CN214350335U

CN214350335U - Laser cutting and slitting integrated machine

Info

Publication number: CN214350335U
Application number: CN202120011856.4U
Authority: CN
Inventors: 严海宏; 黄胜武; 李华杰; 高佛清; 范全
Original assignee: Dongguan Yakang Precision Machinery Co Ltd
Current assignee: Dongguan Yakang Precision Machinery Co Ltd
Priority date: 2021-01-05
Filing date: 2021-01-05
Publication date: 2021-10-08
Anticipated expiration: 2031-01-05

Abstract

The utility model discloses a laser cutting and slitting integrated machine, which comprises an unreeling turret, a tape splicing platform, a transition platform, a tape cutting platform, a laser platform, a dust removal detection platform, a slitting knife rest, a dust removal marking platform, a first rolling turret and a second rolling turret from one end to the other end in sequence; an unreeling automatic tape splicing assembly is arranged on the tape splicing platform; the transition platform is provided with an unreeling tension assembly; a reinforcing rib assembly and a rubber belt cutting assembly are arranged on the rubber belt cutting platform; the laser platform is provided with a main driving assembly, an upper laser assembly and a lower laser assembly; the dust removal detection platform is provided with an air knife dust removal assembly, a tab detection device and an auxiliary driving assembly; the dust removal marking platform is provided with a hairbrush dust removal assembly, an iron removal device and a marking machine. The utility model can simultaneously produce a plurality of pole piece lugs for cutting and processing; pre-cutting equipment can be saved, and the purchasing cost of an enterprise is reduced; the multifunctional device can realize multiple purposes; and the equipment occupies small area, has high production efficiency, and greatly improves the production efficiency of enterprises and the production quality of products.

Description

Laser cutting and slitting integrated machine

Technical Field

The utility model relates to a battery production automation, concretely relates to laser cutting divides strip all-in-one.

Background

The battery is composed of positive and negative pole pieces, and the pole pieces can realize charging and discharging only by cutting the pole lugs to form the positive and negative poles of the battery.

There are two types of pole piece tab cutting methods on the market at present:

1. the tab is punched by the die, so that the process has short service life of the die, high burr of the tab, serious powder falling of the cross section and low equipment productivity;

2. the two sides of the pole piece are cut by laser, the process is the mainstream production process for processing the pole lug at present, but only a single pole piece cutting pole lug can be produced.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a novel laser cutting divides strip all-in-one.

The technical scheme of the utility model as follows:

a laser cutting and slitting integrated machine comprises a machine table, wherein an unwinding turret, a tape splicing platform, a transition platform, a tape cutting platform, a laser platform, a dust removal detection platform, a slitting knife rest, a dust removal marking platform, a first winding turret and a second winding turret are sequentially arranged on the machine table from one end to the other end;

an automatic unreeling tape splicing assembly is arranged on the tape splicing platform and is close to the unreeling turret;

the transition platform is provided with an unreeling tension assembly, and the unreeling tension assembly and the unreeling automatic tape splicing assembly are driven by a plurality of reel wheels;

the adhesive tape cutting platform is provided with a reinforcing rib assembly and an adhesive tape cutting assembly, the input end of the reinforcing rib assembly and the unreeling tension assembly are in transmission through a reel, and the adhesive tape cutting assembly is positioned at the output end of the reinforcing rib assembly;

the laser platform is provided with a main driving assembly, an upper laser assembly and a lower laser assembly, the input end of the main driving assembly and the rubber belt cutting assembly are in transmission through a plurality of winding wheels, the output end of the main driving assembly and the input end of the upper laser assembly are in transmission through a tension roller, and the first output end of the upper laser assembly and the input end of the lower laser assembly are in transmission through the tension roller;

the dust removal detection platform is provided with a first air knife dust removal component, a second air knife dust removal component, a first tab detection device, a second tab detection device, a first auxiliary driving component and a second auxiliary driving component, the input end of the first air knife dust removal component and the second output end of the upper laser component are driven by a tension roller, the output end of the first air knife dust removal component and the input end of the first auxiliary driving component are in transmission through a winding wheel, the first tab detection device is positioned at one side of the transmission line of the first air knife dust removal component, the input end of the second air knife dust removal component and the output end of the lower laser component are driven by a tension roller, the output end of the second air knife dust removal assembly and the input end of the second auxiliary driving assembly are in transmission through a winding wheel, and the second lug detection device is positioned on one side of a transmission line of the second air knife dust removal assembly;

the input end of the slitting knife rest is respectively in transmission with the output end of the first auxiliary driving assembly and the output end of the second auxiliary driving assembly through a tension roller and a winding wheel;

the dust removal marking platform is provided with a first hairbrush dust removal assembly, a second hairbrush dust removal assembly, a first iron removal device, a second iron removal device, a first marking machine and a second marking machine, wherein the input end of the first hairbrush dust removal assembly and the first output end of the slitting knife rest are in transmission through a tension roller and a winding wheel, the output end of the first hairbrush dust removal assembly and the first winding rotating tower are in transmission through a tension roller and a plurality of winding wheels, the first winding rotating tower is provided with a first winding automatic belt connecting assembly, the first iron removal device and the first marking machine are sequentially positioned on a transmission line between the first hairbrush dust removal assembly and the first winding rotating tower, the input end of the second hairbrush dust removal assembly and the second output end of the slitting knife rest are in transmission through a tension roller and a winding wheel, the output end of the second hairbrush dust removal assembly and the second winding rotating tower are in transmission through a tension roller and a plurality of winding wheels, and a second winding automatic belt connecting component is arranged on the second winding turret, and the second iron removing device and the second marking machine are sequentially positioned on a transmission line between the second brush dust removal component and the second winding turret.

Furthermore, the unwinding turret comprises a first unwinding wheel and a second unwinding wheel, the automatic unwinding belt splicing assembly is close to the second unwinding wheel, and the first unwinding wheel and the automatic unwinding belt splicing assembly are in transmission through a winding wheel; the first winding turret comprises a first winding wheel and a second winding wheel, the first winding wheel and the second winding wheel are driven by the winding wheels, the first winding wheel is provided with the first winding automatic belt receiving assembly, and the second winding wheel is provided with a first material pushing mechanism; the second winding turret comprises a third winding wheel and a fourth winding wheel, the third winding wheel and the fourth winding wheel are driven by the winding wheels, the third winding wheel is provided with the second winding automatic belt receiving assembly, and the fourth winding wheel is provided with a second material pushing mechanism.

Furthermore, still be provided with first kraft paper on the splicing platform, the output of first kraft paper with unreel tension assembly and unreel the reel connection between the automatic splicing assembly.

Furthermore, an unwinding deviation correcting device is further arranged on the transition platform and is located on a transmission line between the unwinding automatic belt splicing assembly and the unwinding tension assembly.

Further, a second-stage deviation rectifying device is further arranged on the tape cutting platform and is positioned on a transmission line between the tape cutting assembly and the main driving assembly.

Furthermore, a length measuring device is further arranged on the laser platform and is positioned on a transmission line between the main driving assembly and the upper laser assembly.

Further, a first front flaw detection device and a second front flaw detection device are further arranged on the dust removal detection platform, the first front flaw detection device is located on one side of a transmission line between the upper laser assembly and the first air knife dust removal assembly, and the second front flaw detection device is located on one side of a transmission line between the lower laser assembly and the second air knife dust removal assembly.

Further, still be provided with the second kraft paper on the dust removal testing platform, the first output of second kraft paper is connected with the tension roller between last laser subassembly and the first air knife dust removal subassembly, the second output of second kraft paper is connected with the tension roller between lower laser subassembly and the second air knife dust removal subassembly.

Furthermore, a first slitting deviation correcting device and a second slitting deviation correcting device are further arranged on the dust removal detection platform, the first slitting deviation correcting device is located on a transmission line between the first auxiliary driving assembly and the slitting knife rest, and the second slitting deviation correcting device is located on a transmission line between the second auxiliary driving assembly and the slitting knife rest.

Further, still be provided with first branch on the dust removal marking platform and survey wide and reverse side flaw detection device and second branch and survey wide and reverse side flaw detection device, first branch is surveyed wide and reverse side flaw detection device and is located one side of transmission route between branch knife rest and the first brush dust removal subassembly, the second divides the strip to survey wide and reverse side flaw detection device and is located one side of transmission route between branch knife rest and the second brush dust removal subassembly.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the cutting processing technology can be used for simultaneously producing a plurality of pole piece tabs;

2. the battery production process analysis can save pre-cutting equipment and reduce the purchasing cost of enterprises;

3. the strong integration technology ensures that the equipment is compatible with the battery pole piece in a wide range and has multiple functions;

4. the equipment has small floor area and high production efficiency, and greatly improves the production efficiency of enterprises and the production quality of products.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a laser cutting and slitting integrated machine provided by the present invention;

FIG. 2 is a schematic structural view of portion A of FIG. 1;

FIG. 3 is a schematic structural diagram of portion B of FIG. 1;

FIG. 4 is a schematic structural view of portion C of FIG. 1;

fig. 5 is the utility model provides a product processing process flow chart of laser cutting slitting all-in-one machine.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to explain the technical solution of the present invention, the following description is made by using specific examples.

Examples

Referring to fig. 1 to 4, the embodiment provides a laser cutting and slitting integrated machine, which includes a machine table 10, and an unwinding turret 20, a tape splicing platform 30, a transition platform 40, a tape cutting platform 50, a laser platform 60, a dust removal detection platform 70, a slitting knife rest 80, a dust removal marking platform 90, a first winding turret 100 and a second winding turret 110 are sequentially disposed on the machine table 10 from one end to the other end.

The unwinding turret 20 includes a first unwinding wheel 21 and a second unwinding wheel 22.

An unreeling automatic tape splicing assembly 31 and first kraft paper 32 are arranged on the tape splicing platform 30, the unreeling automatic tape splicing assembly 31 is close to the second unreeling wheel 22, and the first unreeling wheel 21 and the unreeling automatic tape splicing assembly 31 are driven by a reeling wheel; the transition platform 40 is provided with an unwinding deviation correcting device 41 and an unwinding tension assembly 42, the unwinding tension assembly 42 and the unwinding automatic belt splicing assembly 31 are driven by a plurality of winding wheels, the output end of the first kraft paper 32 is connected with the winding wheels of the unwinding tension assembly 42 and the unwinding automatic belt splicing assembly 31, and the unwinding deviation correcting device 41 is located on a transmission line between the unwinding automatic belt splicing assembly 31 and the unwinding tension assembly 42.

The adhesive tape cutting platform 50 is provided with a reinforcing rib assembly 51, an adhesive tape cutting assembly 52 and a secondary deviation correcting device 53, the input end of the reinforcing rib assembly 51 and the unreeling tension assembly 42 are in reel transmission, the adhesive tape cutting assembly 52 is located at the output end of the reinforcing rib assembly 51, and the secondary deviation correcting device 53 and the adhesive tape cutting assembly 52 are in reel transmission.

The laser platform 60 is provided with a main driving assembly 61, a length measuring device 62, an upper laser assembly 63 and a lower laser assembly 64, the input end of the main driving assembly 61 and the rubber belt cutting assembly 52 are in transmission through a plurality of winding wheels, the secondary deviation correcting device 53 is positioned on a transmission line between the rubber belt cutting assembly 52 and the main driving assembly 61, the output end of the main driving assembly 61 and the input end of the upper laser assembly 63 are in transmission through tension rollers, the length measuring device 62 is positioned on the transmission line between the main driving assembly 61 and the upper laser assembly 63, and the first output end of the upper laser assembly 63 and the input end of the lower laser assembly 64 are in transmission through the tension rollers.

The dust removal detection platform 70 is provided with a first front defect detection device 701, a second front defect detection device 702, a second kraft paper 703, a first air knife dust removal component 704, a second air knife dust removal component 705, a first tab detection device 706, a second tab detection device 707, a first auxiliary drive component 708, a second auxiliary drive component 709, a first splitting deviation correction device 710 and a second splitting deviation correction device 711, wherein the input end of the first air knife dust removal component 704 and the second output end of the upper laser component 63 are transmitted through a tension roller, the input end of the second air knife dust removal component 705 and the output end of the lower laser component 64 are transmitted through a tension roller, the first front defect detection device 701 is positioned on one side of a transmission route between the upper laser component 63 and the first air knife dust removal component 704, the second front defect detection device 702 is positioned on one side of a transmission route between the lower laser component 64 and the second air knife dust removal component 705, the first output end of the second kraft paper 703 is connected with a tension roller between the upper laser component 63 and the first air knife dust removal component 704, the second output end of the second kraft paper 703 is connected with a tension roller between the lower laser component 64 and the second air knife dust removal component 705, the output end of the first air knife dust removal component 704 and the input end of the first auxiliary driving component 708 are in transmission through a winding wheel, the first tab detection device 706 is located on one side of the transmission route of the first air knife dust removal component 704, the output end of the second air knife dust removal component 705 and the input end of the second auxiliary driving component 709 are in transmission through a winding wheel, the second tab detection device 707 is located on one side of the transmission route of the second air knife dust removal component 705, the first striping deviation correction device 710 is located on the transmission route between the first auxiliary driving component 708 and the striping knife rest 80, and the second striping deviation correction device 711 is located on the transmission route between the second auxiliary driving component 709 and the striping knife rest 80.

The input end of the slitting tool rest 80 is respectively in transmission with the output end of the first auxiliary driving assembly 708 and the output end of the second auxiliary driving assembly 709 through a tension roller and a winding wheel.

The dust removal marking platform 90 is provided with a first strip width and reverse flaw detection device 91, a second strip width and reverse flaw detection device 92, a first brush dust removal component 93, a second brush dust removal component 94, a first iron removal device 95, a second iron removal device 96, a first marking machine 97 and a second marking machine 98, wherein the input end of the first brush dust removal component 93 and the first output end of the strip cutter rest 80 are in transmission through a tension roller and a winding wheel, the input end of the second brush dust removal component 94 and the second output end of the strip cutter rest 80 are in transmission through a tension roller and a winding wheel, the first strip width and reverse flaw detection device 91 is positioned on one side of a transmission route between the strip cutter rest 80 and the first brush dust removal component 93, the second strip width and reverse flaw detection device 92 is positioned on one side of the transmission route between the strip cutter rest 80 and the second brush dust removal component 94, the output end of the first brush dust-removing component 93 and the first winding turret 100 are in transmission through tension rollers and a plurality of winding wheels, the first iron removing device 95 and the first marking machine 97 are sequentially arranged on a transmission line between the first brush dust-removing component 93 and the first winding turret 100, the output end of the second brush dust-removing component 94 and the second winding turret 110 are in transmission through tension rollers and a plurality of winding wheels, and the second iron removing device 96 and the second marking machine 98 are sequentially arranged on a transmission line between the second brush dust-removing component 94 and the second winding turret 110.

The first winding turret 100 comprises a first winding wheel 101 and a second winding wheel 102, the first winding wheel 101 and the second winding wheel 102 are driven by the winding wheels, a first winding automatic belt splicing assembly 103 is arranged on the first winding wheel 101, and a first pushing mechanism 104 is arranged on the second winding wheel 102.

The second winding turret 200 comprises a third winding wheel 201 and a fourth winding wheel 202, the third winding wheel 201 and the fourth winding wheel 202 are driven by winding wheels, a second winding automatic tape splicing assembly 203 is arranged on the third winding wheel 201, and a second pushing mechanism 204 is arranged on the fourth winding wheel 202.

As shown in fig. 5, the process flow of the product is that, firstly, pole pieces are fed to the unwinding turret 20 by manual work to be unwound (the unwinding turret is used for simultaneously winding two pole pieces, one roll is produced, and one roll is reserved), and are automatically connected by the unwinding automatic connecting assembly 31 (when the pole pieces in production are rapidly discharged, the equipment starts automatic roll changing and automatic connecting actions), and then the process flows sequentially through unwinding deviation correction → adhesive tape cutting → secondary deviation correction → one-time strip separation → up-and-down laser cutting (at most, 3 pole pieces can be cut and processed simultaneously, the waste materials generated by processing are intensively processed by a waste collecting box) → front defect detection → air knife dust removal → tab detection → secondary strip separation → pole piece width measurement and reverse defect detection → brush dust removal → marking → winding turret winding (each winding turret is a left-right winding layout wheel, one production winding pole piece, one spare material barrel, when the pole piece is fully rolled, the pole piece is pushed out by a material pushing mechanism to facilitate manual blanking).

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a laser cutting divides strip all-in-one which characterized in that: the device comprises a machine table, wherein an unreeling turret, a tape splicing platform, a transition platform, a tape cutting platform, a laser platform, a dust removal detection platform, a slitting knife rest, a dust removal marking platform, a first reeling turret and a second reeling turret are sequentially arranged on the machine table from one end to the other end;

2. The laser cutting and slitting integrated machine according to claim 1, wherein: the unwinding turret comprises a first unwinding wheel and a second unwinding wheel, the automatic unwinding belt splicing assembly is close to the second unwinding wheel, and the first unwinding wheel and the automatic unwinding belt splicing assembly are driven by the winding wheels; the first winding turret comprises a first winding wheel and a second winding wheel, the first winding wheel and the second winding wheel are driven by the winding wheels, the first winding wheel is provided with the first winding automatic belt receiving assembly, and the second winding wheel is provided with a first material pushing mechanism; the second winding turret comprises a third winding wheel and a fourth winding wheel, the third winding wheel and the fourth winding wheel are driven by the winding wheels, the third winding wheel is provided with the second winding automatic belt receiving assembly, and the fourth winding wheel is provided with a second material pushing mechanism.

3. The laser cutting and slitting integrated machine according to claim 1, wherein: the automatic splicing belt device is characterized in that a first kraft paper is further arranged on the splicing belt platform, and the output end of the first kraft paper is connected with a winding wheel between the unwinding tension assembly and the unwinding automatic splicing belt assembly.

4. The laser cutting and slitting integrated machine according to claim 1, wherein: the transition platform is further provided with an unreeling deviation correcting device, and the unreeling deviation correcting device is located on a transmission line between the unreeling automatic belt splicing assembly and the unreeling tension assembly.

5. The laser cutting and slitting integrated machine according to claim 1, wherein: the tape cutting platform is also provided with a second-stage deviation rectifying device, and the second-stage deviation rectifying device is positioned on a transmission line between the tape cutting assembly and the main driving assembly.

6. The laser cutting and slitting integrated machine according to claim 1, wherein: the laser platform is also provided with a length measuring device, and the length measuring device is positioned on a transmission line between the main driving assembly and the upper laser assembly.

7. The laser cutting and slitting integrated machine according to claim 1, wherein: the dust removal detection platform is further provided with a first front flaw detection device and a second front flaw detection device, the first front flaw detection device is located on one side of a transmission line between the upper laser assembly and the first air knife dust removal assembly, and the second front flaw detection device is located on one side of a transmission line between the lower laser assembly and the second air knife dust removal assembly.

8. The laser cutting and slitting integrated machine according to claim 1, wherein: still be provided with the second kraft paper on the dust removal testing platform, the first output of second kraft paper is connected with the tension roller between last laser subassembly and the first air knife dust removal subassembly, the second output of second kraft paper is connected with the tension roller between lower laser subassembly and the second air knife dust removal subassembly.

9. The laser cutting and slitting integrated machine according to claim 1, wherein: the dust removal detection platform is further provided with a first slitting deviation correcting device and a second slitting deviation correcting device, the first slitting deviation correcting device is located on a transmission line between the first auxiliary driving assembly and the slitting knife rest, and the second slitting deviation correcting device is located on a transmission line between the second auxiliary driving assembly and the slitting knife rest.

10. The laser cutting and slitting integrated machine according to claim 1, wherein: still be provided with first branch width and reverse side flaw detection device and second branch width and reverse side flaw detection device on the mark platform is beaten in the dust removal, first branch width and reverse side flaw detection device is located one side of transmission route between branch strip knife rest and the first brush dust removal subassembly, the second divides the one side of transmission route between strip knife rest and the second brush dust removal subassembly to branch width and reverse side flaw detection device.