CN108237762B

CN108237762B - Die cutting device for multilayer conductive cloth

Info

Publication number: CN108237762B
Application number: CN201611203705.9A
Authority: CN
Inventors: 蒋建国; 张涛
Original assignee: Hopines Electronic Technology Shanghai Co Ltd
Current assignee: Shanghai Haobai Zhizao Precision Electronics Co.,Ltd.
Priority date: 2016-12-23
Filing date: 2016-12-23
Publication date: 2023-09-05
Anticipated expiration: 2036-12-23
Also published as: CN108237762A

Abstract

The invention relates to a die cutting device for multilayer conductive cloth, which comprises an upper die holder and a lower die holder matched with the upper die holder, wherein an A product cutting die and a B product cutting die are arranged on the lower surface of the upper die holder in parallel, a broken line cutting die is arranged between the A product cutting die and the B product cutting die, the A product cutting die and the B product cutting die respectively die cut out an A product and a B product on a material belt, and then the A product and the B product are folded in half along a broken line die-cut out on the material belt by the broken line cutting die and then are attached together, so that the processing and the assembly of the multilayer conductive cloth are completed. Compared with the prior art, the invention adopts one device to realize that the A product and the B product are die-cut on one material belt at the same time, thereby greatly reducing the cost and maintenance cost of the device, simplifying the processing and operation steps, saving the processing time, improving the production efficiency, and adopting a fold line doubling mode to assemble the A product and the B product together, simplifying the assembly process, and improving the assembly efficiency and the assembly precision.

Description

Die cutting device for multilayer conductive cloth

Technical Field

The invention belongs to the technical field of conductive cloth processing, and relates to a die cutting device for multilayer conductive cloth.

Background

The current multilayer conductive cloth is including from the first type rete, first double faced adhesive tape, not containing gluey conductive cloth layer, second double faced adhesive tape, second from type rete and contain single face gluey conductive cloth layer of laminating each other from bottom to top in proper order, and wherein, first from type rete and second from type rete all are equipped with the handle, are convenient for tear when using from the type membrane. When the multi-layer conductive cloth is processed, the multi-layer conductive cloth is split into two products A and B, and is assembled after die cutting respectively. Wherein, the A product comprises no gluey conductive cloth layer, second double-sided adhesive layer, second from the rete and contain single-sided adhesive conductive cloth layer, uses three mould during processing, divides into following three steps and accomplishes the cross cutting: (1) Firstly, bonding the second double-sided adhesive layer, the second release film layer and the conductive cloth layer containing single-sided adhesive together, punching a handle on the second release film layer, and bonding the conductive cloth layer without adhesive on the second double-sided adhesive layer after waste discharge; (2) punching indentation lines; (3) punching the outer frame. The product B consists of a first release film layer and a first double-sided adhesive layer, and is punched by using two dies in the processing process, namely the following two steps: (1) punching out redundant double-sided adhesive tape; (2) punching the outer frame. In the die cutting process of the A product and the B product, positioning holes are punched at the corresponding positions of the A product and the B product respectively, after the A product and the B product are die-cut respectively, the B product is placed on a jig with positioning columns on the surface, the positioning columns of the jig penetrate through the positioning holes of the B product so as to accurately position the B product, then the A product is placed on the jig according to the same method, the A product and the B product are accurately corresponding through the positioning columns, and then the A product and the B product are pressed and attached, so that the processing and the assembly of the multilayer conductive cloth are completed.

In the process, 5 dies for die cutting and one jig for assembly are needed, so that the device is high in cost, high in maintenance cost, complex in product processing steps, more in time consumption, slower in assembly process and unfavorable for industrial production.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the die cutting device for the multi-layer conductive cloth, which has high processing efficiency and is convenient to assemble.

The aim of the invention can be achieved by the following technical scheme:

a die cutting device for multilayer conductive cloth, the device include the upper die base and with the die holder of upper die base looks adaptation, the lower surface of upper die base be equipped with A product cutting die, B product cutting die side by side, A product cutting die and B product cutting die between be equipped with the broken line cutting die, A product cutting die, B product cutting die cut out A product, B product respectively on the material area, later A product and B product are laminated together after the broken line fifty percent discount that the die cutting was taken along the broken line cutting die on the material area, accomplish the processing and the equipment of multilayer conductive cloth.

The product A cutting die comprises a product A first die cutter, a product A indentation line die cutter and a product A second die cutter which are sequentially arranged on the lower surface of the upper die base along the moving direction of the material belt. The A product first die cutter is used for punching a handle on the second release film layer, the A product indentation line die cutter is used for punching indentation lines on the A product, and the A product second die cutter is used for punching an outer frame of the A product.

The B product cutting die comprises a B product first die cutter and a B product second die cutter which are sequentially arranged on the lower surface of the upper die base along the moving direction of the material belt, wherein the B product first die cutter and the A product first die cutter are arranged on the lower surface of the upper die base in parallel, and the B product second die cutter and the A product second die cutter are arranged on the lower surface of the upper die base in parallel. The first die cutting knife of the product B cuts off redundant double faced adhesive tape on the product B, and the second die cutting knife of the product B cuts off an outer frame of the product B.

The folding line cutting die is arranged between the second die cutting knife of the product B and the second die cutting knife of the product A. And punching folding lines between the product A and the product B simultaneously when punching the outer frames of the product A and the product B.

The folding line cutting die comprises a plurality of straight-line cutting edges which are sequentially and equidistantly arranged along the moving direction of the material belt. The broken line die-cut by the broken line cutting die is in a broken line shape, namely the broken parts and the connecting parts of the release paper at the broken line are alternately arranged, so that the material belt of the product A and the product B can be prevented from being broken when being assembled and folded in half, and the broken line can be easily torn after the assembly is completed, and the multilayer conductive cloth is formed.

The first die cutting knife of the product A and the first die cutting knife of the product B form a first station, and the parts of the product A and the product B are respectively trimmed; the product A indentation line die cutter is a second station; and the second die-cutting knife of the product A and the second die-cutting knife of the product B are third stations, and die-cutting is carried out on the outer frames of the product A and the product B respectively. And after passing through the first station, the second station and the third station in sequence, the material belt completes the die cutting process.

When the material belt moves to the first station in actual application, the first die cutter of the product A punches out the handle on the second release film layer, and the first die cutter of the product B punches out redundant double faced adhesive tape on the product B; then the material belt moves to a second station, and the A product indentation line die cutter punches indentation lines on the A product; finally, the material belt moves to a third station, the outer frame of the product A is punched by the second die-cutting rule of the product A, the outer frame of the product B is punched by the second die-cutting rule of the product B, and meanwhile, folding lines are punched between the product A and the product B by the folding line cutting die; and folding the product A and the product B along the folding lines, and then attaching the products A and the products B together to finish the processing and the assembly of the multi-layer conductive cloth.

Compared with the prior art, the invention has the following characteristics:

1) The device is adopted to combine the partial trimming procedures of the A product and the B product, and simultaneously combine the outer frame die cutting procedures of the A product and the B product, so that the A product and the B product can be die-cut on one material belt at the same time, and compared with the original processing mode of die-cutting two material belts by 5 sets of dies, the device has the advantages that the cost and the maintenance cost of the device are greatly reduced, the processing and operating steps are simplified, the processing time is saved, and the production efficiency is improved;

2) The folding line folding mode is adopted to assemble the product A and the product B together, compared with the original mode of assembling the jig with the positioning column, the device cost is saved, the assembling process is simplified, the assembling efficiency is improved, meanwhile, the folding line can also play a role in automatic alignment and guiding, and the assembling precision is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the bottom view of the upper die holder of the present invention;

FIG. 3 is a schematic view of the bottom construction of the die cut material strip of the present invention;

the figure indicates:

1-upper die holder, 2-lower die holder, 3-broken line cutting die, 4-A product first die cutter, 5-A product indentation line die cutter, 6-A product second die cutter, 7-B product first die cutter, 8-B product second die cutter.

Detailed Description

The invention will now be described in detail with reference to the drawings and specific examples. The present embodiment is implemented on the premise of the technical scheme of the present invention, and a detailed implementation manner and a specific operation process are given, but the protection scope of the present invention is not limited to the following examples.

Examples:

the die cutting device for the multilayer conductive cloth comprises an upper die holder 1 and a lower die holder 2 matched with the upper die holder 1, wherein an A product cutting die and a B product cutting die are arranged on the lower surface of the upper die holder 1 in parallel, a broken line cutting die 3 is arranged between the A product cutting die and the B product cutting die, the A product cutting die and the B product cutting die are used for respectively die-cutting the A product and the B product on a material belt, and then the A product and the B product are laminated together after being folded along a broken line die-cut by the broken line cutting die 3 on the material belt, so that the processing and the assembly of the multilayer conductive cloth are completed.

The product A cutting die comprises a product A first die cutter 4, a product A indentation line die cutter 5 and a product A second die cutter 6 which are sequentially arranged on the lower surface of the upper die holder 1 along the moving direction of the material belt.

The product cutting die B comprises a product first die cutter 7 and a product second die cutter 8 which are sequentially arranged on the lower surface of the upper die holder 1 along the moving direction of the material belt, wherein the product first die cutter 7 and the product first die cutter 4 are arranged on the lower surface of the upper die holder 1 in parallel, and the product second die cutter 8 and the product second die cutter 6 are arranged on the lower surface of the upper die holder 1 in parallel.

The folding line cutting die 3 is arranged between the second die cutting knife 8 of the product B and the second die cutting knife 6 of the product A. The folding line cutting die 3 comprises a plurality of straight-line-shaped cutting edges which are sequentially and equidistantly arranged along the moving direction of the material belt.

When the device is actually applied, when the material belt moves to the first station, the first die-cutting knife 4 of the product A punches out a handle on the second release film layer, and the first die-cutting knife 7 of the product B punches out redundant double faced adhesive tape on the product B; then the material belt moves to a second station, and an indentation line die cutter 5 of the A product punches an indentation line on the A product; finally, the material belt moves to a third station, the outer frame of the product A is punched by the product A second die-cutting knife 6, the outer frame of the product B is punched by the product B second die-cutting knife 8, and meanwhile, a folding line is punched between the product A and the product B by the folding line cutting knife die 3, as shown in figure 3; and folding the product A and the product B along the folding lines, and then attaching the products A and the products B together to finish the processing and the assembly of the multi-layer conductive cloth.

The previous description of the embodiments is provided to facilitate a person of ordinary skill in the art in order to make and use the present invention. It will be apparent to those skilled in the art that various modifications can be readily made to these embodiments and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above-described embodiments, and those skilled in the art, based on the present disclosure, should make improvements and modifications without departing from the scope of the present invention.

Claims

1. The die cutting method of the multilayer conductive cloth is characterized by comprising a die cutting device, wherein the die cutting device comprises an upper die holder (1) and a lower die holder (2) matched with the upper die holder (1), a product die A and a product die B are arranged on the lower surface of the upper die holder (1) in parallel, a broken line die (3) is arranged between the product die A and the product die B, the product die A and the product die B are respectively used for die cutting a product A and a product B on a material belt, and then the product A and the product B are folded along a broken line die-cut by the broken line die (3) on the material belt and then are attached together to finish the processing and the assembly of the multilayer conductive cloth; the A product cutting die comprises a first A product cutting die (4), a first A product indentation line cutting die (5) and a second A product cutting die (6) which are sequentially arranged on the lower surface of the upper die holder (1) along the moving direction of the material belt;

the B product cutting die comprises a B product first die cutter (7) and a B product second die cutter (8) which are sequentially arranged on the lower surface of the upper die holder (1) along the moving direction of the material belt, wherein the B product first die cutter (7) and the A product first die cutter (4) are arranged on the lower surface of the upper die holder (1) in parallel, and the B product second die cutter (8) and the A product second die cutter (6) are arranged on the lower surface of the upper die holder (1) in parallel;

the die cutting method comprises the following specific steps:

when the material belt moves to a first station, a first die-cutting knife (4) of the product A punches out a handle on the second release film layer, and a first die-cutting knife (7) of the product B punches out redundant double faced adhesive tape on the product B; then the material belt moves to a second station, and an indentation line die cutter (5) for the A product punches an indentation line on the A product; finally, the material belt moves to a third station, an outer frame of the product A is punched by a second die-cutting knife (6) of the product A, an outer frame of the product B is punched by a second die-cutting knife (8) of the product B, and meanwhile, a folding line is punched between the product A and the product B by a folding line cutting die (3); and folding the product A and the product B along the folding lines, and then attaching the products A and the products B together to finish the processing and the assembly of the multi-layer conductive cloth.

2. A method for die cutting a multi-layered conductive cloth according to claim 1, wherein the folding line cutting die (3) is arranged between the second die cutting die (8) for the product B and the second die cutting die (6) for the product a.

3. The die cutting method of the multi-layer conductive cloth according to claim 1 or 2, wherein the folding line cutting die (3) comprises a plurality of linear cutting edges which are sequentially and equidistantly arranged along the moving direction of the material belt.