CN113927669A

CN113927669A - Protection component slitting and mounting method and production line thereof

Info

Publication number: CN113927669A
Application number: CN202111168084.6A
Authority: CN
Inventors: 胡宗维; 覃若峰; 周赛花; 陈聪; 罗辉
Original assignee: Jiebang Precision Technology Co ltd
Current assignee: Jiebang Precision Technology Co ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2022-01-14
Anticipated expiration: 2041-09-30
Also published as: CN113927669B

Abstract

The application provides a cutting and mounting method for a protection component and a production line thereof. The cutting and mounting method of the protection component comprises the following steps: attaching a first conductive cloth adhesive tape to a preset area of a blue base film; cutting the first conductive fabric adhesive tape to form a first preset shape; carrying out adhesive separation operation on waste materials formed after the first conductive cloth adhesive tape is cut; attaching a blue film to a blue bottom film; cutting the blue film to form a second preset shape; carrying out sticking-off operation on waste materials formed after the blue film is cut; peeling the surface paper of the first conductive fabric adhesive tape with the first preset shape; and carrying out opposite pasting operation on the release film and the blue base film so as to enable the first conductive cloth adhesive tape to be positioned between the blue base film and the release film and enable the blue film to be positioned between the blue base film and the release film to form a protection assembly. The manual laminating, cutting and waste discharge operations are avoided, the production efficiency of the protection assembly is improved, and the batch production of the protection assembly is facilitated.

Description

Protection component slitting and mounting method and production line thereof

Technical Field

The invention relates to the technical field of electronic product protection pieces, in particular to a slitting and mounting method of a protection component and a production line thereof.

Background

The protection member for electronic products generally includes a conductive fabric tape, a conductive foam tape and a blue-film tape, wherein the conductive fabric tape is cut into strips to form a conductive fabric tape, and the conductive fabric tape is used to isolate the electronic product from the outside so as to avoid the electronic product from being interfered by external electromagnetic waves and to avoid the electromagnetic waves of the electronic product from interfering with other electronic products. The resistivity of the blue film is lower than that of a common insulating film, charges are not easy to accumulate on the surface of the blue film, and the blue film is attached to an electronic product to play a role in anti-static protection for the electronic product.

Aiming at the electronic product needing to be attached with the conductive cloth adhesive tape and the blue film, the electronic product is provided with the adhesive tape attaching area and the blue film attaching area, and when the electronic product is assembled to the electronic equipment, the conductive cloth adhesive tape and the blue film are required to be attached to the adhesive tape attaching area and the blue film attaching area of the electronic product respectively. For example, when a circuit board is assembled to a computer host, it is necessary to attach the conductive cloth and the blue film to the adhesive tape attachment area and the conductive cloth attachment area of the circuit board, respectively.

In order to improve the assembly efficiency of the electronic device, a jig and a manual combination mode is usually adopted to attach the conductive fabric adhesive tape and the blue film between the two release films, so as to form a protection assembly. When the electronic equipment is assembled, the jig is firstly adopted to manufacture the protection assembly, then one of the release films of the protection assembly is lifted, and then one surface of the protection assembly, which is torn away from the release film, is attached to the electronic product, so that the conductive cloth adhesive tape is attached to the adhesive tape attaching area, and meanwhile, the blue film is attached to the blue film area.

However, when the protective component is manufactured by adopting the jig, the conductive cloth adhesive tape and the blue film are manually placed on the jig respectively, so that the production efficiency of the protective component is low.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a cutting and mounting method of protective components capable of being produced in batches and a production line thereof.

A cutting and mounting method for a protection component comprises the following steps:

attaching a first conductive cloth adhesive tape to a preset area of a blue bottom film through an external asynchronous die cutting machine;

cutting the first conductive cloth adhesive tape by the off-film asynchronous die cutting machine to form a first preset shape;

carrying out sticking operation on the waste materials formed after the first conductive cloth adhesive tape is cut by a fixed waste discharge laminator;

attaching a blue film to the blue bottom film through the fixed waste discharge film attaching machine;

cutting the blue film to form a second preset shape through a small hole sleeve position die cutting machine;

carrying out sticking and separating operation on waste materials formed after the blue film is cut through a blue film waste discharging machine;

stripping the surface paper of the first conductive cloth adhesive tape with a first preset shape through an adhesive tape waste discharge laminator;

through the adhesive tape waste discharge laminator will die the membrane with blue basement membrane carries out the operation of pasting to, so that first electrically conductive cloth adhesive tape is located blue basement membrane with from between the type membrane, and make blue membrane is located blue basement membrane with from between the type membrane to form the protection subassembly.

In one embodiment, the step of adhering and separating the waste material formed by cutting the first conductive fabric adhesive tape by the fixed waste discharge laminator specifically comprises:

carrying out bonding and separating operation on the surface paper of the corner waste of the first conductive cloth adhesive tape through a waste surface paper bonding and separating device;

and the scrap material sticking and separating device is used for sticking and separating the scrap material of the first conductive cloth adhesive tape.

In one embodiment, after the first conductive fabric adhesive tape is cut by the off-film asynchronous die cutting machine to form a first predetermined shape, and before the blue film is attached to the blue bottom film by the fixed waste discharge film attaching machine, the method for cutting and attaching the protective component further includes the steps of:

and fixing the first conductive cloth adhesive tape with a first preset shape through the fixed waste discharge laminator and the adhesive tape.

In one embodiment, after the first conductive fabric adhesive tape is attached to the predetermined region of the blue base film by the off-film asynchronous die cutting machine and before the blue base film is attached to the blue base film by the fixed waste discharge laminator, the slitting and attaching method of the protective assembly further includes the steps of:

and die-cutting a positioning hole in the blue bottom film by using an external asynchronous die-cutting machine so as to cut the blue film into a second preset shape according to the positioning hole in the subsequent step.

In one embodiment, after the release film and the blue base film are attached to each other by the adhesive tape waste discharge laminator, the method for cutting and attaching the protective component further includes the steps of: and cutting the protection assembly through a cutting machine.

In one embodiment, after the waste material formed after the blue film is cut is subjected to a sticking operation by the blue film waste discharging machine and before the face paper of the first conductive fabric adhesive tape with the first predetermined shape is subjected to a peeling operation by the adhesive tape waste discharging laminator, the method for cutting and mounting the protective component further comprises the following steps:

and a second conductive cloth adhesive tape is attached to the blue bottom film through an intelligent attaching machine.

In one embodiment, after a second conductive cloth adhesive tape is attached to the blue bottom film by an intelligent attaching machine and before a release film and the blue bottom film are attached by the adhesive tape waste discharge film attaching machine, the cutting and attaching method for the protective component comprises the following steps:

and the adhesive tape waste discharge laminator is used for bonding and separating the surface paper of the second conductive fabric adhesive tape.

In one embodiment, the step of attaching the second conductive tape to the blue base film by using an intelligent attaching machine specifically includes:

conveying the second conductive fabric adhesive tape to a corresponding position through a feeding flight;

judging the position of the second conductive fabric adhesive tape through a visual detection device;

and adsorbing and adhering the second conductive cloth adhesive tape to the blue bottom film through an adhering device.

In one embodiment, the step of attaching the release film to the blue base film through the adhesive tape waste discharge laminator specifically comprises:

attaching a foolproof mark to the release film through the adhesive tape waste discharge laminator;

and the adhesive tape waste discharge laminator is used for attaching the foolproof mark to the release film and the blue bottom film.

A protective component slitting and mounting production line comprises an off-film asynchronous die-cutting machine, a fixed waste discharge film sticking machine, a small hole nesting die-cutting machine, a blue film waste discharge machine and an adhesive tape waste discharge film sticking machine which are sequentially arranged along the conveying direction of a blue bottom film;

the film outer asynchronous die cutting machine is used for attaching a first conductive cloth adhesive tape to a preset area of a blue bottom film and cutting the first conductive cloth adhesive tape to form a first preset shape;

the fixed waste discharge laminator is used for carrying out a sticking operation on the surface paper of the waste material formed after the first conductive cloth adhesive tape is cut, carrying out a sticking operation on the waste material of the first conductive cloth adhesive tape stuck with the surface paper, and attaching the blue film to the blue bottom film;

the small hole nesting die-cutting machine is used for cutting the blue film to form a second preset shape;

the blue film waste discharging machine is used for carrying out sticking and separating operation on waste materials formed after the blue film is cut;

the adhesive tape waste discharge laminator is used for adhering and separating the surface paper of the first conductive cloth adhesive tape with a first preset shape and adhering and separating the release film and the blue bottom film.

Compared with the prior art, the invention has at least the following advantages:

according to the cutting and mounting method of the protective component, the first conductive cloth adhesive tape is firstly bonded on the preset area of the blue bottom film through the off-film asynchronous die cutting machine, so that the situation that the first conductive cloth adhesive tape moves relative to the blue bottom film is inhibited; secondly, cutting the first conductive cloth adhesive tape by an off-film asynchronous die cutting machine to form a first preset shape so as to be matched with the shape of the electronic product to be pasted; then, carrying out sticking-off operation on the waste materials formed after the first conductive cloth adhesive tape is cut by a fixed waste discharge laminator so as to remove the waste materials of the first conductive cloth adhesive tape; then, the blue film is attached to the blue bottom film through a fixed waste discharge film attaching machine, so that the blue film and the first conductive cloth are attached to the same blue bottom film, and the blue film and the first conductive cloth can be conveniently and synchronously attached in a follow-up manner; then cutting the blue film through a small hole sleeve position die cutting machine to form a second preset shape so that the shape of the blue film is matched with the shape of the electronic product to be mounted; then, carrying out sticking-separating operation on the waste materials formed after the blue film is cut through a blue film waste discharging machine so as to remove the waste materials of the blue film; then, stripping the surface paper of the first conductive cloth adhesive tape with the first preset shape by an adhesive tape waste discharge laminator so as to attach the release film to the blue bottom film; carry out the operation of pasting from parting film and blue basement membrane through adhesive tape waste discharge sticking film machine to avoid the problem that the bonding surface of first electrically conductive cloth adhesive tape and blue membrane received the pollution. So, through the manufacturing that the extramembranous asynchronous cross cutting machine, fixed waste discharge sticking film machine, aperture cover position cross cutting machine, blue membrane waste discharge machine and adhesive tape waste discharge sticking film machine accomplished the protection subassembly, realize that the protection subassembly cuts the subsides dress operation automatically, avoided the manual work to laminate, cut and the waste discharge operation, and then improved the production efficiency of protection subassembly, be favorable to realizing the batch production of protection subassembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart illustrating steps of a dicing and mounting method for a protection component according to an embodiment;

fig. 2 is a schematic structural view of a part of a dicing and mounting line for a protective component according to an embodiment;

fig. 3 is another schematic structural view of a part of the dicing and mounting line for the protection component shown in fig. 2.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The cutting and mounting method of the protective component of the embodiment comprises the following steps: attaching a first conductive cloth adhesive tape to a preset area of a blue bottom film through an external asynchronous die cutting machine; cutting the first conductive cloth adhesive tape by the off-film asynchronous die cutting machine to form a first preset shape; carrying out sticking operation on the waste materials formed after the first conductive cloth adhesive tape is cut by a fixed waste discharge laminator; attaching a blue film to the blue bottom film through the fixed waste discharge film attaching machine; cutting the blue film to form a second preset shape through a small hole sleeve position die cutting machine; carrying out sticking and separating operation on waste materials formed after the blue film is cut through a blue film waste discharging machine; peeling the surface paper of the first conductive cloth adhesive tape with a first preset shape by an adhesive tape waste discharge laminator; through the adhesive tape waste discharge laminator will die the membrane with blue basement membrane carries out the operation of pasting to, so that first electrically conductive cloth adhesive tape is located blue basement membrane with from between the type membrane, and make blue membrane is located blue basement membrane with from between the type membrane to form the protection subassembly.

In order to better understand the above-mentioned method for mounting the protection component by dicing, the method for mounting the protection component by dicing will be further explained below, and referring to fig. 1 to 3 together, the method for mounting the protection component by dicing of this embodiment is used for manufacturing the protection component. Further, the protective component cutting and mounting method comprises the following steps:

s101: the first conductive cloth stripe is attached to a predetermined region of the blue base film by an off-film asynchronous die cutter 100. The blue bottom film belongs to the release film, the adhesive surface of the first conductive cloth adhesive tape is attached to the preset area on the adhesive surface of the blue bottom film, and after the first conductive cloth adhesive tape is attached to the blue bottom film, the first conductive cloth adhesive tape is pre-fixed to the preset area of the blue bottom film, so that the situation that the first conductive cloth adhesive tape moves relative to the blue bottom film is inhibited.

S103: and cutting the first conductive cloth adhesive tape by the membrane external asynchronous die cutting machine 100 to form a first preset shape. The first conductive fabric adhesive tape is cut by the off-film asynchronous die cutting machine 100, so that the first conductive fabric adhesive tape forms a first conductive fabric adhesive tape semi-finished product and corner waste, wherein the appearance of the first conductive fabric adhesive tape semi-finished product is matched with the appearance of an electronic product to be pasted. Because the first conductive cloth adhesive tape matched with the appearance of the electronic product to be attached is formed after cutting, the subsequent first conductive cloth adhesive tape can only play a role in shielding electromagnetism for the corresponding electronic product after being attached to the electronic product, and the interference of the first conductive cloth adhesive tape to the normal work of other electronic products is avoided.

S105: and (4) sticking the waste materials formed after the first conductive cloth adhesive tape is cut off through a fixed waste discharge laminator 200. First electrically conductive cloth adhesive tape forms the corner waste material after cutting, for this reason, glues the waste material from first electrically conductive cloth adhesive tape in this step to get rid of the waste material of first electrically conductive cloth adhesive tape, avoid the waste material to occupy the condition of the position of blue bottom film, also avoided the waste material to laminate the condition of other positions of blue bottom film because of shifting simultaneously, and then avoided the waste material to influence the problem of subsequent laminating operation. Further, the first conductive fabric adhesive tape in the first preset shape still retains the surface paper, namely, the semi-finished product of the first conductive fabric adhesive tape still retains the surface paper, so that the first conductive fabric adhesive tape is prevented from being stained, and further sufficient viscosity is ensured when the first conductive fabric adhesive tape is subsequently attached to an electronic product.

S107: the blue film is attached to the blue bottom film through the fixed waste discharge laminator 200. The resistivity of blue membrane is lower than ordinary insulating film, and the difficult accumulation in blue membrane surface of electric charge is laminated blue membrane on blue membrane basement membrane, and blue membrane and the setting of staggering of first electrically conductive cloth adhesive tape to make first electrically conductive cloth adhesive tape and blue membrane all laminate on same blue basement membrane, convenient follow-up synchronous subsides to blue membrane and first electrically conductive cloth are pasted and are pasted, and then have improved the subsides dress efficiency of first electrically conductive cloth adhesive tape and blue membrane.

S109: the blue film is cut by an aperture sleeve die cutter 300 to form a second predetermined profile. Because the appearance of the blue film needs to be matched with the appearance of the electronic product to be pasted, the blue film is cut by the small hole sleeve position die cutting machine 300 in the step to form a second preset appearance, so that the appearance of the blue film is matched with the appearance of the electronic product to be pasted, the blue film can protect the electronic product to be pasted, meanwhile, the blue film is prevented from protruding out of the edge of the electronic product after being pasted on the electronic product, the problem that the blue film is easily torn on the electronic product is avoided, and the position stability of the blue film pasted on the electronic product is improved.

S111: the waste material formed by cutting the blue film is subjected to a sticking-off operation by the blue film waste discharging machine 400. Because the blue membrane forms the waste material after cutting, for this reason, in this step, glue through blue membrane waste discharging machine 400 and leave the operation to the waste material to get rid of the waste material of blue membrane, avoid blue membrane waste material to occupy the condition of blue basement membrane, also avoided blue membrane waste material to deviate to other laminating positions of blue basement membrane simultaneously, and then avoided blue membrane waste material to influence subsequent laminating operation.

S113: and stripping the surface paper of the first conductive cloth adhesive tape with the first preset shape through the adhesive tape waste discharge laminator 600. In the above step, the surface paper of the first conductive fabric adhesive tape with the first predetermined shape is not removed, in this step, the adhesive tape waste discharge laminator 600 is used to perform a bonding and separating operation on the surface paper of the first conductive fabric adhesive tape with the first predetermined shape so as to bond the surface paper of the first conductive fabric adhesive tape with the first predetermined shape, so that the release film and the blue bottom film are bonded in a subsequent step.

S115: through adhesive tape waste discharge sticking film machine 600 will be from the type membrane with blue basement membrane carries out the operation of pasting to, so that first electrically conductive cloth adhesive tape is located blue basement membrane with from between the type membrane, and make blue membrane is located blue basement membrane with from between the type membrane to form the protection subassembly. Will paste with blue basement membrane to the parting film for first electrically conductive cloth adhesive tape is located blue basement membrane and leaves between the type membrane, and then makes blue basement membrane and all protect first electrically conductive cloth adhesive tape from the type membrane, avoids the circumstances of the first electrically conductive cloth adhesive tape of spot pollution, and then makes first electrically conductive cloth adhesive tape keep sufficient viscidity, and then makes first electrically conductive cloth adhesive tape can the adhesion with corresponding electronic product on. Make blue membrane be located blue basement membrane and leave the type membrane simultaneously, and then make blue membrane be located blue basement membrane and leave the type membrane between, make blue basement membrane and protect blue membrane from the type membrane, avoid the condition that the spot pollutes blue membrane, and then make blue membrane keep sufficient viscidity, and then make blue membrane can adhere to on corresponding electronic product. In addition, because the release film is directly attached to the first conductive cloth adhesive tape and the blue film respectively, only one release film needs to be torn before the first conductive cloth adhesive tape and the blue film are attached to the corresponding electronic products, and the attaching efficiency of the first conductive cloth adhesive tape and the blue film is improved.

As shown in FIG. 2, in one embodiment, the off-film asynchronous die cutting machine 100 comprises a first glue strip application device 110, wherein the first glue strip application device 110 is used for applying a first conductive cloth glue strip to a predetermined area of a blue base film. Specifically, the first adhesive tape attaching device 110 includes a blue base film feeding shaft 111, a conductive fabric adhesive tape feeding shaft 112, a conductive fabric adhesive tape waste collecting shaft 113, and an adhesive tape composite roller set 114. The blue base film discharging shaft 111 is used for discharging the blue base film. Electrically conductive cloth adhesive tape blowing shaft 112 is used for blowing first electrically conductive cloth adhesive tape, and electrically conductive cloth adhesive tape waste material is received material shaft 113 and is used for receiving the waste material of first electrically conductive cloth adhesive tape, and electrically conductive cloth adhesive tape waste material is received material shaft 113 and is used for receiving the facial tissue of one side wherein to first electrically conductive cloth adhesive tape promptly to make the facial tissue of first electrically conductive cloth adhesive tape one side tear in first electrically conductive cloth adhesive tape, and then make one side of first electrically conductive cloth adhesive tape expose the sticky surface. The adhesive tape combination roller set 114 is used for penetrating through the blue bottom film tape and tearing off the first conductive fabric adhesive tape after the surface paper so that the adhesive tape combination roller combines the adhesive surface of the first conductive fabric adhesive tape with the adhesive surface of the blue bottom film, and the adhesive surface of the first conductive fabric adhesive tape is attached to a predetermined area on the adhesive surface of the blue bottom film. In this embodiment, before the operation, the blue bottom film is wound on the blue bottom film unwinding shaft 111, and the first conductive adhesive tape is wound on the conductive adhesive tape unwinding shaft 112.

As shown in fig. 2, in one embodiment, the out-of-film asynchronous die cutting machine 100 further includes a first cutting device 120, the first cutting device 120 includes a die-cutting rule and a die-cutting driving component, a power output end of the die-cutting driving component is connected to the die-cutting rule, the die-cutting rule has a first predetermined shape, and when the first conductive fabric adhesive tape attached to the blue base film moves into the first cutting device 120, a power output end of the die-cutting driving component drives the die-cutting rule to cut the first conductive fabric adhesive tape, so that the first conductive fabric adhesive tape is cut into the first predetermined shape, that is, the first conductive fabric adhesive tape is cut into a first conductive fabric adhesive tape semi-finished product and a corner waste material, wherein the first conductive fabric adhesive tape semi-finished product has the first predetermined shape.

As shown in fig. 2, in one embodiment, the fixed waste discharge laminator 200 further includes a blue film laminating apparatus 210, the blue film laminating apparatus 210 includes a blue film discharging shaft 211 and a blue film composite roller set 212, the blue film discharging shaft 211 is used for discharging the blue film, and the blue film is compounded on the blue film through the blue film composite roller set 212, so that the blue film is laminated on the adhesive surface of the blue film, the blue film and the first conductive fabric adhesive tape are both laminated on the blue film, and further the first conductive fabric adhesive tape and the blue film can be simultaneously laminated on the electronic device, thereby improving the laminating efficiency of the first conductive fabric adhesive tape and the blue film. In this embodiment, the blue film is wound on the blue film discharging shaft 211 before operation.

As shown in fig. 2, in one embodiment, the blue film waste discharging machine 400 includes a blue film waste discharging shaft 410, a blue film waste recycling shaft 420, and a blue film waste discharging composite roll group 430. The blue film waste discharging and discharging shaft 410 is used for discharging the blue film waste discharging adhesive paper, and the blue film waste discharging and receiving shaft 420 is used for receiving the blue film waste discharging adhesive paper. Blue membrane waste discharge composite roller set 430 is used for blue membrane waste discharge adhesive tape and blue membrane's waste material complex to make blue membrane waste discharge adhesive tape glue blue membrane waste material from blue basement membrane, and then avoid blue membrane waste material to occupy the position of blue basement membrane, also avoided blue membrane waste material skew to other laminating positions of blue basement membrane simultaneously, and then avoided blue membrane waste material to influence subsequent laminating operation. It is understood that the blue film waste discharge adhesive tape can be adhesive tape with high viscosity such as box sealing adhesive. In this embodiment, before operation, the blue film waste discharging adhesive tape is wound on the blue film waste discharging shaft 410.

As shown in fig. 3, in one embodiment, the adhesive tape waste laminator 600 includes a tissue sticking and discharging shaft 610, a tissue sticking and receiving shaft 620, and a tissue sticking and discharging composite roller set 630. The surface paper is glued from blowing axle 610 and is used for gluing from the adhesive tape to the surface paper and carry out the blowing, the surface paper is glued from receipts material axle 620 and is used for gluing from the adhesive tape to the surface paper and receive the material, the surface paper is glued from compound roller set 630 and is used for gluing from the surface paper of adhesive tape and the first electrically conductive cloth adhesive tape of first predetermined appearance from the surface paper, so that the surface paper that the first electrically conductive cloth adhesive tape of first predetermined appearance was glued from the adhesive tape to the surface paper, make in the follow-up operation from the adhesive surface direct contact of type membrane with first electrically conductive cloth adhesive tape, make follow-up tear can paste first electrically conductive cloth adhesive tape on corresponding electronic product after type membrane from tearing, the efficiency of first electrically conductive cloth adhesive tape on corresponding electronic product has been improved. In this embodiment, before operation, the face paper release tape is wound on the face paper release reel 610.

As shown in FIG. 3, in one embodiment, the strip waste laminator 600 further includes a release film discharge shaft 640 and a release film compound roller set 650. Release film blowing axle 640 is used for carrying out the blowing to leaving the type membrane, it is used for leaving type membrane and blue basement membrane complex to leave type membrane composite roll group 650, make to paste from type membrane and blue basement membrane, and then make first electrically conductive cloth adhesive tape be located blue basement membrane and leave between the type membrane, and make blue membrane be located blue basement membrane and leave between the type membrane, so make to play the guard action from type membrane to first electrically conductive cloth adhesive tape and blue membrane, avoid the problem of spot adhesion on first electrically conductive cloth adhesive tape and blue membrane, and then guaranteed that the viscidity of first electrically conductive cloth adhesive tape and blue membrane is not disturbed. In this embodiment, before operation, the release film is wound on the release film unwinding shaft 640.

In one embodiment, the step of adhering and separating the waste material formed by cutting the first conductive fabric adhesive tape by the fixed waste discharge laminator 200 specifically includes: firstly, carrying out bonding and separating operation on the surface paper of the corner waste of the first conductive cloth adhesive tape through a waste surface paper bonding and separating device; and then, carrying out adhesion and separation operation on the corner waste of the first conductive cloth adhesive tape through a waste adhesion and separation device. It can be understood, only tear the facial tissue of first electrically conductive cloth adhesive tape one side before laminating first electrically conductive cloth adhesive tape in blue basement membrane, first electrically conductive cloth adhesive tape opposite side still has the facial tissue, for this reason, in this step, at first glue from the device 220 through waste material facial tissue and glue from the operation to the facial tissue of first electrically conductive cloth adhesive tape waste material, then glue from the device 230 through the waste material and glue from the operation to the corner waste material of first electrically conductive cloth adhesive tape, and then thoroughly glue the waste material of first electrically conductive cloth adhesive tape and remove, avoid the waste material of first electrically conductive cloth adhesive tape to influence subsequent operation.

As shown in fig. 2, in one embodiment, the fixed waste laminator 200 further includes a tissue adhering and separating device 220 and a waste adhering and separating device 230, which are sequentially disposed along the conveying direction of the blue base film. The tissue sticking and separating device 220 comprises a first adhesive paper discharging shaft 221, a first adhesive paper collecting shaft 222 and a first sticking and separating composite roller set 223. First adhesive tape blowing shaft 221 is used for blowing first adhesive tape, first adhesive tape collecting shaft 222 is used for collecting first adhesive tape, and first bonding and separating composite roller set 223 is used for compounding first adhesive tape and the surface paper of the waste material of the first conductive cloth adhesive tape so as to bond the surface paper of the waste material of the first conductive cloth adhesive tape. The waste material sticking and separating device 230 comprises a second adhesive paper discharging shaft 231, a second adhesive paper roll material, a second adhesive paper collecting shaft 232 and a second sticking and separating composite roller set 233. Second adhesive tape blowing axle 231 cover is equipped with the second adhesive tape coil stock, second adhesive tape blowing axle 231 is used for rolling up out the second adhesive tape, second adhesive tape collecting axle 232 is used for rolling up the second adhesive tape, the second glues from compound roller set 233 be used for compounding the second adhesive tape with the surplus waste material of the electrically conductive cloth adhesive tape of second, with glue the surplus waste material from first electrically conductive cloth adhesive tape, and then thoroughly glue the waste material of first electrically conductive cloth adhesive tape and remove, avoid the waste material of first electrically conductive cloth adhesive tape to influence subsequent operation. It is to be understood that the first web of adhesive paper may be textured paper or box sealing adhesive, and in one embodiment, the first web of adhesive paper is textured paper. It will be appreciated that the second roll of glue may be a low-tack film or a box-sealing glue, and in one embodiment the second roll of glue is a low-tack film.

As shown in fig. 1, in one embodiment, after the first conductive fabric adhesive tape is cut by the off-film asynchronous die cutting machine 100 to form a first predetermined shape, and before the blue film is attached to the blue base film by the fixed waste film attaching machine 200, the method for cutting and attaching the protective component further includes the steps of: the first conductive cloth adhesive tape with a first preset shape is fixed through the fixed waste discharge laminator 200 and the adhesive tape. Because the first conductive cloth adhesive tape can continuously move to other processing stations after being attached to the blue bottom film, the first conductive cloth adhesive tape is easy to have position deviation, therefore, in this step, the first conductive adhesive tape of the first predetermined shape is fixed before the blue film is attached to the blue base film, so that the first conductive fabric strip of the first predetermined shape is more firmly fixed to the blue base film, thus avoiding the problem that the first conductive cloth adhesive tape with the first preset shape deviates when the blue film is adhered to the blue bottom film, thereby ensuring that the first conductive cloth adhesive tape with the first preset shape is attached to the preset position of the blue bottom film, meanwhile, the first conductive cloth adhesive tape with the first preset shape is prevented from occupying other attaching positions of the blue bottom film, and therefore subsequent to-be-attached products can be attached to the blue bottom film.

As shown in fig. 2, in one embodiment, the fixed waste film laminator 200 further includes a fixing device 240, the fixing device 240 includes a fixed adhesive paper discharging shaft 241 and a fixed compound roller set 242, the fixed adhesive paper discharging shaft 241 is used for discharging the fixed adhesive paper, and the fixed compound roller set 242 is used for compounding the fixed adhesive paper with the first conductive adhesive tape with the first predetermined shape, so that the fixed adhesive paper firmly adheres the first conductive adhesive tape with the first predetermined shape to the blue base film. It will be appreciated that the mounting tape may be textured or box sealing tape, etc., and in one embodiment the mounting tape is box sealing tape.

As shown in fig. 1, in one embodiment, after the first conductive fabric adhesive tape is attached to a predetermined region of the blue base film by the off-film asynchronous die cutting machine 100 and before the blue base film is attached to the blue base film by the fixed waste film sticking machine 200, the method for slit attaching the protective component further includes the steps of: and die-cutting a positioning hole in the blue bottom film by using the out-of-film asynchronous die-cutting machine 100, so that the blue film is cut into a second preset shape according to the positioning hole in the subsequent step. Because the requirement on the size precision of the blue film is high, before the blue film is cut and formed, a positioning hole is cut on the blue bottom film, so that the blue film can be conveniently cut by the small hole sleeve position die cutting machine 300 to form a second preset shape, and the size precision of a blue film finished product is improved.

As shown in fig. 1 and 3, in one embodiment, after the release film is attached to the blue base film by the adhesive tape waste-discharging laminator 600, the method for cutting and attaching the protective component further includes the steps of: the protection component is cut by the cutting machine 700, namely, the release film and the blue bottom film are cut by the cutting machine 700, so that the protection component is separated one by one, and the first conductive cloth adhesive tape and the blue film are attached to the corresponding electronic product at the same time. In one embodiment, the clipper 700 is a digitally controlled clipper 700 to achieve precise cutting of the protective component.

As shown in fig. 1, in one embodiment, after the waste material formed by cutting the blue film is subjected to a sticking operation by the blue film waste discharging machine 400, and before the first conductive fabric adhesive tape of the first predetermined shape is subjected to a peeling operation by the adhesive tape waste discharging laminator 600, the protective component cutting and mounting method further includes the following steps: and a second conductive cloth adhesive tape is attached to the blue base film by the intelligent attaching machine 500. Because need be to the attached electrically conductive cloth adhesive tape of second of electronic equipment, for this reason, in this step, through intelligent subsides installation 500 with the electrically conductive cloth adhesive tape laminating of second on blue basement membrane, and the electrically conductive cloth adhesive tape of second staggers the setting with first electrically conductive cloth adhesive tape and blue membrane to make follow-up can be attached on corresponding electronic product simultaneously with first electrically conductive cloth adhesive tape, blue membrane and the electrically conductive cloth adhesive tape of second, improved electronic equipment's production efficiency.

As shown in fig. 1, in one embodiment, after a second conductive cloth strip is attached to the blue base film by an intelligent mounter 500, and before a release film is attached to the blue base film by a strip waste laminator 600, the method for cutting and attaching the protective component includes the following steps: and the adhesive tape waste discharge laminator 600 is used for adhering and separating the surface paper of the second conductive fabric adhesive tape. One side that the second electrically conductive cloth adhesive tape deviates from blue basement membrane still is stained with the facial tissue, glues the facial tissue of second electrically conductive cloth adhesive tape through adhesive tape waste discharge laminator 600 and leaves the operation for in the follow-up operation from the adhesive surface direct contact of type membrane with the second electrically conductive cloth adhesive tape, make follow-up tear can paste the second electrically conductive cloth adhesive tape on corresponding electronic product after leaving the type membrane, improved the efficiency that the second electrically conductive cloth adhesive tape pasted on corresponding electronic product.

As shown in fig. 3, in one embodiment, the adhesive tape waste discharging laminator 600 further includes a third adhesive paper discharging shaft 660, a third adhesive paper receiving shaft 670, and a third adhesive paper combining roller set 680, wherein the third adhesive paper discharging shaft 660 is used for discharging a third adhesive paper, the third adhesive paper receiving shaft 670 is used for receiving a third adhesive paper, and the third adhesive paper combining roller set 680 is used for combining the third adhesive paper with the surface paper of the second conductive fabric adhesive tape so that the third adhesive paper is adhered to the surface paper of the second conductive fabric adhesive tape. It is understood that the third gummed paper may be gummed paper having viscosity such as box sealing glue.

In one embodiment, the step of attaching the second conductive adhesive tape to the blue base film by the intelligent mounter 500 is specifically: conveying the second conductive cloth adhesive tape to a position corresponding to the laminating device through a feeding flight; judging the position of the second conductive fabric adhesive tape through a visual detection device; and adsorbing and adhering the second conductive cloth adhesive tape on the blue bottom film through the adhering device. In one embodiment, the intelligent mounter 500 includes a feeding device, a mounting device and a vision inspection device, the feeding device is used for conveying the second conductive cloth adhesive tape, so that the second conductive cloth is conveyed to a corresponding position of the mounting device by the clamping barrel, the vision inspection device determines an accurate position of the second conductive cloth adhesive tape, position information provided by the vision inspection device of the mounting device adsorbs the second conductive cloth adhesive tape, and then the mounting device adsorbs the second conductive cloth adhesive tape to a predetermined position of a blue base film, so that the second conductive cloth adhesive tape is mounted on the corresponding position of the blue base film.

As shown in fig. 3, in one embodiment, the number of the intelligent placement machines 500 is multiple, and the multiple intelligent placement machines 500 respectively place the multiple second conductive fabric adhesive tapes on the multiple positions of the blue base film, so that the first conductive fabric adhesive tapes, the blue film, and the multiple second conductive fabric adhesive tapes can be subsequently attached to the corresponding electronic products at the same time, thereby improving the production efficiency of the electronic device.

In one embodiment, the step of attaching the release film to the blue base film through the adhesive tape waste discharge laminator 600 specifically comprises: attaching a foolproof mark to the release film through the adhesive tape waste discharge laminator 600; the adhesive tape waste discharge laminator 600 is used for attaching the foolproof mark to the release film and the blue bottom film. Firstly, the foolproof mark is attached to the release film, and then the release film sticker attached with the foolproof mark is attached to the blue bottom film, so that the protection component is provided with the foolproof mark, and the protection component can be used in the subsequent process.

As shown in fig. 3, in one embodiment, the adhesive tape waste discharging and film sticking machine 600 further includes a fool-proof mark discharging shaft 690, the fool-proof mark discharging shaft 690 is used for discharging the fool-proof mark, one end of the rolled fool-proof mark is pasted on the release film roll on the release film discharging shaft 640, so that the fool-proof mark is pasted on the release film when the release film discharging shaft 640 discharges the release film, and further the fool-proof mark is pasted on the release film. In one embodiment, the fool-proof identification roll is a crepe paper roll.

However, the asynchronous die-cutting machine 100 outside the film rubs with the blue bottom film in the process of rolling out the blue bottom film, so that the blue bottom film generates static electricity, and the static electricity of the blue bottom film is conducted to the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape, so that the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape easily adsorb stains, and further the viscosity of the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape is reduced, and the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape are difficult to adhere to corresponding electronic products. To this end, in one embodiment, the method for slit-attaching a protective component further includes, before attaching the first conductive fabric strip to a predetermined region of the blue base film by the off-film asynchronous die cutter 100, the steps of: and (4) carrying out static electricity removal operation on the blue bottom film. Because the blue bottom film is subjected to static removing treatment before the first conductive cloth adhesive tape is attached to the blue bottom film, namely, the blue bottom film is subjected to static removing operation before the blue bottom film is contacted with the first conductive cloth adhesive tape and the blue film, static generated by friction of the blue bottom film and the outer asynchronous die cutting machine 100 is prevented from being conducted to the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape, the static quantity of the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape is reduced, and the problem that the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape adsorb stains is solved.

It can be understood that in a dry environment, static electricity is easily generated after the blue base film, the first conductive fabric adhesive tape, the blue film and the second conductive fabric adhesive tape are rubbed with air during the transmission process, and for this reason, in one embodiment, before the first conductive fabric adhesive tape is attached to the predetermined area of the blue base film by the off-film asynchronous die cutting machine 100, the method for slitting and attaching the protective component further includes the steps of: carry out the moisturizing to operational environment, so that operational environment keeps in the moderate degree of affairs, avoid blue basement membrane, first electrically conductive cloth adhesive tape, blue membrane and the electrically conductive cloth adhesive tape of second and the problem of air friction electrification in transmission process, and then avoid blue basement membrane, first electrically conductive cloth adhesive tape, the problem that blue membrane and the electrically conductive cloth adhesive tape of second adsorbed the spot, it has enough viscidity and first electrically conductive cloth adhesive tape so to have guaranteed that blue basement membrane, the laminating of blue membrane and the electrically conductive cloth adhesive tape of second, also guarantee simultaneously that first electrically conductive cloth adhesive tape, blue membrane and the electrically conductive cloth adhesive tape of second all possess sufficient viscidity and adhere on corresponding electronic product.

Further, the step of performing moisture preservation on the working environment to keep the working environment at a proper level includes: and (3) moisturizing the working environment to keep the working environment at 40% to 70% relative humidity. When the working environment is kept at 40-70% relative humidity, the generation of static electricity can be avoided, and the problem that the viscosity of the blue base film, the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape is influenced by an excessively humid environment is also avoided.

In one embodiment, the step of attaching the first conductive adhesive tape to the predetermined area of the blue base film by the out-of-film asynchronous die cutting machine 100 is as follows: the first conductive fabric adhesive tape is attached to a predetermined region of the blue base film by the off-film asynchronous die cutting machine 100, and the first conductive fabric adhesive tape and the blue base film are heated at the same time. Because heat first electrically conductive cloth adhesive tape and blue basement membrane when first electrically conductive cloth adhesive tape laminating in blue basement membrane, improved the viscidity of first electrically conductive cloth adhesive tape and blue basement membrane, and then make first electrically conductive cloth adhesive tape firmly adhere on blue basement membrane, improved the position stability of first electrically conductive cloth adhesive tape. Further, in the step of attaching the first conductive fabric adhesive tape to the predetermined area of the blue base film by the off-film asynchronous die cutting machine 100 and heating the first conductive fabric adhesive tape and the blue base film at the same time, the first conductive fabric adhesive tape and the blue base film are heated to 40 ℃ to 50 ℃ so that the first conductive fabric adhesive tape and the blue base film have better viscosity and the problem of burning of the first conductive fabric adhesive tape and the blue base film is avoided.

In one embodiment, the asynchronous die-cutting machine 100 further includes a first heating device, the first heating device is connected to the adhesive tape composite roller set 114, and the first heating device is configured to heat the adhesive tape composite roller set 114, so that the adhesive tape composite roller set 114 heats the first conductive fabric adhesive tape and the blue base film while compounding the adhesive surface of the first conductive fabric adhesive tape and the adhesive surface of the blue base film, thereby improving the adhesiveness of the first conductive fabric adhesive tape and the blue base film.

In one embodiment, the step of attaching the blue film to the blue base film by the fixed waste-discharging laminator comprises the following steps: and (3) attaching the blue film to the blue bottom film through a fixed waste discharge attaching machine, and heating the blue film and the blue bottom film simultaneously. The blue film is attached to the blue bottom film, and the blue film and the blue bottom film are heated, so that the viscosity of the blue film and the blue bottom film is improved, the blue film is firmly adhered to the blue bottom film, and the position stability of the blue film is improved. Further, in the step of attaching the blue film to the blue base film by a fixed waste discharge attaching machine and heating the blue film and the blue base film at the same time, the blue film and the blue base film are heated to 40 ℃ to 50 ℃ so that the blue film and the blue base film have better viscosity and the problem of burning of the blue film and the blue base film is avoided.

In one embodiment, the blue film laminating apparatus 210 further includes a second heating device, the second heating device is connected to the blue film combining roller set 212, and the second heating device is configured to heat the blue film combining roller set 212, so that the blue film combining roller set 212 combines the blue film with the blue base film and heats the blue base film, thereby improving the viscosity of the blue film and the blue base film.

In one embodiment, the step of attaching the second conductive adhesive tape to the blue base film by the intelligent mounter 500 includes: the second conductive fabric adhesive tape is attached to the blue base film by the intelligent attaching machine 500, and the second conductive fabric adhesive tape and the blue base film are heated at the same time. Because the second conductive cloth adhesive tape and the blue bottom film are heated while the second conductive cloth adhesive tape is attached to the blue bottom film, the viscosity of the second conductive cloth adhesive tape and the blue bottom film is improved, the second conductive cloth adhesive tape is firmly adhered to the blue bottom film, and the position stability of the second conductive cloth adhesive tape is improved. Further, in the step of passing the intelligent mounter 500 to attach the second conductive fabric adhesive tape to the blue base film and simultaneously heat the second conductive fabric adhesive tape and the blue base film, the second conductive fabric adhesive tape and the blue base film are heated to 40 ℃ to 50 ℃ so that the second conductive fabric adhesive tape and the blue base film have better viscosity, and the problem of burning of the second conductive fabric adhesive tape and the blue base film is avoided.

In one embodiment, after the first conductive fabric strip is attached to a predetermined region of the blue base film by the off-film asynchronous die cutting machine 100 and before the waste material formed by cutting the first conductive fabric strip is separated by the fixed waste film removing and attaching machine 200, the method for cutting and attaching the protective component further includes the steps of: and cooling the waste materials of the first conductive fabric adhesive tape. Because before the waste material to first electrically conductive cloth adhesive tape glues from the operation, cool down the waste material of first electrically conductive cloth adhesive tape and operate, reduced the adhesive force of the waste material of first electrically conductive cloth adhesive tape and blue basement membrane to it is right that the follow-up waste material that forms after being cut through fixed waste discharge sticking film machine 200 glues from the operation to follow-up first electrically conductive cloth adhesive tape. Further, in the step of cooling the waste material of the first conductive fabric adhesive tape, the waste material of the first conductive fabric adhesive tape is cooled to 10 ℃ to 20 ℃.

In one embodiment, after the blue film is cut by the small-hole nesting die-cutting machine 300 to form a second predetermined shape, and before the waste material formed by cutting the blue film is subjected to a sticking operation by the blue film waste discharging machine 400, the method for cutting and mounting the protective component further comprises the following steps: the waste of the blue film is cooled, so that the adhesive force between the waste of the blue film and the blue bottom film is reduced, and the waste formed by cutting the blue film is bonded and separated through the blue film waste discharge machine 400.

In one embodiment, after the peeling film and the blue bottom film are pasted together by the adhesive tape waste discharge laminator 600 and before the protective component is cut by the cutting machine 700, the method for cutting and pasting the protective component further comprises the following steps: the protection assembly is flattened to obtain a flat protection assembly, the problem that the protection assembly is curled is avoided, and then the first conductive cloth adhesive tape, the blue film and the second conductive cloth adhesive tape are conveniently and subsequently attached to corresponding electronic products at the same time. Further, the flattening operation was performed on the protective assembly for 2 minutes, so that the curled protective assembly had enough time to be deformed into a flat state.

In one embodiment, the step of performing the flattening operation on the protection component specifically includes: and heating the protective component while flattening. After the protection assembly is heated, the protection assembly is softened, so that the protection assembly can be rapidly deformed into a flat state, the time of flattening operation is saved, and the efficiency of flattening the protection assembly is improved. Further, the temperature at which the flattening operation is performed while heating the protective member is 40 to 50 ℃. Within this temperature range, the protective assembly can be softened without deforming the protective assembly, thereby ensuring that a smooth and qualified protective assembly can be obtained after the flattening operation.

The application also provides a protective component slitting and mounting production line, and slitting and mounting operation is carried out on the protective component by adopting the protective component slitting and mounting method in any embodiment. Further, the protective component slitting and mounting production line comprises an off-film asynchronous die-cutting machine 100, a fixed waste discharge laminator 200, a small hole nesting die-cutting machine 300, a blue film waste discharge machine 400 and an adhesive tape waste discharge laminator 600 which are sequentially arranged along the conveying direction of the blue bottom film. The outer membrane asynchronous die cutting machine is used for attaching a first conductive cloth adhesive tape to a preset area of a blue bottom membrane and cutting the first conductive cloth adhesive tape to form a first preset shape. The fixed waste discharge laminator is used for right the facial tissue of the waste material that the first conductive fabric adhesive tape formed after being cut is glued and is separated the operation to gluing and separating the first conductive fabric adhesive tape waste material that has glued and has separated the facial tissue, and with blue membrane laminating in on the blue basement membrane. And the small hole nesting die-cutting machine is used for cutting the blue film to form a second preset shape. The blue film waste discharging machine is used for carrying out sticking and separating operation on waste materials formed after the blue film is cut. The adhesive tape waste discharge laminator is used for adhering and separating the surface paper of the first conductive cloth adhesive tape with a first preset shape and adhering and separating the release film and the blue bottom film.

Further, the asynchronous die-cutting machine 100 comprises a first adhesive tape attaching device 110 and a first cutting device 120, wherein the first adhesive tape attaching device 110 is used for attaching a first conductive fabric adhesive tape to a predetermined area of a blue base film, and the first cutting device 120 is used for cutting the first conductive fabric adhesive tape to form a first predetermined shape. Further, fixed waste discharge sticking film machine 200 includes that the waste material facial tissue glues from device 220, the waste material glues from device 230 and blue membrane laminating device 210, the waste material facial tissue glue from device 220 be used for right the facial tissue of the waste material that first electrically conductive cloth adhesive tape formed after being cut glues from the operation, the waste material glues from the device 230 and is used for gluing from the operation to gluing the first electrically conductive cloth adhesive tape waste material that has left the facial tissue, blue membrane laminating device 210 be used for with blue membrane laminating in on the blue basement membrane. Further, adhesive tape waste discharge sticking film machine 600 includes that finished product facial tissue glues from device 220 and leaves type membrane laminating device, finished product facial tissue glues from device 220 and is used for to first predetermined appearance the facial tissue of first electrically conductive cloth adhesive tape glues from the operation, leave type membrane laminating device be used for with the type membrane with blue basement membrane carries out the operation of pasting.

firstly, a first conductive cloth adhesive tape is attached to a preset area of a blue bottom film through an external asynchronous die cutting machine, so that the situation that the first conductive cloth adhesive tape moves relative to the blue bottom film is inhibited; secondly, cutting the first conductive cloth adhesive tape by an off-film asynchronous die cutting machine to form a first preset shape so as to be matched with the shape of the electronic product to be pasted; then, carrying out sticking-off operation on the waste materials formed after the first conductive cloth adhesive tape is cut by a fixed waste discharge laminator so as to remove the waste materials of the first conductive cloth adhesive tape; then, the blue film is attached to the blue bottom film through a fixed waste discharge film attaching machine, so that the blue film and the first conductive cloth are attached to the same blue bottom film, and the blue film and the first conductive cloth can be conveniently and synchronously attached in a follow-up manner; then cutting the blue film through a small hole sleeve position die cutting machine to form a second preset shape so that the shape of the blue film is matched with the shape of the electronic product to be mounted; then, carrying out sticking-separating operation on the waste materials formed after the blue film is cut through a blue film waste discharging machine so as to remove the waste materials of the blue film; then, stripping the surface paper of the first conductive cloth adhesive tape with the first preset shape by an adhesive tape waste discharge laminator so as to attach the release film to the blue bottom film; carry out the operation of pasting from parting film and blue basement membrane through adhesive tape waste discharge sticking film machine to avoid the problem that the bonding surface of first electrically conductive cloth adhesive tape and blue membrane received the pollution. So, through the manufacturing that the extramembranous asynchronous cross cutting machine, fixed waste discharge sticking film machine, aperture cover position cross cutting machine, blue membrane waste discharge machine and adhesive tape waste discharge sticking film machine accomplished the protection subassembly, realize that the protection subassembly cuts the subsides dress operation automatically, avoided the manual work to laminate, cut and the waste discharge operation, and then improved the production efficiency of protection subassembly, be favorable to realizing the batch production of protection subassembly.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A cutting and mounting method for a protection component is characterized by comprising the following steps:

2. The cutting and mounting method for the protective component according to claim 1, wherein the step of adhering the waste material formed by cutting the first conductive fabric adhesive tape by the fixed waste discharge laminator specifically comprises:

3. The cutting and mounting method for the protection component according to claim 1, wherein after the first conductive cloth adhesive tape is cut by the off-film asynchronous die cutter to form a first predetermined shape, and before the blue film is mounted on the blue bottom film by the fixed waste-discharging film mounting machine, the cutting and mounting method for the protection component further comprises the following steps:

4. The cutting and mounting method for the protection component according to claim 1, wherein after the first conductive cloth adhesive tape is attached to the predetermined area of the blue bottom film by the off-film asynchronous die cutting machine and before the blue bottom film is attached to the blue bottom film by the fixed waste discharge film attaching machine, the cutting and mounting method for the protection component further comprises the following steps:

5. The method for cutting and mounting a protective component according to claim 1, wherein after the release film is attached to the blue base film by the adhesive tape waste discharge laminator, the method for cutting and mounting a protective component further comprises the steps of: and cutting the protection assembly through a cutting machine.

6. The method for cutting and mounting a protective component according to claim 1, wherein after the waste material formed by cutting the blue film is separated by the blue film waste discharging machine and before the facial paper of the first conductive cloth adhesive tape with the first predetermined shape is peeled by the adhesive tape waste discharging and sticking machine, the method for cutting and mounting a protective component further comprises the following steps:

7. The cutting and mounting method for the protection component according to claim 6, wherein after the second conductive cloth adhesive tape is mounted on the blue bottom film by an intelligent mounting machine and before the release film and the blue bottom film are subjected to opposite mounting operation by the adhesive tape waste discharging and film mounting machine, the cutting and mounting method for the protection component comprises the following steps:

8. The cutting and mounting method for the protective component according to claim 6, wherein the step of attaching the second conductive cloth adhesive tape to the blue base film by an intelligent mounting machine specifically comprises:

conveying the second conductive cloth adhesive tape to a position corresponding to the laminating device through a feeding flight;

and adsorbing and adhering the second conductive cloth adhesive tape on the blue bottom film through the adhering device.

9. A cutting and mounting method for a protective component according to claim 1, wherein the step of performing the operation of attaching the release film and the blue bottom film by the adhesive tape waste discharge laminator specifically comprises:

10. A protective component slitting and mounting production line is characterized by comprising an off-film asynchronous die-cutting machine, a fixed waste discharge film sticking machine, a small hole nesting die-cutting machine, a blue film waste discharge machine and an adhesive tape waste discharge film sticking machine which are sequentially arranged along the conveying direction of a blue bottom film;