CN219575720U - High-speed thermal composite lamination device for multilayer material box - Google Patents

Abstract

The utility model relates to a multilayer material box high-speed thermal composite lamination device which comprises a conveying assembly, a lamination table and a material box assembly, wherein the two lamination tables are arranged on two sides of the conveying assembly, the material box assembly is arranged at one end of the conveying assembly, the conveying assembly conveys pole pieces, the material box assembly conveys the pole pieces to the lamination table for lamination, the material box assembly comprises a base, a first linear motor, a second linear motor and a material taking structure, the first linear motor drives the second linear motor to move, the second linear motor drives the material taking structure to move, and the material taking structure is provided with two materials. Above-mentioned high-speed thermal composite lamination device of multilayer magazine sets up two through the magazine subassembly and gets the material structure to correspond to set up two and fold the platform, make its one get the material structure and get when getting the material on conveying assembly, another get the material structure can be with pole piece material loading to fold the bench, thereby improve production efficiency, and can get the feed bin through setting up a plurality of, improve and get the quantity of material structure single transportation pole piece, further improve production efficiency.

Description

High-speed thermal composite lamination device for multilayer material box

Technical Field

The utility model relates to the technical field of lithium battery production, in particular to a high-speed thermal composite lamination device for a multilayer material box.

Background

In the manufacturing process of the lithium battery, after the pole piece is cut by die cutting, the pole piece is required to be conveyed to a lamination table for lamination through a main conveying belt conveyor and a shunt belt conveyor. Because the lug direction of the pole piece needs to translate and rotate 90 degrees when the pole piece is laminated after die cutting, a gantry grabbing mechanism or a four-axis robot is generally adopted to finish the action at present, the gantry grabbing mechanism or the four-axis robot grabs the pole piece on the main conveying belt machine and translates and rotates 90 degrees and then is placed on the split-flow belt machine, then the gantry grabbing mechanism or the four-axis robot returns to continue grabbing the pole piece, translating and rotating, the process is repeated, the structure of the gantry grabbing mechanism or the four-axis robot is complex, the size is large, the cost is high, the return stroke of the gantry grabbing mechanism or the four-axis robot is no-load stroke, the pole piece conveying efficiency is low, and the battery manufacturing cost and the transferring energy consumption are high.

Disclosure of Invention

The utility model mainly aims to provide a high-speed thermal composite lamination device for a multi-layer material box, so that the technical problems are solved, and the lamination efficiency can be improved.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high-speed thermal composite lamination device of multilayer magazine, includes conveying assembly, first folding platform, second folding platform and magazine subassembly, first folding platform with the second folding platform set up in conveying assembly's both sides, the magazine subassembly set up in conveying assembly's one end, conveying assembly carries the pole piece, the magazine subassembly with the pole piece transfer to first folding platform or the second folding platform carries out the lamination, the magazine subassembly is including base, first linear motor, second linear motor and get material structure, first linear motor install in the base both sides, first linear motor drive second linear motor removes, second linear motor drive get material structure removes, it is provided with two to get material structure.

As a preferable technical scheme, the material taking structure comprises a material taking bin, a material taking box and an extending cylinder, wherein a plurality of material taking bins and the extending cylinder are arranged on the material taking box, and the extending cylinder drives the material taking bin to move.

As a preferable technical scheme, the material taking bin comprises a vacuum pressing plate, a material placing plate and a material taking cylinder, wherein the material placing plate is fixedly arranged on the material taking box, and the material taking cylinder drives the vacuum pressing plate to move relative to the material placing plate.

The utility model has the beneficial effects that: above-mentioned high-speed thermal composite lamination device of multilayer magazine sets up two through the magazine subassembly and gets the material structure to correspond to set up two and fold the platform, make its one get the material structure and get the material on conveying assembly, another get the material structure can be with pole piece material loading to fold the bench, thereby improve production efficiency, and can get the feed bin through setting up a plurality of, improve and get the quantity of material structure single transportation pole piece, further improve production efficiency, in order to satisfy the demand of high-speed lamination.

Drawings

FIG. 1 is a front view of a multi-layer cartridge high speed thermal composite lamination device in accordance with the present utility model;

FIG. 2 is a side view of a multi-layer cartridge high speed thermal composite lamination device in accordance with the present utility model;

fig. 3 is a top view of a multi-layer cartridge high-speed thermal composite lamination device in accordance with the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, fig. 2 and fig. 3, a high-speed thermal composite lamination device for a multi-layer material box includes a conveying component 1, a first stacking table 3, a second stacking table 4 and a material box component 2, the first stacking table 3 and the second stacking table 4 are disposed on two sides of the conveying component 1, the material box component 2 is disposed at one end of the conveying component 1, the conveying component 1 conveys a pole piece a, the material box component 2 includes a base 21, a first linear motor 22, a second linear motor 23, a first material taking structure 24 and a second material taking structure 25, the first linear motor 22 is mounted on two sides of the base 21, the first linear motor 22 drives the second linear motor 23 to move, the second linear motor 23 drives the first material taking structure 24 and the second material taking structure 25 to move, when material is required, the first material taking structure 24 aligns with the conveying component 1, the second stacking table 25 aligns with the second stacking table 4, the first structure 24 drives the plurality of pole pieces a to be received on the conveying component 1, the second linear motor 22 drives the second material taking structure 23 to move with the first material taking structure 25, and then the first material taking structure 24 aligns with the first material taking structure 25 a, and the second material taking structure is placed on the first material taking structure 3 a, and the first material taking structure is driven to move synchronously.

Specifically, the material taking structure 24 includes a material taking bin 243, a material taking box 241 and an extending cylinder 242, where the material taking bins 243 and the extending cylinder 242 are disposed on the material taking box 241, the extending cylinder 242 drives the material taking bins 243 to move, and the material taking bins 243 can be extended. The material taking bin 243 comprises a vacuum pressing plate 244, a material placing plate 245 and a material taking cylinder 246, wherein the material placing plate 245 is fixedly arranged on the material taking box 241, and the material taking cylinder 246 drives the vacuum pressing plate 244 to move relative to the material placing plate 245.

In the high-speed thermal composite lamination device for the multi-layer material box, when the high-speed thermal composite lamination device is used, the second linear motor 23 drives the first material taking structure 24 and the second material taking structure 25 to synchronously move, at the moment, the first material taking structure 24 is aligned with the conveying assembly 1, the second material taking structure 25 is aligned with the second stacking table 4, the extending cylinder 242 of the first material taking structure 24 drives the four material taking bins 243 to move so that the edge of the lowest Fang Quliao bin 243 is close to the conveying assembly 1, the material taking cylinder 246 drives the vacuum pressing plate 244 to be far away from the material placing plate 245, the material taking cylinder 246 drives the vacuum pressing plate 244 to extend out of the conveying assembly 1 to adsorb the pole piece a, then the material taking cylinder 246 drives the vacuum pressing plate 244 to reset, the vacuum pressing plate 244 stops adsorbing the pole piece a, the pole piece a is placed on the material placing plate 245, the stretching cylinder 242 of the second material taking mechanism 24 drives the four material taking bins 243 to move, the edge of the lowest Fang Quliao bin 243 is close to the second stacking table 4, the vacuum pressing plate 244 adsorbs the pole piece a, the material taking cylinder 246 drives the vacuum pressing plate 244 to stretch out of the second stacking table 4 to place the pole piece a, then the material taking cylinder 246 drives the vacuum pressing plate 244 to reset, and then the first linear motor 22 drives the second linear motor 23 to longitudinally move so as to drive the lower second material taking bins 243 of the first material taking structure 24 and the second material taking structure 25 to be aligned with the conveying assembly 1 and the second stacking table 4 respectively, the steps are repeated, the material taking bins 243 on the first material taking structure 24 are placed to be full of the pole piece a, and the pole pieces a of the material taking bins 243 on the second material taking structure 25 are stacked on the second stacking table 4;

when the first take out structure 24 completes taking out and the second take out structure 25 completes discharging,

the second linear motor 23 drives the first material taking structure 24 and the second material taking structure 25 to synchronously move, at this time, the first material taking structure 24 is aligned with the first stacking table 3, the second material taking structure 25 is aligned with the conveying assembly 1, the extending cylinder 242 of the second material taking structure 25 drives the four material taking bins 243 to move, the edge of the lowermost Fang Quliao bin 243 is close to the conveying assembly 1, the material taking cylinder 246 drives the vacuum pressing plate 244 to be far away from the material placing plate 245, the material taking cylinder 246 drives the vacuum pressing plate 244 to extend out of the conveying assembly 1 to adsorb the pole piece a, then the material taking cylinder 246 drives the vacuum pressing plate 244 to reset, the vacuum pressing plate 244 stops adsorbing the pole piece a to place the pole piece a on the material placing plate 245, the extending cylinder 242 of the first material taking structure 24 drives the four material taking bins 243 to move, the edge of the lowest Fang Quliao bin 243 is close to the first stacking table 3, the vacuum pressing plate 244 adsorbs the pole piece a, the material taking cylinder 246 drives the vacuum pressing plate 244 to extend out of the first stacking table 3 to place the pole piece a, then the material taking cylinder 246 drives the vacuum pressing plate 244 to reset, then the first linear motor 22 drives the second linear motor 23 to longitudinally move so as to drive the first material taking structure 24 and the next second material taking bin 243 of the second material taking structure 25 to be aligned with the first stacking table 3 and the conveying assembly 1 respectively, the steps are repeated, the material taking bin 243 on the second material taking structure 25 is placed to be full of the pole piece a, and the pole piece a of the material taking bin 243 on the first material taking structure 24 is stacked on the first stacking table 3, and at this time, the taking and placing of the pole piece a are completed.

The above embodiments are only preferred examples of the present utility model and are not intended to limit the scope of the present utility model, so that all equivalent changes or modifications of the structure, characteristics and principles described in the claims are included in the scope of the present utility model.

Claims (3)

1. The utility model provides a high-speed thermal composite lamination device of multilayer magazine, its characterized in that, including conveying assembly, first folding platform, second folding platform and magazine subassembly, first folding platform with the second folding platform set up in conveying assembly's both sides, the magazine subassembly set up in conveying assembly's one end, conveying assembly carries the pole piece, the magazine subassembly with the pole piece transfer to first folding platform or the second folding platform carries out the lamination, the magazine subassembly is including base, first linear motor, second linear motor and get material structure, first linear motor install in the base both sides, first linear motor drive second linear motor removes, second linear motor drive get material structure removes, it is provided with two to get material structure.

2. The high-speed thermal composite lamination device for a multi-layer material box according to claim 1, wherein the material taking structure comprises a material taking bin, a material taking box and an extending cylinder, a plurality of material taking bins and the extending cylinder are arranged on the material taking box, and the extending cylinder drives the material taking bin to move.

3. The high-speed thermal composite lamination device of a multilayer magazine according to claim 2, wherein the material taking bin comprises a vacuum pressing plate, a material placing plate and a material taking cylinder, the material placing plate is fixedly arranged on the material taking magazine, and the material taking cylinder drives the vacuum pressing plate to move relative to the material placing plate.