CN215618600U - Laminating die-cutting equipment for flexible material - Google Patents

Abstract

The utility model discloses laminating die-cutting equipment for a flexible material, which comprises a first manufacturing structure, a second manufacturing structure, a third manufacturing structure and a fourth manufacturing structure which are sequentially arranged along the process transmission direction of the flexible material, wherein the first manufacturing structure comprises a first laminating unit and a first die-cutting unit which are sequentially arranged along the process transmission direction of the flexible material, the third manufacturing structure comprises a second die-cutting unit, a third laminating unit and a third die-cutting unit which are sequentially arranged, and the second manufacturing structure comprises a second laminating unit. Through the first manufacture structure, the second manufacture structure, the third manufacture structure and the fourth manufacture structure that set up along flexible material processing procedure transmission direction to multiple flexible material carry out the cross cutting laminating in order to form multiunit flexible material group and laminate it to solve the short slab of multiple flexible material laminating problem, have equipment simply, simple process, it is with low costs, improved production efficiency's advantage.

Description

Laminating die-cutting equipment for flexible material

Technical Field

The utility model relates to the technical field of die cutting equipment, in particular to laminating die cutting equipment for flexible materials.

Background

The die cutting is an important matched processing industry of the electronic information manufacturing industry, the printing packaging industry and the like, the technical problems of the die cutting industry and the technical problems of the processing procedures of various industries by using the die cutting are objects which are very important and vigorously developed by each country at present, and the existing die cutting equipment for laminating and die cutting of multiple flexible materials is few, complex in equipment, complex in process, high in cost and low in efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve at least one technical problem in the prior art, and therefore the utility model provides a laminating die-cutting device for a flexible material, which comprises a first manufacturing structure, a second manufacturing structure, a third manufacturing structure and a fourth manufacturing structure which are sequentially arranged along the process transmission direction of the flexible material;

the first manufacturing structure comprises a first attaching unit for attaching the flexible material and a first die cutting unit for cutting the outline of the flexible material and punching the outline of the flexible material, which are sequentially arranged along the process transmission direction of the flexible material, so as to manufacture a first flexible material group;

the third manufacturing structure comprises a second die cutting unit, a third laminating unit and a third die cutting unit, wherein the second die cutting unit and the third laminating unit are sequentially arranged for punching the flexible material, and the third die cutting unit is used for cutting the outline of the flexible material so as to manufacture a second flexible material group;

the second manufacturing structure comprises a second attaching unit for attaching the first flexible material group and the second flexible material group to manufacture a third flexible material group;

the fourth manufacturing structure comprises a first stripping unit and a second stripping unit.

The short plate has the advantages that the first manufacturing structure, the second manufacturing structure, the third manufacturing structure and the fourth manufacturing structure are arranged along the process transmission direction of the flexible materials, die cutting and laminating are carried out on the multiple flexible materials to form multiple groups of flexible material groups and the flexible material groups are laminated, so that the problem of laminating the multiple flexible materials is solved.

In some embodiments of the utility model, the first production structure further comprises a second unreeling reel for supplying the first single-sided adhesive, a first unreeling reel for supplying the PET film, and a tenth recycling unit for recycling the punching waste.

In some embodiments of the utility model, the third fabrication structure further comprises:

the second die cutting unit is used for punching the release paper;

the third unreeling shaft is used for supplying second single-sided adhesive;

a fifth unreeling shaft for supplying the silicone film;

the third laminating unit is used for laminating the release paper, the second single-sided adhesive and the silicone film, and the third die cutting unit is used for cutting the outline of the flexible material laminated by the third laminating unit so as to form a second flexible material group.

In some embodiments of the present invention, the fourth manufacturing structure further includes a fifth laminating unit, a fourth die-cutting unit, and a sixth laminating unit sequentially disposed along a flexible material manufacturing process transmission direction, the first peeling unit is located between the third manufacturing structure and the fifth laminating unit, and the second peeling unit is located between the fourth die-cutting unit and the sixth laminating unit.

In some embodiments of the present invention, the fourth production structure further includes a sixth unwinding roll for supplying a release film, and the first peeling unit peels the PET film of the third flexible material group and replaces it with the release film supplied from the sixth unwinding roll.

In some embodiments of the present invention, the third manufacturing structure further includes a fourth applying unit, an eighth unreeling shaft for supplying a third single-sided adhesive to take away the waste material from the release paper punching machine, and a sixth recycling unit for recycling the waste material from the release paper punching machine, wherein the fourth applying unit is located between the first peeling unit and the second die cutting unit.

In some embodiments of the utility model, the fourth attaching unit includes a fourth attaching roller and a fifth attaching roller, the second die cutting unit includes a sixth attaching roller and a seventh attaching roller, a first distance is provided between the periphery of the fourth attaching roller and the periphery of the fifth attaching roller, a second distance is provided between the periphery of the sixth attaching roller and the periphery of the seventh attaching roller, and both the first distance and the second distance are greater than the thickness of the silicone film, so that the silicone film is attached at the second attaching unit through the silicone film.

In some embodiments of the present invention, the first die cutting unit cut profile is rectangular in shape and the first die cutting unit punched hole is trapezoidal in shape.

Drawings

The utility model is further described in the following with reference to the accompanying drawings, it is obvious that the drawings in the following description are some embodiments of the utility model, and that for a person skilled in the art, other drawings can be derived from these drawings without inventive effort.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic plan view of a first flexible material assembly of the present invention after fabrication;

FIG. 3 is a schematic plan view of a third flexible material assembly of the present invention after fabrication;

FIG. 4 is a schematic view of a finished product rolled after the third flexible material assembly of the present invention is manufactured.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

It is to be understood that, herein, if any terms such as "upper", "lower", "left", "right", "front", "rear", "longitudinal", "transverse", "axial", etc., indicate orientations or positional relationships based on those shown in the drawings, this is for convenience in describing and simplifying the present invention, and does not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered limiting of the present invention.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Herein, the terms "first", "second", "third", etc. are used for distinguishing different objects, and are not used for describing a particular order. As used herein, the terms "a", "an", and "the" are used interchangeably, and the term "a" and "an" are used interchangeably.

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

Referring to fig. 1 to 4, the present invention provides a laminating and die-cutting apparatus for a flexible material, including a first manufacturing structure, a second manufacturing structure, a third manufacturing structure and a fourth manufacturing structure sequentially arranged along a process transmission direction of the flexible material.

Further, the first manufacturing structure includes a first attaching unit 110 for attaching the flexible material and a first die cutting unit 210 for cutting the profile of the flexible material, which are sequentially arranged along the process transmission direction of the flexible material, and further includes a second unreeling shaft 420 for supplying the first single-sided adhesive, a first unreeling shaft 410 for supplying the PET film, a seventh unreeling shaft 470 for supplying the adhesive film to take away the punching waste of the first die cutting unit 210, a tenth recycling unit 5100 for recycling the punching waste, a second recycling unit 520 for recycling the profile waste, and a first recycling unit 510 for recycling the single-sided adhesive waste used by the second unreeling shaft 420, so as to manufacture the first flexible material assembly. Preferably, the outline cut by the first die cutting unit 210 has a rectangular shape, and the punched hole has a trapezoidal shape.

Further, the first bonding unit 110 has a first bonding roller and a second bonding roller, and a gap is provided between the first bonding roller and the second bonding roller for applying a force to the first single-sided adhesive and the PET film, and preferably, one of the first bonding roller and the second bonding roller is made of a rubber material, and the other is made of a metal material. The first die cutting unit 210 has a third laminating roller and a first counter-grooving roller having a profile-cutting portion and a punching portion to profile and punch the flexible material, and preferably, the third laminating roller is made of a metal material. Referring to fig. 2, a schematic plane shape of the first flexible material assembly after the manufacturing is completed is shown.

The third manufacturing structure includes a fourth laminating unit 140, a second die cutting unit 220 for punching the flexible material, a third laminating unit 130, and a third die cutting unit 230 for cutting the flexible material to form a second flexible material group, which are sequentially disposed.

Further, the third fabrication structure further includes: a fourth unwinding shaft 440 for supplying release paper, and the second die cutting unit 220 for punching the release paper; an eighth unreeling shaft 480 for supplying a third single-sided adhesive to take away punching waste of the release paper; a sixth recycling unit 560 for recycling the waste punched by the release paper; a third unreeling shaft 430 for supplying a second single-sided adhesive; a fifth unreeling shaft 450 for supplying a silicone film; a fifth recycling unit 550 for recycling the third single-sided adhesive waste; a ninth unwinding shaft 490 for supplying the dummy film; a tenth unwinding roll 4100 for supplying an OPP film; and a third recycling unit 530 for recycling the used dummy film of the eighth unwinding shaft 480 and the OPP film of the ninth unwinding shaft 490.

The second attaching unit 120 is used for attaching release paper, second single-sided adhesive and a silicone film, and the third die cutting unit 230 is used for cutting the outline of the flexible material attached by the second attaching unit 120 to form a second flexible material assembly. The third manufacturing structure further includes a fourth recycling unit 540, and the fourth recycling unit 540 is used for recycling the profile waste after the profile is cut by the third die-cutting unit 230. Preferably, the third die cutting unit 230 has a twelfth laminating roller and a third reverse-grooving roller having a contour-cutting portion to contour the flexible material, and preferably, the twelfth laminating roller is made of a metal material.

Further, the fourth laminating unit 140 includes a fourth laminating roller and a fifth laminating roller. Preferably, one of the fourth applying roller and the fifth applying roller is made of rubber, and the other is made of metal.

The second die cutting unit 220 includes a sixth laminating roller, a seventh laminating roller, and a second reverse-grooved roller. Preferably, the second counter-grooving roller is used to punch the release paper supplied from the fourth unreeling shaft 440. Further preferably, the second counter-grooved roll punches are rectangular in shape. Preferably, a first distance is arranged between the periphery of the fourth attaching roller and the periphery of the fifth attaching roller, a second distance is arranged between the periphery of the sixth attaching roller and the periphery of the seventh attaching roller, and both the first distance and the second distance are greater than the thickness of the silicone film so as to enable the silicone film to be attached to the second attaching unit 120 through the silicone film.

The third laminating unit 130 includes an eighth laminating roller and a ninth laminating roller, and a gap is provided between the eighth laminating roller and the ninth laminating roller for applying force to the silicone film, the second single-sided adhesive and the punched release paper. Preferably, one of the eighth bonding roller and the ninth bonding roller is made of rubber, and the other is made of metal.

The second fabrication structure includes a second attaching unit 120 for attaching the first flexible material group and the second flexible material group to make a third flexible material group. Preferably, the second laminating unit 120 is located between the third die cutting unit 230 and the first die cutting unit 210. Further, the second attaching unit 120 includes a tenth attaching roller and an eleventh attaching roller, and a gap is formed between the tenth attaching roller and the eleventh attaching roller, so that the first flexible material group and the second flexible material group are applied with force. Preferably, one of the tenth bonding roller and the eleventh bonding roller is made of rubber, and the other is made of metal.

The fourth manufacturing structure includes a first peeling unit 310, a fifth laminating unit 150, a fourth die-cutting unit 240, a second peeling unit 320, and a sixth laminating unit 160 sequentially arranged along the flexible material manufacturing process transmission direction, the first peeling unit 310 is located between the third manufacturing structure and the fifth laminating unit 150, and the second peeling unit 320 is located between the fourth die-cutting unit 240 and the sixth laminating unit 160.

The fourth manufacturing structure further includes a sixth unwinding shaft 460 for supplying the release film, a ninth recycling unit 590, a seventh recycling unit 570, and an eighth recycling unit 580. The first peeling unit 310 peels the PET film of the third flexible material group and is replaced by the release film supplied from the sixth unwinding shaft 460, the ninth recycling unit 590 is used to recycle the PET film waste peeled off by the first peeling unit 310, and the second peeling unit 320 is used to peel the silicone film of the third flexible material group and recycle the peeled silicone film by the seventh recycling unit 570. The eighth recycling unit 580 is used to recycle the waste release film from the sixth unreeling shaft 460.

The laminating and die-cutting equipment for the flexible material further comprises a rolling unit 710 for rolling a finished product after the sixth laminating unit 160 is laminated.

Through the first manufacture structure, the second manufacture structure, the third manufacture structure and the fourth manufacture structure that set up along flexible material processing procedure transmission direction to multiple flexible material carry out the cross cutting laminating in order to form multiunit flexible material group and laminate it to solve the short slab of multiple flexible material laminating problem, have equipment simply, simple process, it is with low costs, improved production efficiency's advantage.

The working principle of the laminating die-cutting equipment is as follows:

1) the first unreeling shaft 410 supplies PET film, the second unreeling shaft 420 supplies first single-sided adhesive, the PET film is pasted in the first pasting unit 110, the first single-sided adhesive waste is recovered by the first recovery unit 510 and then enters the first die-cutting unit 210 for profile cutting and punching to manufacture a first flexible material assembly, the punching waste is stuck and taken away through a mucous membrane supplied by the seventh unreeling shaft 470 and enters the tenth recovery unit 5100 for recovery, the profile waste enters the second recovery unit 520 for recovery, and the first flexible material assembly enters the second pasting unit 120.

2) The fourth unwinding shaft 440 supplies release paper, the eighth unwinding shaft 480 supplies third single-sided adhesive, the release paper is attached in the fourth attaching unit 140, the release paper is punched in the second die cutting unit 220, the third attaching unit 130 is then entered, and punching waste is stuck and taken away by the third single-sided adhesive and enters the sixth recycling unit 560 for recycling.

3) The third unreeling shaft 430 supplies second single-sided adhesive, the fifth unreeling shaft 450 supplies silicone film, the silicone film enters the third laminating unit 130 through a first distance between the periphery of the fourth laminating roller and the periphery of the fifth laminating roller and a second distance between the periphery of the sixth laminating roller and the periphery of the seventh laminating roller, the second single-sided adhesive, the silicone film and the punched release paper are laminated in the third laminating unit 130, the punched release paper is located between the second single-sided adhesive and the silicone film, and waste materials of the third single-sided adhesive are recovered by the fifth recovering unit 550.

4) The dummy film supplied by the ninth unwinding roll 490 after being laminated by the third laminating unit 130 is covered to protect the flexible material, and then enters the third die cutting unit 230 to cut the outline, the cut outline waste is recovered by the fourth recovery unit 540, and the tenth unwinding roll 4100 supplies the OPP film to take the dummy film away to enter the third recovery unit 530 to be recovered, so as to manufacture the second flexible material assembly, and then enters the second laminating unit 120.

5) The first flexible material group and the second flexible material group are attached to the second attaching unit 120, preferably, a first single-sided adhesive in the first flexible material group and a second single-sided adhesive in the second flexible material group are attached to each other to manufacture a third flexible material group, a PET film in the third flexible material group is peeled off by the first peeling unit 310, the peeled PET film waste is recovered by the ninth recovering unit 590, the release film is supplied by the sixth unreeling shaft 460 to replace the PET film, the release film is attached by the fifth attaching unit 150, and then the PET film enters the fourth die cutting unit 240.

6) The fourth die cutting unit 240 cuts the edges of the flexible materials transmitted by the fifth laminating unit 150, the cut release film waste enters the eighth recovery unit 580 for recovery, then enters the second peeling unit 320, the second peeling unit 320 peels the silicone film in the third flexible material, the release paper naturally drops, then enters the sixth laminating unit 160 for further compression, and finally enters the winding unit 710 to form a finished product.

Under the condition of the prior art, the second single-sided adhesive is directly attached to the silicone membrane, the second single-sided adhesive is prone to tilting when the silicone membrane is peeled off, and the quality of a finished product is affected.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. It should be noted that there are no specific structures but a few objective structures due to the limited character expressions, and that those skilled in the art may make various improvements, decorations or changes without departing from the principle of the utility model or may combine the above technical features in a suitable manner; such modifications, variations, combinations, or adaptations of the utility model using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments, or may be learned by practice of the utility model.

Claims (8)

1. A laminating die-cutting device for flexible materials is characterized by comprising a first manufacturing structure, a second manufacturing structure, a third manufacturing structure and a fourth manufacturing structure which are sequentially arranged along the process transmission direction of the flexible materials;

the first manufacturing structure comprises a first attaching unit for attaching the flexible material and a first die cutting unit for cutting the outline of the flexible material and punching the outline of the flexible material, which are sequentially arranged along the process transmission direction of the flexible material, so as to manufacture a first flexible material group;

the third manufacturing structure comprises a second die cutting unit, a third laminating unit and a third die cutting unit, wherein the second die cutting unit and the third laminating unit are sequentially arranged for punching the flexible material, and the third die cutting unit is used for cutting the outline of the flexible material so as to manufacture a second flexible material group;

the second manufacturing structure comprises a second attaching unit for attaching the first flexible material group and the second flexible material group to manufacture a third flexible material group;

the fourth manufacturing structure comprises a first stripping unit and a second stripping unit.

2. The conformable die cutting apparatus for flexible material of claim 1, wherein: the first manufacturing structure further comprises a second unreeling shaft for supplying the first single-sided adhesive, a first unreeling shaft for supplying the PET film and a tenth recycling unit for recycling punching waste.

3. The conformable die cutting apparatus for flexible material of claim 2, wherein: the third fabrication structure further comprises:

the second die cutting unit is used for punching the release paper;

the third unreeling shaft is used for supplying second single-sided adhesive;

a fifth unreeling shaft for supplying the silicone film;

the third laminating unit is used for laminating the release paper, the second single-sided adhesive and the silicone film, and the third die cutting unit is used for cutting the outline of the flexible material laminated by the third laminating unit so as to form a second flexible material group.

4. The conformable die cutting apparatus for flexible material of claim 2, wherein: the fourth preparation structure still includes the fifth laminating unit, fourth cross cutting unit and the sixth laminating unit that set gradually along flexible material processing procedure direction of transmission, first peel off the unit and be located third preparation structure with between the fifth laminating unit, the second is peeled off the unit and is located fourth cross cutting unit with between the sixth laminating unit.

5. The conformable die cutting apparatus for flexible material of claim 4, wherein: the fourth manufacturing structure further comprises a sixth unreeling shaft for supplying a release film, and the first peeling unit peels the PET film of the third flexible material group and is replaced by the release film supplied by the sixth unreeling shaft.

6. The conformable die cutting apparatus for flexible material of claim 3, wherein: the third manufacture structure further comprises a fourth laminating unit, a sixth recycling unit and a second die cutting unit, wherein the fourth laminating unit is used for supplying third single-sided adhesive to take away the eighth unreeling shaft of the waste material after punching the release paper and the sixth recycling unit used for recycling the waste material after punching the release paper, and the fourth laminating unit is located between the first peeling unit and the second die cutting unit.

7. The conformable die cutting apparatus for flexible material of claim 5, wherein: the fourth laminating unit includes fourth laminating roller and fifth laminating roller, second cross cutting unit includes sixth laminating roller and seventh laminating roller, the periphery of fourth laminating roller with first interval has between the periphery of fifth laminating roller, second interval has between the periphery of sixth laminating roller and the periphery of seventh laminating roller, first interval with the second interval all is greater than the thickness of pellosil, in order to pass through the pellosil for the pellosil is in the laminating of second laminating unit department.

8. The conforming die-cutting apparatus for flexible material according to any one of claims 1 to 7 wherein: the shape of the cutting outline of the first die cutting unit is rectangular, and the shape of the punched hole of the first die cutting unit is trapezoidal.

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