CN215588177U - Laser film-making device - Google Patents

Abstract

The application relates to the technical field of laser cutting, in particular to a laser sheet-making device, a first conveying assembly, a transfer mechanism, a positioning mechanism, a laser cutting assembly and a detection assembly are arranged on a pole piece conveying path, the transfer mechanism at least comprises two groups, the transfer mechanism is used for clamping a pole piece and is matched with the first conveying assembly to transfer the pole piece, the positioning mechanism is used for clamping and fixing the pole piece, the detection assembly is used for positioning the pole piece, the laser cutting assembly at least comprises two groups which are respectively arranged on the positions corresponding to the transfer mechanism, after the pole piece is clamped and fixed by the transfer mechanism and the positioning mechanism, a substrate of the pole piece and a coating layer on the upper surface and the lower surface of the substrate are sequentially cut by the multiple groups of laser cutting assemblies, burrs after the pole piece is cut are greatly reduced, a large amount of dust is prevented from being generated in the process of cutting the pole piece, the forming quality of the pole piece cutting is ensured, and the cutting efficiency is improved, the production cost is reduced.

Description

Laser film-making device

Technical Field

The application relates to the technical field of laser cutting, in particular to laser film-making device.

Background

In the production process of the lithium battery, battery pole piece cutting is an extremely important process, and only after the coiled battery pole piece is cut, the lamination action can be carried out. The anode substrate of the lithium ion battery pole piece widely adopted in the industrial market at present is an aluminum foil, and the cathode substrate is a copper foil. The aluminum foil and the copper foil base material have certain thickness, and coating layers are coated on the upper surface and the lower surface of the base material.

In the existing laser cutting process of the lithium ion battery pole piece, the base material of the pole piece and the coating layers on the upper surface and the lower surface of the base material are generally required to be cut. When the traditional pole piece cutting adopts modes such as cutting die punching, cutting die roller cutting and the like to directly cut the base material and the coating layer of the pole piece, a large amount of dust can be generated in the process of laser cutting of the pole piece, burrs of the cut pole piece are more, and the problems that the model changing is difficult, the production and maintenance cost is high, the labor is consumed in the die maintenance and the like exist in the cutting mode.

For improving cutting efficiency, the existing pole piece laser cutting usually adopts nanosecond laser equipment alone to cut the whole pole piece once, however, the nanosecond laser equipment has the problems of many burrs after cutting and poor cutting quality, and the ultrafast laser equipment cutting has the problems of low cutting efficiency and high production cost.

SUMMERY OF THE UTILITY MODEL

In order to solve one of the above technical problems, the present application provides a laser sheet-making device for cutting a base material and a coating layer of a pole piece, comprising a first conveying assembly for conveying the pole piece, and at least two sets of conveying mechanisms arranged on a pole piece conveying path for conveying the pole piece; the positioning mechanisms are used for clamping and fixing the pole pieces; and at least one group of laser cutting assemblies corresponding to the transfer mechanism sequentially cuts the base material and the coating layer of the pole piece. The base material of pole piece and the coating layer of base material upper and lower face are cut through multiunit laser cutting subassembly in proper order, and the burr after the pole piece cutting that significantly reduces avoids cutting the in-process of pole piece and produces a large amount of dusts, ensures the shaping quality of pole piece cutting, realizes improving cutting efficiency, reduces manufacturing cost.

Preferably, the positioning mechanism and the transfer mechanism are alternately arranged in a staggered manner along the pole piece conveying direction, so that the pole pieces are stably clamped, the deviation of the pole pieces in the cutting process is prevented, and the pole pieces are accurately cut.

Preferably, the laser cutting assemblies comprise three groups, and at least one group of laser cutting assemblies is arranged on one corresponding side of the upper surface and one corresponding side of the lower surface of each pole piece. And then cut the upper coating layer of substrate, the lower coating layer of substrate and substrate respectively through three laser cutting subassemblies in proper order, when guaranteeing cutting efficiency, improve the shaping quality of pole piece cutting.

Preferably, the laser cutting assemblies comprise two groups, and the two groups of laser cutting assemblies face the upper surface or the lower surface of the pole piece.

Preferably, the transfer mechanism comprises a clamping assembly for clamping the pole piece and a second conveying assembly for driving the clamping assembly to transfer the pole piece. After the clamping assembly clamps the upper surface and the lower surface of the pole piece, the clamping assembly is driven to move through the second conveying assembly, and the pole piece is accurately transferred to the corresponding laser cutting assembly to be cut by matching with the first conveying assembly.

Preferably, the clamping assembly comprises a first mounting plate fixed on the second conveying assembly, and a first clamping plate and a first bearing plate which are arranged on the mounting plate and clamped on the pole piece, wherein a clearance groove for laser to pass through is formed in the first bearing plate. The clamping assembly has the function of clamping the pole piece, so that the pole piece cannot shake in the cutting process, and the cutting quality is ensured.

Preferably, a vertical plate is fixed on the first mounting plate, the first clamping plate and/or the first bearing plate are/is arranged on the vertical plate in a lifting manner, and a first driving assembly for driving the first clamping plate to be pressed on the first bearing plate is arranged on the vertical plate. The vertical plate is provided with a first driving assembly for driving the first clamping plate to press down on the first bearing plate, and the first clamping plate is driven by the first driving assembly to clamp the pole piece.

Preferably, the first bearing plate is provided with an adsorption hole for adsorbing the pole piece. The pole piece is attached to the first bearing plate through the adsorption hole, so that the position of the pole piece is prevented from being deviated, and the cutting accuracy is improved.

Preferably, positioning mechanism is including the locating component that is used for the fixed pole piece of centre gripping and drive the third transport assembly that locating component removed fixes a position and fixes the pole piece through locating component, ensures that the pole piece can not rock in the cutting process, guarantees the cutting quality.

Preferably, the positioning assembly comprises a second mounting plate fixed to the third conveying assembly, a second bearing plate and a second clamping plate, the second bearing plate and the second clamping plate are arranged on the second mounting plate, and a second driving assembly for driving the second clamping plate to be pressed on the second bearing plate is arranged on the second mounting plate. The second clamping plate is driven to press down on the second bearing plate through the second driving assembly, so that the pole piece is fixed, the accuracy of the position of the pole piece in the pole piece cutting process is improved, and the pole piece forming quality is improved.

Preferably, the device further comprises at least one group of detection components for detecting the positioning of the pole piece.

Compared with the prior art, the beneficial effects of this application are: this application is through setting up transfer mechanism on pole piece transport path, positioning mechanism, laser cutting subassembly and determine module, transfer mechanism includes two sets ofly at least, transfer mechanism is used for the centre gripping pole piece and cooperates first transfer assembly to transfer the pole piece, be used for centre gripping and fixed pole piece at positioning mechanism, determine module is with fixing a position the pole piece, laser cutting subassembly includes two sets ofly at least, set up respectively on the position corresponding to transfer mechanism, behind transfer mechanism and the fixed pole piece of positioning mechanism centre gripping, the coating layer of the substrate and the substrate top and bottom of pole piece is cut in proper order through multiunit laser cutting subassembly, the burr after the pole piece cutting that significantly reduces, avoid cutting the in-process of pole piece to produce a large amount of dust, ensure the shaping quality of pole piece cutting, realize improving cutting efficiency, reduce manufacturing cost.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments of the present application or the prior art will be briefly described below. It should be apparent that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained by those skilled in the art without inventive exercise.

FIG. 1 is a schematic structural diagram of a laser flaking device according to an embodiment of the present application;

FIG. 2 is a view showing a structure of a clamping assembly of the laser film-making apparatus according to the embodiment of the present application;

FIG. 3 is a schematic view of a clamping assembly of the laser production device according to an embodiment of the present application;

fig. 4 is a view showing a positioning mechanism of the laser sheet producing apparatus according to the embodiment of the present application.

Reference numerals

10. A first transfer assembly; 20. a transfer mechanism; 21. a clamping assembly; 211. a first mounting plate; 212. a first splint; 213. a first bearing plate; 214. a vertical plate; 215. a first cylinder; 216. a first drive assembly; 217. a first cylinder; 218. an empty avoiding groove; 22. a second transfer assembly; 30. a positioning mechanism; 31. a third transfer assembly; 32. a positioning assembly; 321. a second mounting plate; 322. a second splint; 323. a second carrier plate; 324. a second vertical plate; 325. a positioning assembly second cylinder; 326. a second drive assembly; 40. a laser cutting assembly; 50. and a detection component.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the application. That is, in some embodiments of the present application, such practical details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indications such as up, down, left, right, front and rear … … in the embodiment of the present application are only used to explain the relative positional relationship, movement, etc. between the components in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indication is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in this application are for descriptive purposes only, not specifically referring to the order or sequence, nor are they intended to limit the application, but merely to distinguish components or operations described in the same technical terms, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

For a further understanding of the present disclosure, features and advantages, reference is made to the following examples, which are set forth in the accompanying drawings and the description:

example 1

In order to solve the above technical problem, the present embodiment provides a laser sheet making device, which is used for cutting a substrate of a pole piece and a coating layer on and under the substrate, as shown in fig. 1, and includes a first conveying assembly 10 for conveying the pole piece, a transfer mechanism 20 disposed on a pole piece conveying path, a positioning mechanism 30, a laser cutting assembly 40, and a detection assembly 50, where the transfer mechanism 20 includes at least two groups, the transfer mechanism 20 is used for clamping the pole piece and transferring the pole piece in cooperation with the first conveying assembly 10, the positioning mechanism 30 is used for clamping and fixing the pole piece, and the positioning mechanism 30 and the transfer mechanism 20 are alternately staggered along a pole piece conveying direction, the detection assembly 50 is used for positioning the pole piece, the laser cutting assemblies 40 includes at least two groups, and are respectively disposed at positions corresponding to the transfer mechanism 20, after the transfer mechanism 20 and the positioning mechanism 30 clamp and fix the pole piece, the substrate of the pole piece and the coating layer on and under the substrate are sequentially cut by the groups of laser cutting assemblies 40, the burr after the greatly reduced pole piece cutting avoids the in-process of cutting the pole piece to produce a large amount of dust, ensures the shaping quality of pole piece cutting, realizes improving cutting efficiency, reduces manufacturing cost.

Specifically, laser cutting subassembly 40 includes three groups, and the upper surface of pole piece and the corresponding one side of lower surface are provided with at least a set of laser cutting subassembly 40 respectively, can, the laser cutting subassembly 40 of first group cuts the overcoat layer of substrate, the laser cutting subassembly 40 of rethread second group cuts the under-coating layer of substrate, the laser cutting subassembly 40 by the third group cuts the substrate at last, wherein, the laser cutting subassembly 40 of first group can be nanosecond laser cutting equipment, the laser cutting subassembly 40 of second group and third group can be ultrafast laser cutting equipment, and then cut the overcoat layer of substrate in proper order through three laser cutting subassemblies 40, the under-coating layer and the substrate of substrate cut respectively, when guaranteeing cutting efficiency, improve the shaping quality of pole piece cutting.

Wherein, after the coating layer of preceding a set of laser cutting subassembly 40 to the substrate is cut, need fix a position the cutting point to accurately cut on the position that corresponds to a set of laser cutting subassembly 40 of back, for this reason, lie in being provided with two sets of detection assembly 50 between three sets of laser cutting subassemblies 40 on the pole piece conveying path, detection assembly 50 shoots the image through the camera and realizes visual positioning, ensures that the laser cutting subassembly 40 of back can accurately cut the pole piece, further improves pole piece shaping quality.

In order to clamp and transfer the pole piece, the transfer mechanism 20 includes a clamping assembly 21 for clamping the pole piece, and a second conveying assembly 22 for driving the clamping assembly 21 to transfer the pole piece. The centre gripping subassembly 21 is fixed on second conveying subassembly 22, behind the upper and lower face of centre gripping subassembly 21 centre gripping pole piece, remove through second conveying subassembly 22 drive centre gripping subassembly 21, second conveying subassembly 22 can be the slip table cylinder, cooperates first conveying subassembly 10 to realize accurately transferring the pole piece to corresponding laser cutting subassembly 40 and cuts, and centre gripping subassembly 21 has the effect of pressing from both sides tight pole piece simultaneously, ensures that the pole piece can not rock in the cutting process, guarantees the cutting quality.

Specifically, as shown in fig. 2-3, the clamping assembly 21 includes a first mounting plate 211 fixed to the second transmission assembly 22, and a first clamping plate 212 and a first carrier plate 213 disposed on the mounting plate 211 and clamped to the pole piece, wherein a clearance groove 218 is formed on the first carrier plate 213 for the laser to pass through. The first clamping plate 212 and the first bearing plate 213 are disposed on the first mounting plate 211, the first bearing plate 213 is supported on the lower surface of the pole piece, the first clamping plate 212 is pressed on the upper surface of the pole piece on the first bearing plate 213, so as to clamp the pole piece, the second conveying assembly 22 drives the first mounting plate 211 to move, and the pole piece is transferred.

Furthermore, a vertical plate 214 is fixed on the first mounting plate 211, and the first clamping plate 212 and/or the first bearing plate 213 are vertically arranged on the vertical plate 214. Optionally, the first supporting plate 213 is fixedly disposed on the vertical plate 214, the first clamping plate 212 is disposed on the vertical plate 214 through a sliding rail and sliding block structure, the vertical plate 214 is disposed with a first driving assembly 216 for driving the first clamping plate 212 to press down the first supporting plate 213, and the first driving assembly 216 is a driving cylinder and drives the first clamping plate 212 to clamp the pole piece through the first driving assembly 216.

Furthermore, in order to realize that the height of the first bearing plate 213 is adjusted to support the lower surface of the pole piece, the first bearing plate 213 is disposed on the vertical plate 214 through the sliding rail and slider structure, the vertical plate 214 is provided with the first cylinder 215 for driving the first bearing plate 213 to ascend and descend, and further the height of the first bearing plate 213 is adjusted, so that the first bearing plate 213 is supported on the lower surface of the pole piece, the first clamping plate 212 is located above the first bearing plate 213, the first clamping plate 212 is driven by the first driving assembly 216 to press down on the upper surface of the pole piece, and the pole piece is clamped.

In order to attach the pole piece to the first bearing plate 213, the first bearing plate 213 has an absorption hole 217, and the pole piece is attached to the first bearing plate 213 through the absorption hole 217, so that the position of the pole piece is prevented from shifting, and the cutting accuracy is improved. The first carrier plate 213 has a clearance groove 218 formed thereon for laser to pass through, so as to avoid the influence on the first carrier plate 213 when the pole piece is cut by the laser.

In order to ensure the accuracy of the pole piece position during the pole piece cutting process, the pole piece is positioned and fixed by a positioning mechanism 30 during the pole piece cutting process, as shown in fig. 4, the positioning mechanism 30 comprises a positioning assembly 32 for clamping and fixing the pole piece, and a third conveying assembly 31 for driving the positioning assembly 32 to move. The positioning assembly 32 includes a second mounting plate 321 fixed on the third conveying assembly 31, a second bearing plate 323 and a second clamping plate 322 disposed on the second mounting plate 321, the second bearing plate 323 and the second clamping plate 322 are disposed on the second vertical plate 324 in a liftable manner, the second bearing plate 323 is driven to ascend and descend by a second cylinder 325, so as to adjust the height of the second bearing plate 323, a second driving assembly 326 for driving the second clamping plate 322 to press on the second bearing plate 323 is disposed on the second mounting plate 321, the second driving assembly 326 is a cylinder, the second clamping plate 322 is driven by the second driving assembly 326 to press on the second bearing plate 323, so as to fix the pole piece, meanwhile, an adsorption hole is also disposed on the second bearing plate 323, so as to further fix the pole piece, ensure the accuracy of the position of the pole piece, and improve the cutting and forming quality.

Example 2

The embodiment provides a laser sheet-making device, also include the first conveying assembly 10 used for conveying the pole piece, and set up the transfer mechanism 20 on the pole piece conveying route, the positioning mechanism 30, laser cutting assembly 40 and detection assembly 50, the transfer mechanism 20 includes two sets at least, the transfer mechanism 20 is used for grasping the pole piece and cooperating with the first conveying assembly 10 to transfer the pole piece, use for grasping and fixing the pole piece at the positioning mechanism 30, the detection assembly 50 is used for positioning the pole piece, the laser cutting assembly 40 includes two sets at least, set up on the position corresponding to the transfer mechanism 20 respectively, after the positioning mechanism 30 grasps and fixes the pole piece, the substrate of the pole piece and the upper and lower coating of the substrate are cut sequentially through the multiple sets of laser cutting assemblies 40, the burr after the pole piece cutting is greatly reduced, avoid producing a large amount of dust in the process of cutting the pole piece, ensure the shaping quality of the pole piece cutting, the cutting efficiency is improved, and the production cost is reduced.

Different from embodiment 1, the laser cutting assemblies 40 of the present embodiment include two sets, and the two sets of laser cutting assemblies 40 face the upper surface or the lower surface of the pole piece. Wherein, first group laser cutting subassembly 40 can be nanosecond laser cutting equipment, second group laser cutting subassembly 40 can be ultrafast laser cutting equipment, to the substrate of thickness thinner, the laser cutting subassembly 40 of first group cuts the back to the overcoat layer of substrate, the laser cutting subassembly 40 of second group cuts substrate and lower coat layer simultaneously again, through the overcoat layer cutting of earlier substrate, holistic cutting thickness can be reduced, the laser cutting subassembly 40 of rethread second group cuts substrate and lower coat layer, to the substrate of thickness thinner, also guaranteed cutting efficiency when guaranteeing the cutting quality, compare in embodiment 1 can save a set of laser cutting subassembly 40. In actual production, two groups of different cutting modes are selected according to the thickness of the base material, and the cutting efficiency and the cutting quality are guaranteed simultaneously.

In summary, in one or more embodiments of the present application, a transfer mechanism, a positioning mechanism, a laser cutting assembly and a detection assembly are disposed on a pole piece conveying path, the transfer mechanism includes at least two sets, the transfer mechanism is used for clamping a pole piece and transferring the pole piece in cooperation with a first transfer assembly, the positioning mechanism is used for clamping and fixing the pole piece, the detection assembly is used for positioning the pole piece, the laser cutting assembly comprises at least two groups which are respectively arranged at the position corresponding to the transfer mechanism, after the transfer mechanism and the positioning mechanism clamp and fix the pole piece, the base material of pole piece and the coating layer of base material upper and lower face are cut through multiunit laser cutting subassembly in proper order, and the burr after the pole piece cutting that significantly reduces avoids cutting the in-process of pole piece and produces a large amount of dusts, ensures the shaping quality of pole piece cutting, realizes improving cutting efficiency, reduces manufacturing cost.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (11)

1. The utility model provides a laser film-making device for the substrate and the coating of cutting pole piece, its characterized in that: comprises a first transmission component (10) for transmitting the pole piece and a first transmission component arranged on the pole piece transmission path

At least two groups of transfer mechanisms (20) for transferring the pole pieces;

at least one group of positioning mechanisms (30) for clamping and fixing the pole pieces;

and at least one group of laser cutting assemblies (40) corresponding to the transfer mechanism (20) and used for sequentially cutting the base material and the coating layer of the pole piece.

2. The laser tableting apparatus according to claim 1, wherein: the positioning mechanism (30) and the transfer mechanism (20) are alternately arranged in a staggered manner along the pole piece conveying direction.

3. The laser tableting apparatus according to claim 1, wherein: the laser cutting assemblies (40) comprise three groups, and at least one group of laser cutting assemblies (40) are respectively arranged on one corresponding side of the upper surface and the lower surface of each pole piece.

4. The laser tableting apparatus according to claim 1, wherein: the laser cutting assemblies (40) comprise two groups, and the two groups of laser cutting assemblies (40) face the upper surface or the lower surface of the pole piece.

5. The laser tableting apparatus according to claim 1, wherein: the transfer mechanism (20) comprises a clamping assembly (21) for clamping the pole piece and a second conveying assembly (22) for driving the clamping assembly (21) to transfer the pole piece.

6. The laser tableting apparatus according to claim 5, wherein: the clamping assembly (21) comprises a first mounting plate (211) fixed on the second conveying assembly (22), a first clamping plate (212) and a first bearing plate (213), wherein the first clamping plate (212) and the first bearing plate (213) are arranged on the mounting plate (211) and clamped on the pole piece, and a clearance groove (218) for laser to pass through is formed in the first bearing plate (213).

7. The laser tableting apparatus according to claim 6, wherein: a vertical plate (214) is fixed on the first mounting plate (211), the first clamping plate (212) and/or the first bearing plate (213) are arranged on the vertical plate (214) in a lifting manner, and a first driving assembly (216) for driving the first clamping plate (212) to be pressed on the first bearing plate (213) is arranged on the vertical plate (214).

8. The laser tableting apparatus according to claim 6, wherein: and the first bearing plate (213) is provided with an adsorption hole (217) for adsorbing the pole piece.

9. The laser tableting apparatus according to claim 1, wherein: the positioning mechanism (30) comprises a positioning assembly (32) for clamping and fixing the pole piece and a third conveying assembly (31) for driving the positioning assembly (32) to move.

10. The laser tableting apparatus of claim 9, wherein: the positioning assembly (32) comprises a second mounting plate (321) fixed on the third conveying assembly (31), a second bearing plate (323) and a second clamping plate (322) arranged on the second mounting plate (321), and a second driving assembly (326) for driving the second clamping plate (322) to be pressed on the second bearing plate (323) is arranged on the second mounting plate (321).

11. The laser tableting apparatus according to claim 1, wherein: the device also comprises at least one group of detection components (50) for detecting the positioning of the pole piece.

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