CN219113068U - Rolling groove equipment for cylindrical lithium battery production - Google Patents

Abstract

The utility model provides a rolling groove device for producing a cylindrical lithium battery, which comprises: a support table; the battery clamping mechanism is arranged on the supporting table and can move along a preset direction on the supporting table; the rolling groove mechanism is positioned above the supporting table and on the moving path of the battery clamping mechanism, and comprises a rolling groove part and a lifting part for driving the rolling groove part to move up and down in the vertical direction, and the rolling groove part comprises a rolling groove cutter and a rotating part for driving the rolling groove cutter to rotate around a vertical shaft. According to the utility model, by arranging the movable battery clamping mechanism, automatic feeding of the battery is realized, and the rolling cutter is driven by the rotating piece to rotate around the central axis of the battery to roll the battery, so that the grooving quality of the battery is improved.

Description

Rolling groove equipment for cylindrical lithium battery production

Technical Field

The utility model relates to the technical field of lithium batteries, in particular to a rolling groove device for cylindrical lithium battery production.

Background

In battery production, in order to facilitate battery packaging, the battery needs to be subjected to rolling processing. In order to ensure the qualification rate of products, the conventional channeling equipment generally adopts a direct downward stamping mode, but the equipment easily causes the upper insulating sheet in the battery core to float upwards in the battery core channeling process, so that the battery core is scrapped. In addition, most of the channeling equipment on the existing battery production line can only perform channeling operation with fixed depth, and the application range of the equipment is narrow, so that the cost of a single production line is increased; meanwhile, the conventional channeling machine can only perform channeling on a single battery at a time, the feeding speed is low, the channeling efficiency is low, and when a battery main body is clamped, the battery is in a loose state, so that the channeling effect is affected.

Disclosure of Invention

Based on the technical problems in the background technology, the utility model provides a rolling groove device for cylindrical lithium battery production.

The utility model provides a rolling groove device for producing a cylindrical lithium battery, which comprises the following components:

a support table;

the battery clamping mechanism is arranged on the supporting table and can move along a preset direction on the supporting table;

the rolling groove mechanism is positioned above the supporting table and on the moving path of the battery clamping mechanism, and comprises a rolling groove part and a lifting part for driving the rolling groove part to move up and down in the vertical direction, and the rolling groove part comprises a rolling groove cutter and a rotating part for driving the rolling groove cutter to rotate around a vertical shaft.

Preferably, the lifting piece comprises a supporting frame, a moving plate and a driving air cylinder, wherein the supporting frame is arranged on the supporting table, the moving plate is horizontally arranged and connected with the supporting frame in a sliding fit manner, and the driving air cylinder is arranged on the supporting frame and used for driving the moving plate to move up and down in the vertical direction; the fixed axle of vertical arrangement is installed to the movable plate bottom, and fixed axle bottom rotates to be connected with the backup pad, and the backup pad bottom is installed the channeling spare, channeling spare are provided with two channeling knifes, and two channeling knifes are relative arrangement and the distance between two channeling knifes is adjustable, and the rotor is used for driving the backup pad around fixed axle axis rotation.

Preferably, the rotating member comprises a rolling groove motor, a first gear and a second gear, the rolling groove motor is arranged on the supporting plate, the first gear is fixedly sleeved on the fixed shaft and is connected with the moving plate 4 in a rotating fit manner, and the second gear is meshed with the first gear and is fixed on an output shaft of the rolling groove motor.

Preferably, the top end of the supporting plate is provided with an electric brush, an insulating plate is arranged at the position, above the supporting plate, of the fixing shaft, an electrode ring rail is arranged at the bottom of the insulating plate, the top end of the electric brush is embedded into the electrode ring rail, and the rolling groove motor is electrically connected with the electric brush through an electric wire.

Preferably, the bottom of the supporting plate is provided with two supporting plates which are oppositely arranged, the two channeling cutters are respectively positioned on the inner sides of the two supporting plates, the two supporting plates are respectively provided with a first electric push rod, the two first electric push rods are respectively connected with the two channeling cutters, and the first electric push rods are connected with the electric brushes through electric wires.

Preferably, the battery clamping mechanism comprises a movable seat, a movable part and two fixed plates, wherein the movable seat is movably arranged on the supporting table, the movable part is used for driving the movable seat to move back and forth on the supporting table in a preset direction, the two fixed plates are oppositely arranged and are fixed at the top end of the movable seat, and the opposite sides of the two fixed plates are connected with the clamping plates through elastic pieces.

Preferably, a plurality of clamping grooves are formed in one side, opposite to the two clamping plates, of each clamping plate, the clamping grooves on the two clamping plates are arranged in one-to-one correspondence, and the rolling groove pieces are provided with a plurality of rolling groove pieces which are respectively arranged in one-to-one correspondence with the clamping grooves.

Preferably, a plurality of telescopic rods are arranged on opposite sides of the two fixing plates, the telescopic rods are connected with the clamping plates, the elastic pieces are sleeved outside the telescopic rods, and the fixing plates are further provided with second electric push rods connected with the clamping plates.

Preferably, two parallel relatively arranged moving grooves are formed in the top end of the supporting table, screws are connected in the moving grooves in a rotating mode, moving blocks are connected in the moving grooves in a sliding mode and are in threaded fit with the screws, the bottom of each moving seat is connected with the two moving blocks, and the moving pieces are used for driving the two screws to simultaneously rotate in the same speed and the same direction.

Preferably, the moving part comprises a moving motor, the output end of the moving motor is in transmission connection with one screw rod, one end of the two screw rods, far away from the moving motor, is fixedly provided with a driving sprocket, and the two driving sprockets are connected through a driving chain.

According to the channeling equipment for producing the cylindrical lithium battery, provided by the utility model, the movable battery clamping mechanism is arranged to realize automatic feeding of the battery, and the channeling cutter is driven by the rotating piece to rotate around the central axis of the battery to perform channeling on the battery, so that the slotting quality of the battery is improved;

according to the utility model, the battery is clamped by the two clamping plates, and the two screws are driven to synchronously rotate by arranging the mobile motor, the transmission chain wheel and the transmission chain, so that the battery is driven to move, and the automatic feeding of the battery is facilitated;

according to the utility model, the second electric push rod is arranged to drive the clamping plate to clamp the battery main body, so that the battery is clamped stably, the rolling groove effect is improved, and the telescopic rod and the elastic piece are arranged to enable the clamping plate to clamp the battery stably, so that the clamping of the edge end of the clamping plate is prevented from loosening;

according to the utility model, the processing efficiency of the channeling mechanism is improved by arranging the plurality of channeling pieces, the second gear is driven to rotate by the channeling motor, the rotation of the supporting plate is realized, the channeling cutter is driven to be closely attached to the channeling position of the battery by arranging the supporting plate, the first electric push rod and the channeling cutter, and the channeling operation is carried out on the battery by driving the channeling cutter to rotate by the supporting plate, so that the slotting quality of the battery is improved.

Drawings

Fig. 1 is a schematic structural diagram of a rolling groove device for producing a cylindrical lithium battery;

fig. 2 is a schematic structural diagram of a support table in a rolling groove device for producing a cylindrical lithium battery;

fig. 3 is a schematic structural diagram of a battery clamping mechanism in a cylindrical rolling groove device for lithium battery production according to the present utility model;

fig. 4 is a schematic structural diagram of a rolling groove member in a rolling groove device for producing a cylindrical lithium battery;

fig. 5 is a schematic view of a portion of the structure of fig. 4.

Detailed Description

So that the manner in which the above recited objects, features and advantages of the present utility model can be understood in detail, a more particular description of the utility model, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

Referring to fig. 1 to 5, the present utility model provides a rolling groove device for cylindrical lithium battery production, comprising:

a support table 1;

a battery clamping mechanism mounted on the support table 1 and movable in a predetermined direction on the support table 1;

the rolling groove mechanism is positioned above the supporting table 1 and positioned on the moving path of the battery clamping mechanism, and comprises a rolling groove part and a lifting part for driving the rolling groove part to move up and down in the vertical direction, wherein the rolling groove part comprises a rolling groove cutter 2 and a rotating part for driving the rolling groove cutter 2 to rotate around a vertical shaft;

through the description, through setting up mobilizable battery fixture, realize the automatic feeding of battery, drive the channeling sword 2 through the rotation piece and rotate around battery a's axis and carry out channeling processing to battery a, improved battery a's fluting quality.

In the embodiment, the lifting piece comprises a supporting frame 3, a moving plate 4 and a driving air cylinder 5, wherein the supporting frame 3 is arranged on the supporting table 1, the moving plate 4 is horizontally arranged and connected with the supporting frame 3 in a sliding fit manner, and the driving air cylinder 5 is arranged on the supporting frame 3 and is used for driving the moving plate 4 to move up and down in the vertical direction; the fixed axle 6 of vertical arrangement is installed to movable plate 4 bottom, and fixed axle 6 shaft bottom rotates to be connected with backup pad 7, and backup pad 7 bottom is installed the channeling spare is provided with two channeling knifes 2, and two channeling knifes 2 are arranged relatively and the distance between two channeling knifes 2 is adjustable, and the rotor is used for driving backup pad 7 around fixed axle 6 axis rotation.

In a specific embodiment, the rotating piece comprises a rolling groove motor 8, a first gear 9 and a second gear 10, the rolling groove motor 8 is arranged on the supporting plate 7, the first gear 9 is fixedly sleeved on the fixed shaft 6, the fixed shaft 6 is in rotary fit connection with the moving plate 4, the second gear 10 is meshed with the first gear 9, and the second gear 10 is fixed on an output shaft of the rolling groove motor 8; the number of the second gears 10 is two, so that the rotation stability of the supporting plate 7 is ensured;

the top end of the supporting plate 7 is provided with a brush 11, an insulating plate 12 is arranged above the fixed shaft 6 on the supporting plate 7, an electrode ring rail 13 is arranged at the bottom of the insulating plate 12, the top end of the brush 11 is embedded into the electrode ring rail 13, and the rolling groove motor 8 is electrically connected with the brush 11 through an electric wire;

the bottom of the supporting plate 7 is provided with two supporting plates 14 which are oppositely arranged, the two slotting cutters 2 are respectively positioned at the inner sides of the two supporting plates 14, the two supporting plates 14 are provided with first electric push rods 15, the two first electric push rods 15 are respectively connected with the two slotting cutters 2, and the first electric push rods 15 are connected with the electric brushes 11 through electric wires;

the electrode ring rail 13 is communicated with an external power supply through an electrode wire, the rolling groove motor 8 and the first electric push rod 15 are further powered, the rolling groove motor 8 is started, the rolling groove motor 8 drives the first gear 10 to rotate, the first gear 9 is meshed with the second gear 10, the first gear 10 drives the fixed shaft 6 to rotate, the fixed shaft 6 drives the supporting plate 7 to rotate, the supporting plate 7 rotates to drive the electric brush 11 to rotate in the electrode ring rail 13, the supporting plate 7 rotates to drive the rolling groove cutter 2 to rotate, the first electric push rod 15 drives the rolling groove cutter 2 to press a battery, and then the battery a is grooved.

Further, the battery clamping mechanism comprises a movable seat 16, a movable member and two fixing plates 17, the movable seat 16 is movably arranged on the supporting table 1 and used for driving the movable seat 16 to move back and forth on the supporting table 1 in a preset direction, the two fixing plates 17 are oppositely arranged and are fixed at the top end of the movable seat 16, a plurality of telescopic rods 21 are arranged on the opposite sides of the two fixing plates 17, the telescopic rods 21 are connected with the clamping plates 18, the telescopic rods 21 are sleeved on the elastic members 19, and the fixing plates 17 are further provided with second electric push rods 22 connected with the clamping plates 18. A plurality of clamping grooves 20 are formed in the opposite sides of the two clamping plates 18, the clamping grooves 20 on the two clamping plates 18 are arranged in a one-to-one correspondence manner, a plurality of rolling groove pieces are arranged, and the rolling groove pieces are respectively arranged in a one-to-one correspondence manner with the clamping grooves 20;

when in use, the battery a is placed in the clamping groove 20, the second electric push rod 22 is driven, the second electric push rod 22 pushes the clamping plate 18 to clamp the battery a, meanwhile, the elastic piece 19 gives a certain pressure to the clamping plate 18, so that the clamping of the battery a is stable, and the elastic piece 19 can adopt a spring; when the movable seat moves to the lower part of the movable plate, the driving cylinder drives the movable plate to move downwards, so that the plurality of rolling groove pieces are in one-to-one correspondence with the plurality of batteries, and rolling groove processing of the plurality of batteries is performed simultaneously.

In a further embodiment, two parallel moving grooves 23 which are oppositely arranged are formed in the top end of the supporting table 1, screw rods 24 are rotationally connected in the moving grooves 23, moving blocks 25 are also slidingly connected in the moving grooves 23, the moving blocks 25 are in threaded fit connection with the screw rods 24, and the bottoms of the moving seats 16 are connected with the two moving blocks 25;

the moving part is used for driving the two screws 24 to simultaneously rotate in the same speed and the same direction, and comprises a moving motor 26, wherein the output end of the moving motor 26 is in transmission connection with one of the screws 24, one end, far away from the moving motor 26, of the two screws 24 is fixedly provided with a transmission chain wheel 27, and the two transmission chain wheels 27 are connected through a transmission chain 28;

when the movable seat 16 is used, the movable motor 26 is driven, the movable motor 26 drives one of the screws 24 to rotate, the screw 24 rotates to drive one of the driving sprockets 27 to rotate, one of the driving sprockets 27 rotates to drive the other driving sprocket 27 to rotate through the driving chain 28, and then the two screws 24 are driven to synchronously rotate, and the two screws 24 synchronously rotate to drive the movable block 25 to synchronously move, so that the movable seat 16 is driven to move.

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 (10)

1. The utility model provides a cylindrical lithium cell production is with rolling groove equipment which characterized in that includes:

a support table (1);

a battery clamping mechanism mounted on the support table (1) and movable in a predetermined direction on the support table (1);

the rolling groove mechanism is positioned above the supporting table (1) and on the moving path of the battery clamping mechanism, and comprises a rolling groove part and a lifting part for driving the rolling groove part to move up and down in the vertical direction, and the rolling groove part comprises a rolling groove cutter (2) and a rotating part for driving the rolling groove cutter (2) to rotate around a vertical shaft.

2. The cylindrical rolling groove device for producing the lithium battery according to claim 1, wherein the lifting piece comprises a supporting frame (3), a moving plate (4) and a driving cylinder (5), the supporting frame (3) is installed on the supporting table (1), the moving plate (4) is horizontally arranged and connected with the supporting frame (3) in a sliding fit manner, and the driving cylinder (5) is installed on the supporting frame (3) and is used for driving the moving plate (4) to move up and down in the vertical direction; the fixed axle (6) of vertical arrangement are installed to movable plate (4) bottom, and fixed axle (6) shaft bottom rotates and is connected with backup pad (7), and backup pad (7) bottom is installed the channeling spare, channeling spare are provided with two channeling knifes (2), and two channeling knifes (2) relative arrangement and the distance between two channeling knifes (2) are adjustable, and the rotating member is used for driving backup pad (7) around fixed axle (6) axis rotation.

3. The cylindrical rolling groove device for producing lithium batteries according to claim 2, wherein the rotating member comprises a rolling groove motor (8), a first gear (9) and a second gear (10), the rolling groove motor (8) is arranged on the supporting plate (7), the first gear (9) is fixedly sleeved on the fixed shaft (6) and the fixed shaft is connected with the moving plate (4) in a rotating fit manner, the second gear (10) is meshed with the first gear (9), and the second gear (10) is fixed on an output shaft of the rolling groove motor (8).

4. The cylindrical rolling groove device for lithium battery production according to claim 3, wherein the top end of the supporting plate (7) is provided with a brush (11), an insulating plate (12) is arranged at the position above the supporting plate (7) on the fixed shaft (6), an electrode ring rail (13) is arranged at the bottom of the insulating plate (12), the top end of the brush (11) is embedded into the electrode ring rail (13), and the rolling groove motor (8) is electrically connected with the brush (11) through an electric wire.

5. The channeling equipment for producing cylindrical lithium batteries according to claim 4, characterized in that two supporting plates (14) are arranged at the bottom of the supporting plate (7), the two channeling cutters (2) are respectively located at the inner sides of the two supporting plates (14), the two supporting plates (14) are respectively provided with a first electric push rod (15), the two first electric push rods (15) are respectively connected with the two channeling cutters (2), and the first electric push rods (15) are connected with the electric brushes (11) through electric wires.

6. The cylindrical rolling groove device for producing lithium batteries according to any one of claims 1-5, characterized in that the battery clamping mechanism comprises a movable seat (16), a movable member and two fixed plates (17), the movable seat (16) is movably mounted on the supporting table (1) and the movable member is used for driving the movable seat (16) to move back and forth on the supporting table (1) in a preset direction, the two fixed plates (17) are oppositely arranged and are fixed at the top end of the movable seat (16), and the opposite sides of the two fixed plates (17) are connected with clamping plates (18) through elastic members (19).

7. The rolling groove device for producing cylindrical lithium batteries according to claim 6, wherein a plurality of clamping grooves (20) are formed in opposite sides of the two clamping plates (18), the clamping grooves (20) on the two clamping plates (18) are arranged in a one-to-one correspondence manner, and a plurality of rolling groove pieces are arranged in a plurality of rolling groove pieces and are respectively arranged in a one-to-one correspondence manner with the plurality of clamping grooves (20).

8. The cylindrical rolling groove device for producing lithium batteries according to claim 6, wherein a plurality of telescopic rods (21) are arranged on opposite sides of the two fixing plates (17), the telescopic rods (21) are connected with the clamping plates (18), the elastic pieces (19) are sleeved outside the telescopic rods (21), and a second electric push rod (22) connected with the clamping plates (18) is further arranged on the fixing plates (17).

9. The cylindrical rolling groove device for producing lithium batteries according to claim 6, wherein two parallel moving grooves (23) which are oppositely arranged are formed in the top end of the supporting table (1), screw rods (24) are rotationally connected in the moving grooves (23), moving blocks (25) are also slidingly connected in the moving grooves (23), the moving blocks (25) are in threaded fit connection with the screw rods (24), the bottoms of the moving seats (16) are connected with the two moving blocks (25), and the moving pieces are used for driving the two screw rods (24) to simultaneously rotate at the same speed and in the same direction.

10. The cylindrical rolling groove device for producing lithium batteries according to claim 9, wherein the moving member comprises a moving motor (26), the output end of the moving motor (26) is in transmission connection with one of the screw rods (24), one end, far away from the moving motor (26), of the two screw rods (24) is fixedly provided with a transmission chain wheel (27), and the two transmission chain wheels (27) are connected through a transmission chain (28).

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