-shaped through hole, which is close to the free end of the second transverse plate (22), is a countersunk hole, and the first bolt (31) penetrates through the first bar-shaped through hole (13) and the first through hole from the countersunk hole and is in threaded connection with the first nut (32).

5. A clamping mechanism for a scrap cell cutting apparatus in accordance with claim 3 wherein the locking assemblies (3) are in two sets.

6. Clamping mechanism for a waste and old cell cutting device according to claim 2, characterized in that the locking assembly (3) comprises a first screw, a second screw and a second nut;

the top end of the second vertical plate (21) is provided with a second through hole extending along the vertical direction, and the inner wall of the second through hole is provided with a second internal thread matched with the external thread of the first screw rod;

the bottom end of the first screw rod passes through the second through hole and is rotationally connected with the first vertical plate (12), and the top end of the first screw rod extends out of the second through hole; the first screw is in threaded connection with the inner wall of the second through hole;

the first screw is coaxially provided with a third through hole, the bottom end of the second screw penetrates through the third through hole and is fixedly connected with the first vertical plate (12), the top end of the second screw extends out of the third through hole and is in threaded connection with the second nut, and the bottom end of the second nut is propped against the top end of the first screw.

7. Clamping mechanism for a waste and old cell cutting device according to claim 1, characterized in that the first transverse plate (11) is provided with a second bar-shaped through hole extending in the direction from the first transverse plate (11) to the second transverse plate (22).