CN220272541U - Full-automatic two line processing equipment that seal of lithium cell - Google Patents

Full-automatic two line processing equipment that seal of lithium cell Download PDF

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Publication number
CN220272541U
CN220272541U CN202321728066.3U CN202321728066U CN220272541U CN 220272541 U CN220272541 U CN 220272541U CN 202321728066 U CN202321728066 U CN 202321728066U CN 220272541 U CN220272541 U CN 220272541U
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frame
unit
material moving
packaging
matched
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Chinese (zh)
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肖仁杰
熊伟
彭磊
肖令舟
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Guangdong Leiden Intelligent Equipment Co ltd
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Guangdong Leiden Intelligent Equipment Co ltd
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Abstract

The utility model discloses full-automatic two-sealing line processing equipment for a lithium battery, which comprises a frame, a feeding mechanism and a detection mechanism which are arranged on the frame, a packaging mechanism and a sealing supplementing mechanism which are arranged on the frame, a trimming mechanism and a weighing mechanism which are arranged on the frame, a trimming mechanism and a hot edge code spraying mechanism which are arranged on the frame, a receiving mechanism which is arranged on the frame, and a first material moving mechanism and a second material moving mechanism which are arranged on the frame, wherein the feeding mechanism, the detection mechanism, the packaging mechanism, the sealing supplementing mechanism, the trimming mechanism, the weighing mechanism, the trimming mechanism, the hot edge code spraying mechanism and the receiving mechanism are sequentially arranged according to the working procedures, and the full-automatic packaging of the lithium battery can be realized through the arranged feeding mechanism, the detection mechanism, the sealing supplementing mechanism, the trimming mechanism, the weighing mechanism, the trimming mechanism, the hot edge code spraying mechanism and the receiving mechanism, the automatic level is high, the labor cost is reduced, and the production efficiency is improved.

Description

Full-automatic two line processing equipment that seal of lithium cell
Technical Field
The utility model relates to the technical field of lithium battery packaging processing, in particular to full-automatic two-sealing line processing equipment for a lithium battery.
Background
At present, the lithium battery is widely applied, the required yield is also very high, and before the lithium battery is manufactured and molded, the voltage, the current, the resistance and the appearance package of the battery are required to be detected, so that the battery which flows outwards is ensured to meet the specification requirement. At present, lithium battery production equipment on the market is characterized in that each production and processing station is independently set up, a special person is required to carry out guarding operation, a large amount of manpower is consumed, in the previous processing operation, only the battery core of the lithium battery is often packaged once, the product quality of the lithium battery is not guaranteed, and the production cost of enterprises is increased.
Disclosure of Invention
In order to solve the problems, the utility model provides full-automatic two-sealing line processing equipment for lithium batteries, which can fully automatically package the lithium batteries through a feeding mechanism, a detection mechanism, a packaging mechanism, a sealing supplementing mechanism, a trimming mechanism, a weighing mechanism, a edge cutting and folding mechanism, an edge ironing code spraying mechanism and a material receiving mechanism, and has the advantages of high automation degree, reduced labor cost and improved production efficiency.
In order to achieve the above purpose, the technical scheme adopted by the utility model is to provide full-automatic second wire sealing processing equipment for lithium batteries, which comprises a frame, a feeding mechanism and a detection mechanism which are arranged on the frame, a packaging mechanism and a sealing supplementing mechanism which are arranged on the frame, a trimming mechanism and a weighing mechanism which are arranged on the frame, a trimming mechanism and a scalding side spraying mechanism which are arranged on the frame, a material receiving mechanism which are arranged on the frame, a first material shifting mechanism and a second material shifting mechanism which are arranged on the frame, a feeding mechanism, a detection mechanism, a packaging mechanism, a sealing supplementing mechanism, a trimming mechanism, a weighing mechanism, a trimming mechanism, a scalding side spraying mechanism and a material receiving mechanism are sequentially arranged according to procedures, wherein the first material shifting mechanism comprises a first material shifting slider arranged on the frame, a first material shifting unit and a second material shifting unit which are arranged on the first material shifting slider, a third material shifting unit and a fourth material shifting unit which are arranged on the first material shifting slider, a fifth material shifting unit which is arranged on the first material shifting slider, a sixth material shifting unit which is arranged on the first material shifting slider, a material shifting unit which is arranged on the fifth material shifting unit which is arranged on the first material shifting slider, a material shifting unit which is matched with the trimming unit which is arranged on the second material shifting unit is arranged on the frame, a seventh material shifting unit which is arranged on the fourth material shifting unit which is matched with the fourth material shifting unit, and the fourth material shifting unit which is arranged on the frame, and the fourth material shifting unit which is arranged on the material shifting unit which is matched with the material shifting unit, the eighth material moving unit is matched with the edge ironing and code spraying mechanism, and the ninth material moving unit is matched with the material receiving mechanism.
As a preferred scheme, the feeding mechanism comprises a feeding frame, a feeding motor arranged on the feeding frame, a feeding rotary table arranged on the feeding motor, a material placing frame arranged on the feeding rotary table, a clamping frame arranged on the frame, a feeding sliding unit arranged on the clamping frame, and a feeding adsorption unit arranged on the feeding sliding unit, wherein the feeding adsorption unit moves back and forth between the material placing frame and the detection mechanism.
As a preferable scheme, the detection mechanism comprises a first detection seat and a second detection seat which are arranged on the frame, a detection motor arranged on the first detection seat, a detection disc and a first detection unit which are arranged on the detection motor, and a second detection unit arranged on the second detection seat, wherein the first material moving unit is matched with the first detection unit, and the second material moving unit is matched with the second detection unit.
As a preferable scheme, the packaging mechanism comprises a packaging seat arranged on the frame, a packaging motor arranged on the packaging seat, a packaging rotary table arranged on the packaging motor, a packaging frame arranged on the packaging rotary table, and packaging units arranged on the packaging frame, wherein the packaging frame and the packaging units are arranged at intervals, and the third material moving unit is matched with the packaging units.
As a preferable scheme, the repair and sealing mechanism comprises a repair and sealing frame arranged on the frame, a repair and sealing unit arranged on the repair and sealing frame and a repair and sealing table, wherein the repair and sealing unit is matched with the repair and sealing table, and the fourth material moving unit is matched with the repair and sealing table.
As a preferred scheme, the side cut mechanism includes install in the cutter frame of frame, install in cutter drive unit and the cutter platform of cutter frame, install in the last cutter of cutter drive unit, install in the lower cutter of cutter platform, go up the cutter with lower cutter matches the setting from top to bottom, the fifth move the material unit with cutter platform matches the setting.
As a preferable scheme, the weighing mechanism comprises a weighing frame, a weighing platform, a thickness detection driving unit and a thickness detection unit, wherein the weighing frame is arranged on the frame, the weighing platform is arranged on the weighing frame, the thickness detection driving unit is arranged on the thickness detection driving unit, the thickness detection unit is positioned above the weighing platform, and the sixth material moving unit is matched with the weighing platform.
As a preferable scheme, the edge cutting and folding mechanism comprises a cutting and folding frame arranged on the frame, a cutting and folding moving unit and a cutting and folding fixing unit arranged on the cutting and folding frame, a trimming unit and a folding unit which are arranged on the cutting and folding frame in a sliding manner, the cutting and folding moving unit and the cutting and folding fixing unit are arranged in a matched mode, and the seventh material moving unit and the discharging end of the cutting and folding moving unit are arranged in a matched mode.
As a preferred scheme, the hot edge code spraying mechanism comprises a hot edge code spraying frame arranged on the frame, a code spraying mobile unit arranged on the hot edge code spraying frame, a hot edge code spraying table, a code spraying pressing module arranged on the code spraying mobile unit, and a hot pressing module, wherein the code spraying pressing module is matched with the hot edge code spraying table, and the eighth material moving unit is matched with the hot edge code spraying table.
As a preferable scheme, the material receiving mechanism comprises a material discharging frame arranged on the frame, a first material discharging conveying unit, a second material discharging conveying unit and a material distributing unit, wherein the first material discharging conveying unit and the second material discharging conveying unit are arranged on the frame, the material distributing unit is arranged on the material discharging frame, the material distributing unit moves back and forth between the first material discharging conveying unit and the second material discharging conveying unit, and the ninth material moving unit is matched with the first material discharging conveying unit.
The utility model has the beneficial effects that: through the feed mechanism, detection mechanism, encapsulation mechanism, mend seal mechanism, side cut mechanism, weighing machine construct, cut hem mechanism, scald limit ink jet numbering mechanism and receiving mechanism that set up can carry out full-automatic encapsulation to the lithium cell, degree of automation is high, has reduced the human cost, has improved production efficiency.
Drawings
Fig. 1 is a schematic diagram of the overall structure of a full-automatic two-seal line processing device for a lithium battery.
Fig. 2 is a schematic structural diagram of a first material moving mechanism in the fully automatic two-seal line processing device for lithium batteries in fig. 1.
Fig. 3 is a schematic structural diagram of a second material transferring mechanism in the full-automatic two-seal line processing device for lithium batteries in fig. 1.
Fig. 4 is a schematic structural diagram of a feeding mechanism in the full-automatic two-seal line processing device for lithium batteries in fig. 1.
Fig. 5 is a schematic structural diagram of a detection mechanism in the full-automatic two-seal line processing equipment of the lithium battery in fig. 1.
Fig. 6 is a schematic structural diagram of a packaging mechanism in the fully automatic two-wire processing apparatus for lithium batteries in fig. 1.
Fig. 7 is a schematic structural diagram of a repair seal mechanism in the full-automatic two-seal line processing device for lithium batteries in fig. 1.
Fig. 8 is a schematic structural view of a trimming mechanism in the full-automatic two-seal line processing device for lithium batteries in fig. 1.
Fig. 9 is a schematic structural diagram of a weighing mechanism in the fully automatic two-seal line processing equipment for lithium batteries in fig. 1.
Fig. 10 is a schematic structural view of a hemming cutting mechanism in the full-automatic two-seal line processing device for lithium batteries in fig. 1.
Fig. 11 is a schematic structural diagram of a stamping and code spraying mechanism in the full-automatic two-seal line processing equipment of the lithium battery in fig. 1.
Fig. 12 is a schematic structural diagram of a material receiving mechanism in the fully automatic two-seal line processing device for lithium batteries in fig. 1.
Reference numerals illustrate: a. a frame; 100. a feeding mechanism; 110. a feeding frame; 120. a feeding motor; 130. a feeding turntable; 140. a material placing rack; 150. a clamping frame; 160. a feeding sliding unit; 170. a feeding adsorption unit; 200. a detection mechanism; 210. a first detection seat; 220. a second detection seat; 230. detecting a motor; 240. a detection disc; 250. a first detection unit; 260. a second detection unit; 300. a packaging mechanism; 310. a packaging seat; 320. packaging a motor; 330. packaging turntables; 340. a packaging frame; 350. a packaging unit; 400. a repair seal mechanism; 410. repairing and sealing the frame; 420. a repair unit; 430. repairing and sealing the platform; 500. a trimming mechanism; 510. a cutter rest; 520. a cutter driving unit; 530. a cutter platform; 540. an upper cutter; 550. a lower cutter; 600. a weighing mechanism; 610. a weighing rack; 620. a weighing table; 630. a thickness detection driving unit; 640. a thickness detection unit; 700. a edge cutting and folding mechanism; 710. cutting and folding the frame; 720. a cutting and folding moving unit; 730. a cutting and folding fixing unit; 740. a trimming unit; 750. a hemming unit; 800. the edge ironing and code spraying mechanism; 810. a stamping edge code spraying frame; 820. a code spraying mobile unit; 830. a stamping edge code spraying table; 840. a code spraying and pressing module; 850. a hot pressing module; 900. a material receiving mechanism; 910. a blanking frame; 920. a first blanking conveying unit; 930. a second blanking conveying unit; 940. a material distributing unit; b. a first material moving mechanism; b10, a first material moving slide block; b20, a first material moving unit; b30, a second material moving unit; b40, a third material moving unit;
b50, a fourth material moving unit; b60, a fifth material moving unit; b70, a sixth material moving unit; c. a second material moving mechanism; c10, a second material moving slide block; c20, a seventh material moving unit; c30, an eighth material moving unit; and c40, a ninth material moving unit.
Detailed Description
The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.
As shown in fig. 1 to 12, the utility model provides a full-automatic two-seal line processing device for lithium batteries, comprising a frame a, a feeding mechanism 100 and a detecting mechanism 200 which are arranged on the frame a, a packaging mechanism 300 and a sealing repairing mechanism 400 which are arranged on the frame a, a trimming mechanism 500 and a weighing mechanism 600 which are arranged on the frame a, a trimming mechanism 700 and a hot edge code spraying mechanism 800 which are arranged on the frame a, a receiving mechanism 900 which is arranged on the frame a, a first material moving mechanism b and a second material moving mechanism c which are arranged on the frame a, wherein the feeding mechanism 100, the detecting mechanism 200, the packaging mechanism 300, the sealing repairing mechanism 400, the trimming mechanism 500, the weighing mechanism 600, the trimming mechanism 700, the hot edge code spraying mechanism 800 and the receiving mechanism 900 are sequentially arranged according to procedures, the first material moving mechanism b comprises a first material moving sliding block b10 installed on a frame a, a first material moving unit b20 and a second material moving unit b30 installed on the first material moving sliding block b10, a third material moving unit b40 and a fourth material moving unit b50 installed on the first material moving sliding block b10, a fifth material moving unit b60 and a sixth material moving unit b70 installed on the first material moving sliding block b10, the first material moving unit b20 and the second material moving unit b30 are matched with the detection mechanism 200, the third material moving unit b40 is matched with the packaging mechanism 300, the fourth material moving ternary is matched with the sealing mechanism 400, the fifth material moving unit b60 is matched with the trimming mechanism 500, the sixth material moving unit b70 is matched with the weighing mechanism 600, the second material moving mechanism c comprises a second material moving sliding block c10 installed on the frame a, a seventh material moving unit c20 and an eighth material moving unit c30 installed on the second material moving sliding block c10, a seventh material moving unit c40 installed on the second sliding block c10 is matched with the eighth material moving mechanism c30, the ninth material moving unit c40 is matched with the trimming mechanism 800, the ninth material moving unit c40 is matched with the material receiving mechanism 900; through the feeding mechanism 100, the detection mechanism 200, the packaging mechanism 300, the repair and sealing mechanism 400, the trimming mechanism 500, the weighing mechanism 600, the edge cutting and folding mechanism 700, the edge ironing and code spraying mechanism 800 and the material receiving mechanism 900 which are arranged, the lithium battery can be fully automatically packaged, the automation degree is high, the labor cost is reduced, and the production efficiency is improved.
The feeding mechanism 100 includes a feeding frame 110, a feeding motor 120 installed on the feeding frame 110, a feeding turntable 130 installed on the feeding motor 120, a material placing frame 140 installed on the feeding turntable 130, a clamping frame 150 installed on a frame a, a feeding sliding unit 160 installed on the clamping frame 150, and a feeding adsorption unit 170 installed on the feeding sliding unit 160, wherein the feeding adsorption unit 170 reciprocates between the material placing frame 140 and the detection mechanism 200, and when feeding, the feeding adsorption unit 170 takes out materials from the material placing frame 140 and then places the materials on the detection mechanism 200 for detection, in this embodiment, the material placing frames 140 are multiple and are arranged at intervals, and the feeding turntable 130 rotates to drive the material placing frame 140 to rotate, so that the feeding adsorption unit 170 can uniformly adsorb the materials.
The detection mechanism 200 includes a first detection seat 210 and a second detection seat 220 mounted on the frame a, a detection motor 230 mounted on the first detection seat 210, a detection disc 240 and a first detection unit 250 mounted on the detection motor 230, and a second detection unit 260 mounted on the second detection seat 220, where the first material moving unit b20 is matched with the first detection unit 250, the second material moving unit b30 is matched with the second detection unit 260, and the material fed to the detection mechanism 200 is subjected to voltage detection by the first detection unit 250 and then subjected to CID (current cutting device) detection by the second detection unit 260, and then is moved to the packaging mechanism 300 for packaging by the second material moving unit b30 after being qualified.
The packaging mechanism 300 comprises a packaging seat 310 mounted on the frame a, a packaging motor 320 mounted on the packaging seat 310, a packaging rotary table 330 mounted on the packaging motor 320, a packaging frame 340 mounted on the packaging rotary table 330, and packaging units 350 mounted on the packaging frame 340, wherein the packaging frame 340 and the packaging units 350 are multiple and are arranged at intervals, the third material moving unit b40 is matched with the packaging units 350, the detected lithium battery cells are placed on the packaging units 350 for packaging, and after packaging, the detected lithium battery cells can be moved to the sealing repairing mechanism for sealing through the third material moving unit b 40.
The repair mechanism 400 comprises a repair frame 410 mounted on the frame a, a repair unit 420 mounted on the repair frame 410 and a repair table 430, wherein the repair unit 420 is matched with the repair table 430, a fourth material moving unit b50 is matched with the repair table 430, the packaged lithium battery cell is repaired on the repair mechanism 400, and the repaired lithium battery cell can be moved to the trimming mechanism 500 for trimming through the fourth material moving unit b 50.
The trimming mechanism 500 comprises a cutter frame 510 installed on the frame a, a cutter driving unit 520 installed on the cutter frame 510, a cutter platform 530, an upper cutter 540 installed on the cutter driving unit 520, a lower cutter 550 installed on the cutter platform 530, wherein the upper cutter 540 and the lower cutter 550 are arranged in an up-down matching way, a fifth material moving unit b60 and the cutter platform 530 are arranged in an up-down matching way, trimming is performed on the trimming mechanism 500 after the repaired and sealed lithium battery cell, redundant leftover materials are cut off, and the trimmed lithium battery cell can be moved to the weighing mechanism 600 through the fifth material moving unit b60 for heavy weight.
The weighing mechanism 600 comprises a weighing frame 610 arranged on a frame a, a weighing platform 620 arranged on the weighing frame 610, a thickness detection driving unit 630 and a thickness detection unit 640 arranged on the thickness detection driving unit 630, wherein the thickness detection unit 640 is positioned above the weighing platform 620, a sixth material moving unit b70 is matched with the weighing platform 620, a lithium battery cell after trimming can be weighed and the thickness is detected on the weighing mechanism 600, and after the lithium battery cell is qualified, the lithium battery cell can be moved to a hemming cutting mechanism 700 through the sixth material moving unit b70 for hemming.
The edge cutting and folding mechanism 700 comprises an edge cutting and folding frame 710 mounted on the frame a, an edge cutting and folding moving unit 720 and an edge cutting and folding fixing unit 730 mounted on the edge cutting and folding frame 710, an edge cutting unit 740 and an edge folding unit 750 mounted on the edge cutting and folding frame 710 in a sliding mode, the edge cutting and folding moving unit 720 and the edge folding fixing unit 730 are arranged in a matched mode, a seventh material moving unit c20 and a discharging end of the edge cutting and folding moving unit 720 are arranged in a matched mode, a lithium battery cell after weighing is qualified can be subjected to edge cutting and folding on the edge cutting and folding mechanism 700, and the lithium battery cell after edge cutting and folding can be subjected to edge cutting and folding through the seventh material moving unit c20 to edge ironing and code spraying of the edge ironing and spraying mechanism 800.
The edge ironing and code spraying mechanism 800 comprises an edge ironing and code spraying frame 810 mounted on the frame a, a code spraying mobile unit 820 and an edge ironing and code spraying table 830 mounted on the edge ironing and code spraying frame 810, a code spraying pressing module 840 and a pressing module 850 mounted on the code spraying mobile unit 820, wherein the code spraying pressing module 840 is matched with the edge ironing and code spraying table 830, the eighth material moving unit c30 is matched with the edge ironing and code spraying table 830, the edge ironing and code spraying mechanism 800 can firstly iron the lithium battery cell after edge cutting, then code spraying is carried out, and then the lithium battery cell can be moved to the material receiving mechanism 900 through the eighth material moving unit c 30.
The receiving mechanism 900 includes a blanking frame 910 installed on the frame a, a first blanking conveying unit 920 and a second blanking conveying unit 930 installed on the frame a, and a distributing unit 940 installed on the blanking frame 910, the distributing unit 940 is arranged between the first blanking conveying unit 920 and the second blanking conveying unit 930 in a reciprocating mode, a ninth shifting unit c40 is arranged in a matching mode with the first blanking conveying unit 920, a lithium battery cell after hot edge code spraying can be shifted to the first blanking conveying unit 920 through the ninth shifting unit c40, meanwhile, the distributing unit 940 can also distribute the lithium battery cell to the second blanking conveying unit 930, and the first blanking conveying unit 920 and the second blanking conveying unit 930 can accelerate conveying efficiency.
The above embodiments are merely illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the spirit of the design of the present utility model.

Claims (10)

1. The full-automatic two-seal line processing equipment for the lithium battery is characterized by comprising a frame, a feeding mechanism and a detection mechanism which are arranged on the frame, a packaging mechanism and a sealing supplementing mechanism which are arranged on the frame, a trimming mechanism and a weighing mechanism which are arranged on the frame, a trimming mechanism and a hot edge code spraying mechanism which are arranged on the frame, a receiving mechanism which is arranged on the frame, a first material moving mechanism and a second material moving mechanism which are arranged on the frame, wherein the feeding mechanism, the detection mechanism, the packaging mechanism, the sealing supplementing mechanism, the trimming mechanism, the weighing mechanism, the trimming mechanism, the cutting mechanism, the hot edge code spraying mechanism and the receiving mechanism are sequentially arranged according to procedures, the first material moving mechanism comprises a first material moving slide block which is arranged on the frame, a first material moving unit and a second material moving unit which are arranged on the first material moving slide block, a third material moving unit and a fourth material moving unit which are arranged on the first material moving slide block, and a fifth material moving unit and a sixth material moving unit which are arranged on the first material moving slide block, the first material moving unit and the second material moving unit are matched with the detection mechanism, the third material moving unit is matched with the packaging mechanism, the fourth material moving unit is matched with the sealing mechanism, the fifth material moving unit is matched with the trimming mechanism, the sixth material moving unit is matched with the weighing mechanism, the second material moving mechanism comprises a second material moving sliding block installed on the frame, a seventh material moving unit and an eighth material moving unit installed on the second material moving sliding block, a ninth material moving unit installed on the second material moving sliding block, the seventh material moving unit is matched with the edge cutting mechanism, the eighth material moving unit is matched with the edge ironing and spraying mechanism, and the ninth material moving unit is matched with the material receiving mechanism.
2. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the feeding mechanism comprises a feeding frame, a feeding motor arranged on the feeding frame, a feeding turntable arranged on the feeding motor, a material placing frame arranged on the feeding turntable, a clamping frame arranged on the frame, a feeding sliding unit arranged on the clamping frame, and a feeding adsorption unit arranged on the feeding sliding unit, wherein the feeding adsorption unit moves back and forth between the material placing frame and the detection mechanism.
3. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the detection mechanism comprises a detection seat arranged on the frame, a detection motor arranged on the detection seat, a detection disc arranged on the detection motor and a detection unit, and the first material moving unit is matched with the detection unit.
4. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the packaging mechanism comprises a packaging seat arranged on the frame, a packaging motor arranged on the packaging seat, a packaging rotary table arranged on the packaging motor, a packaging frame arranged on the packaging rotary table, and packaging units arranged on the packaging frame, wherein the packaging frame and the packaging units are multiple and are arranged at intervals, and the third material moving unit is matched with the packaging units.
5. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the repair mechanism comprises a repair frame mounted on the frame, a repair unit mounted on the repair frame and a repair table, wherein the repair unit is matched with the repair table, and the fourth material moving unit is matched with the repair table.
6. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the trimming mechanism comprises a cutter rest installed on the frame, a cutter driving unit and a cutter platform installed on the cutter rest, an upper cutter installed on the cutter driving unit and a lower cutter installed on the cutter platform, wherein the upper cutter and the lower cutter are arranged in an up-down matching mode, and the fifth material moving unit and the cutter platform are arranged in a matching mode.
7. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the weighing mechanism comprises a weighing frame, a weighing platform, a thickness detection driving unit and a thickness detection unit, wherein the weighing frame is arranged on the frame, the weighing platform is arranged on the weighing frame, the thickness detection driving unit is arranged on the thickness detection driving unit, the thickness detection unit is positioned above the weighing platform, and the sixth material moving unit is matched with the weighing platform.
8. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the edge cutting and folding mechanism comprises a cutting and folding frame arranged on the frame, a cutting and folding moving unit arranged on the cutting and folding frame, a cutting and folding fixing unit arranged on the cutting and folding frame in a sliding mode, a trimming unit and a folding unit arranged on the cutting and folding frame in a sliding mode, the cutting and folding moving unit is arranged in a matched mode with the cutting and folding fixing unit, and the seventh material moving unit is arranged in a matched mode with the discharging end of the cutting and folding moving unit.
9. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the hot edge code spraying mechanism comprises a hot edge code spraying frame mounted on the frame, a code spraying mobile unit mounted on the hot edge code spraying frame, a hot edge code spraying table mounted on the hot edge code spraying frame, a code spraying pressing module mounted on the code spraying mobile unit, and a hot pressing module, wherein the code spraying pressing module is matched with the hot edge code spraying table, and the eighth material moving unit is matched with the hot edge code spraying table.
10. The fully automatic two-wire processing device for lithium batteries according to claim 1, wherein: the receiving mechanism comprises a blanking frame arranged on the frame, a first blanking conveying unit, a second blanking conveying unit and a distributing unit, wherein the first blanking conveying unit and the second blanking conveying unit are arranged on the frame, the distributing unit is arranged on the blanking frame and moves back and forth between the first blanking conveying unit and the second blanking conveying unit, and the ninth material moving unit is matched with the first blanking conveying unit.
CN202321728066.3U 2023-07-04 2023-07-04 Full-automatic two line processing equipment that seal of lithium cell Active CN220272541U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321728066.3U CN220272541U (en) 2023-07-04 2023-07-04 Full-automatic two line processing equipment that seal of lithium cell

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321728066.3U CN220272541U (en) 2023-07-04 2023-07-04 Full-automatic two line processing equipment that seal of lithium cell

Publications (1)

Publication Number Publication Date
CN220272541U true CN220272541U (en) 2023-12-29

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Application Number Title Priority Date Filing Date
CN202321728066.3U Active CN220272541U (en) 2023-07-04 2023-07-04 Full-automatic two line processing equipment that seal of lithium cell

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