CN210516915U - Winding device of lithium battery roll core - Google Patents

Abstract

The utility model discloses a coiling mechanism of lithium cell book core, including the organism, organism below welding organism landing leg, the welding of organism landing leg below has rubber to prop up the pad, and rubber props up the material and is rubber, is equipped with the conveyer belt landing leg on the organism, pushes down the dish landing leg, and the conveyer belt landing leg all welds with the organism with pushing down the dish landing leg, is equipped with down the pressure disk on the lower pressure dish landing leg, welds between lower pressure disk and the lower pressure dish landing leg, and the lower pressure dish top is equipped with the pressure disk, is equipped with the cylinder push rod on the pressure disk, goes up and welds between pressure disk and the. The beneficial effects are that: this equipment degree of automation is high, replaces artifical book core in the past, is equipped with the conveyer belt, can make the lithium cell roll up the core after the conveyer belt, the conveying comes out, is equipped with pneumatic pressure disk, avoids artifical extrusion to bring the problem that the extrusion is not up to standard.

Description

Winding device of lithium battery roll core

Technical Field

The utility model relates to a lithium cell processing field specifically is the coiling mechanism of lithium cell roll core.

Background

Along with the constantly developing of present social economic level and the constantly improvement of people quality of life, people require more and more high to the roll core device that the core was rolled up to the lithium cell, and present common lithium cell still has artifical roll core, and artifical roll core, artifical extrusion lead to the lithium cell to roll up the core winding unqualifiedly, extrude not up to standard.

SUMMERY OF THE UTILITY MODEL

The utility model provides a coiling mechanism of core is rolled up to lithium cell can effectively solve artifical roll core, the artifical extrusion that proposes in the above-mentioned background art, leads to the lithium cell to roll up the core winding unqualifiedly, extrudees the problem not up to standard.

In order to achieve the above object, the utility model provides a following technical scheme: the winding device for the lithium battery roll core comprises a machine body, a machine body supporting leg is welded below the machine body, a rubber supporting pad is bonded below the machine body supporting leg, a conveyor belt supporting leg and a lower pressure plate supporting leg are arranged on the machine body, the conveyor belt supporting leg and the lower pressure plate supporting leg are welded with the machine body, a lower pressure plate is arranged on the lower pressure plate supporting leg, the lower pressure plate is welded with the lower pressure plate supporting leg, an upper pressure plate is arranged above the lower pressure plate, an air cylinder push rod is arranged on the upper pressure plate, the upper pressure plate is welded with the air cylinder push rod, an air cylinder is arranged on the air cylinder push rod and is in sliding connection with the air cylinder push rod, an air cylinder bearing block is arranged on the air cylinder push rod and is welded with the machine body, a pressure tank support is arranged on the side of the air cylinder bearing block, a pressure tank is arranged on the pressure, the pressure tank support is welded with the machine body, an air return pipe is arranged at the bottom of the pressure tank and is in threaded connection with the air cylinder, an air inlet pipe is arranged on the pressure tank and is in threaded connection with the air cylinder, a support plate is arranged on the conveyor belt supporting leg and is welded with the conveyor belt supporting leg, a belt wheel motor shell is arranged on one side of the support plate and is fixedly connected onto the support plate, a sliding plate is welded at the rear of the belt wheel motor shell, a transmission shaft is arranged at the rear of the belt wheel motor shell and is welded with the belt wheel motor shell, a belt wheel motor is arranged in the belt wheel motor shell, a belt wheel motor output shaft is arranged at the rear of the belt wheel motor, a belt wheel is arranged at the rear of the belt wheel motor output shaft, the belt wheel motor output shaft is welded, the conveying belt is in friction connection with the belt wheel, a cross bar is longitudinally arranged on the supporting legs of the conveying belt and is welded with the supporting legs of the conveying belt, a connecting block is arranged above the supporting plate, a driven shaft is arranged behind the connecting block, a second rotary table is arranged behind the driven shaft, a second clamp is arranged behind the second rotary table, a first clamp is arranged behind the second clamp, a first rotary table is arranged behind the first clamp, a winding motor output shaft is arranged behind the first rotary table, a winding motor is arranged behind the winding motor output shaft, a winding motor connecting block is arranged behind the winding motor, the winding motor connecting block is in bolted connection with the machine body, a cutter connecting block is arranged on the side of the winding motor, a cutter is arranged in front of the cutter connecting block, the cutter connecting block is welded with the machine body, and a first storage device is arranged, and a second storage device is arranged below the first storage device.

Preferably, the connecting block is connected with the supporting plate through bolts, the connecting block is connected with the driven shaft through ball bearings, the driven shaft is welded with the second rotary table, the second rotary table is welded with the second clamp, the first clamp is welded with the first rotary table, the first rotary table is welded with the output shaft of the winding motor, the winding motor is welded with the connecting block of the winding motor, and the cutter connecting block is welded with the machine body.

Preferably, one storage device comprises a first storage barrel, a first discharge port, a first rotating shaft, a first supporting plate, a first connecting block and a first rotating roller, the first rotating shaft is riveted with the machine body, the first supporting plate is connected with the machine body through a buckle, the first supporting plate is welded on one side of the first connecting block, the first rotating roller is welded on the rear side of the first connecting block, and the first rotating roller is connected with a ball bearing between the machine body.

Preferably, the second storage device comprises a second storage barrel, a second discharge port, a second rotating shaft, a second supporting plate, a second connecting block and a second rotating roller, the second rotating shaft is riveted between the two bodies, the second supporting plate is connected with the two bodies through buckles, the second supporting plate is welded on the side of the second connecting block, the second connecting block is welded on the rear of the second connecting block, and the second rotating roller is connected with a ball bearing between the two bodies.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of being scientific and reasonable in structure, convenience safe in utilization:

1. the device has high automation degree and replaces the original manual winding core;

2. the conveying belt is arranged, so that the lithium battery roll core can be conveyed out through the conveying belt;

3. be equipped with pneumatic pressure disk, avoid artifical extrusion to bring the problem that the extrusion is not up to standard.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a front view of the present novel usage model;

FIG. 4 is a schematic diagram of the structure of the novel storing device;

fig. 5 is a schematic structural diagram of the novel pulley motor casing.

Reference numbers in the figures: 1. a body; 2. a machine body supporting leg; 3. a rubber support pad; 4. a conveyor belt leg; 5. a lower pressing plate supporting leg; 6. a lower platen; 7. an upper platen; 8. a cylinder push rod; 9. a cylinder; 10. a pressure tank; 11. a pressure tank support; 12. an air inlet pipe; 13. an air return pipe; 14. a first material storage device; 1401. a first storage barrel; 1402. a first discharge hole; 1403. a first rotating shaft; 1404. a first supporting plate; 1405. a first connecting block; 1406. rotating a first stick; 15. a second material storage device; 1501. a second storage barrel; 1502. a discharge hole II; 1503. a second rotating shaft; 1504. a second supporting plate; 1505. a second connecting block; 1506. rotating a second stick; 16. a second rotating disc; 17. a second clamp; 18. a driven shaft; 19. a cutter connecting block; 20. a cutter; 21. winding a motor connecting block; 22. winding a motor; 23. winding the output shaft of the motor; 24. a first rotating disc; 25. a first clamp; 26. a conveyor belt; 27. a drive shaft; 28. a slide plate; 29. a pulley; 30. horizontal bars; 31. a pulley motor housing; 32. a cylinder bearing block; 33. a support plate; 34. connecting blocks; 35. a pulley motor; 36. the output shaft of the belt wheel motor.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-5, the winding device for lithium battery winding core comprises a machine body 1, a machine body supporting leg 2 is welded below the machine body 1, a rubber supporting pad 3 is bonded below the machine body supporting leg 2, the rubber supporting pad 3 plays a role of anti-skidding, a conveyor belt supporting leg 4 and a lower pressing disc supporting leg 5 are arranged on the machine body 1, the conveyor belt supporting leg 4 and the lower pressing disc supporting leg 5 are both welded with the machine body 1, a lower pressing disc 6 is arranged on the lower pressing disc supporting leg 5, the lower pressing disc 6 is welded with the lower pressing disc supporting leg 5, an upper pressing disc 7 is arranged above the lower pressing disc 6, the upper pressing disc 7 and the lower pressing disc 6 are used for extruding the winding core, a cylinder push rod 8 is arranged on the upper pressing disc 7, the upper pressing disc 7 is welded with the cylinder push rod 8, a cylinder 9 is arranged on the cylinder push rod 8, the cylinder 9 is slidably connected with the cylinder push rod 8, a cylinder body bearing block 32 is, a pressure tank 10 is arranged on a pressure tank support 11, the pressure tank 10 is welded with the pressure tank support 11, the pressure tank support 11 is welded with a machine body 1, an air return pipe 13 is arranged at the bottom of the pressure tank 10, the air return pipe 13 is in threaded connection with an air cylinder 9, an air inlet pipe 12 is arranged on the pressure tank 10, the air inlet pipe 12 is in threaded connection with the air cylinder 9, a support plate 33 is arranged on a conveyor belt supporting leg 4, the support plate 33 is welded with the conveyor belt supporting leg 4, a belt wheel motor shell 31 is arranged on one side of the support plate 33, the belt wheel motor shell 31 is fixedly connected on the support plate 33, a sliding plate 28 is welded behind the belt wheel motor shell 31, a transmission shaft 27 is arranged behind the belt wheel motor shell 31, the transmission shaft 27 is welded with the belt wheel motor shell 31, a belt wheel motor 35 is arranged in the belt wheel motor shell 31, a belt, the belt wheel 29 is provided with a conveying belt 26, the conveying belt 26 is in friction connection with the belt wheel 29, the conveying belt supporting leg 4 is longitudinally provided with a cross bar 30, the cross bar 30 is welded with the conveying belt supporting leg 4, a connecting block 34 is arranged above the supporting plate 33, a driven shaft 18 is arranged behind the connecting block 34, a rotary disc 16 is arranged behind the driven shaft 18, a clamp 17 is arranged behind the rotary disc 16, a clamp 25 is arranged behind the clamp 17, a rotary disc 24 is arranged behind the clamp 25, a winding motor output shaft 23 is arranged behind the rotary disc 24, a winding motor 22 is arranged behind the winding motor output shaft 23, a winding motor connecting block 21 is arranged behind the winding motor 22, the winding motor connecting block 21 is in bolt connection with the machine body 1, a cutter connecting block 19 is arranged on the side of the winding motor 22, a cutter 20 is arranged in front of the cutter connecting block 19, a first storage device 14 is arranged on the lateral side of the cutter connecting block 19, and a second storage device 15 is arranged below the first storage device 14.

Preferably, the connecting block 34 is connected with the supporting plate 33 through a bolt, the connecting block 34 is connected with the driven shaft 18 through a ball bearing, the driven shaft 18 is welded with the second rotary table 16, the second rotary table 16 is welded with the second fixture 17, the first fixture 25 is welded with the first rotary table 24, the first rotary table 24 is welded with the output shaft 23 of the winding motor, the winding motor 22 is welded with the connecting block 21 of the winding motor, the cutter connecting block 19 is welded with the machine body 1, the first storage device 14 comprises a first storage barrel 1401, a first discharge port 1402, a first rotating shaft 1403, a first supporting plate 1404, a first connecting block 1405 and a first rotating roller 1406, the first rotating shaft 1403 is riveted with the machine body 1, the first supporting plate 1404 is connected with the machine body 1 in a buckling manner, the first connecting block 1405 is welded on the side of the first supporting plate 1404, the first rotating roller 1406 is welded behind the first connecting block 1405, the first rotating, The second discharging port 1502, the second rotating shaft 1503, the second supporting plate 1504, the second connecting block 1505 and the second rotating roller 1506 are riveted between the second rotating shaft 1503 and the machine body 1, the second supporting plate 1504 is connected with the machine body 1 in a buckling mode, the second connecting block 1505 is welded on the lateral side of the second supporting plate 1504, the second rotating roller 1506 is welded behind the second connecting block 1505, and the second rotating roller 1506 is connected with the machine body 1 through a ball bearing.

The utility model discloses a theory of operation and use flow: during the use, put lithium cell panel in anchor clamps one 25 and anchor clamps two 17, then storage device one 14, storage device two 15 begin to carry the winding thing to lithium cell panel, start winding motor 22, winding motor 22 drives lithium cell panel and rotates and twine, and after the winding is accomplished, cutter 20 cuts the winding thing off, and the well book core of twining conveys down on pressure disk 6 through conveyer belt 26, goes up pressure disk 7 and extrudees the book core under the motion of cylinder push rod 8.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. Lithium cell rolls up take-up device of core, including organism (1), its characterized in that: organism landing leg (2) is welded below the organism (1), a rubber support pad (3) is bonded below the organism landing leg (2), a conveyor belt landing leg (4) and a lower pressure plate landing leg (5) are arranged on the organism (1), the conveyor belt landing leg (4) and the lower pressure plate landing leg (5) are welded with the organism (1), a lower pressure plate (6) is arranged on the lower pressure plate landing leg (5), the lower pressure plate (6) and the lower pressure plate landing leg (5) are welded with each other, an upper pressure plate (7) is arranged above the lower pressure plate (6), an air cylinder push rod (8) is arranged on the upper pressure plate (7), the upper pressure plate (7) and the air cylinder push rod (8) are welded with each other, an air cylinder (9) is arranged on the air cylinder push rod (8), the air cylinder push rod (8) is slidably connected with the air cylinder push rod (8), and an air cylinder bearing block (32) is arranged on the air, the cylinder bearing block (32) and the machine body (1) are welded, a pressure tank support (11) is arranged on the side of the cylinder bearing block (32), a pressure tank (10) is arranged on the pressure tank support (11), the pressure tank (10) and the pressure tank support (11) are welded, the pressure tank support (11) and the machine body (1) are welded, an air return pipe (13) is arranged at the bottom of the pressure tank (10), the air return pipe (13) is in threaded connection with the cylinder (9), an air inlet pipe (12) is arranged on the pressure tank (10), the air inlet pipe (12) is in threaded connection with the cylinder (9), a support plate (33) is arranged on the conveyor belt supporting leg (4), the support plate (33) is welded with the conveyor belt supporting leg (4), a belt wheel motor shell (31) is arranged on one side of the support plate (33), and the belt wheel motor shell (31) is fixedly connected on the support plate (33), the rear welding of band pulley motor casing (31) has slide (28), band pulley motor casing (31) rear is equipped with transmission shaft (27), transmission shaft (27) with weld between band pulley motor casing (31), be equipped with band pulley motor (35) in band pulley motor casing (31), band pulley motor (35) rear is equipped with band pulley motor output shaft (36), band pulley motor output shaft (36) rear is equipped with band pulley (29), band pulley motor output shaft (36) with weld between band pulley (29), be equipped with conveyer belt (26) on band pulley (29), friction connection between conveyer belt (26) and band pulley (29), conveyer belt landing leg (4) vertically are equipped with whippletree (30), whippletree (30) with weld between conveyer belt landing leg (4), backup pad (33) top is equipped with connecting block (34), the rear of the connecting block (34) is provided with a driven shaft (18), the rear of the driven shaft (18) is provided with a second rotary table (16), the rear of the second rotary table (16) is provided with a second clamp (17), the rear of the second clamp (17) is provided with a first clamp (25), the rear of the first clamp (25) is provided with a first rotary table (24), the rear of the first rotary table (24) is provided with a winding motor output shaft (23), the rear of the winding motor output shaft (23) is provided with a winding motor (22), the rear of the winding motor (22) is provided with a winding motor connecting block (21), the winding motor connecting block (21) is connected with the machine body (1) through bolts, the side of the winding motor (22) is provided with a cutter connecting block (19), the front of the cutter connecting block (19) is provided with a cutter (20), and the, the side of the cutter connecting block (19) is provided with a first storage device (14), and a second storage device (15) is arranged below the first storage device (14).

2. The winding device of the lithium battery jelly roll according to claim 1, characterized in that: connecting block (34) with bolted connection between backup pad (33), connecting block (34) with ball bearing connects between driven shaft (18), driven shaft (18) with weld between carousel two (16), carousel two (16) with weld between anchor clamps two (17), anchor clamps one (25) with weld between carousel one (24), carousel one (24) with weld between winding motor output shaft (23), winding motor (22) with weld between winding motor connecting block (21), cutter connecting block (19) with weld between organism (1).

3. The winding device of the lithium battery jelly roll according to claim 1, characterized in that: the first storage device (14) comprises a first storage barrel (1401), a first discharge hole (1402), a first rotating shaft (1403), a first support plate (1404), a first connecting block (1405) and a first rotating roller (1406), the first rotating shaft (1403) is riveted with the machine body (1), the first support plate (1404) is connected with the machine body (1) through a buckle, the first connecting block (1405) is welded on the side of the first support plate (1404), the first rotating roller (1406) is welded on the rear side of the first connecting block (1405), and the first rotating roller (1406) is connected with a ball bearing between the machine body (1).

4. The winding device of the lithium battery jelly roll according to claim 1, characterized in that: the second storage device (15) comprises a second storage barrel (1501), a second discharge hole (1502), a second rotating shaft (1503), a second support plate (1504), a second connecting block (1505) and a second rotating roller (1506), the second rotating shaft (1503) is riveted with the machine body (1), the second support plate (1504) is connected with the machine body (1) in a buckling mode, the second connecting block (1505) is welded on the side of the second support plate (1504), the second rotating roller (1506) is welded behind the second connecting block (1505), and the second rotating roller (1506) is connected with a ball bearing between the machine body (1).

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