CN115447255A

CN115447255A - micro waterproof breathable film edge covering composite process

Info

Publication number: CN115447255A
Application number: CN202210850600.1A
Authority: CN
Inventors: 刘宏吉; 王佳宾
Original assignee: Zhengzhou Triumphlead Technology Co ltd
Current assignee: Zhengzhou Triumphlead Technology Co ltd
Priority date: 2022-07-19
Filing date: 2022-07-19
Publication date: 2022-12-09

Abstract

The invention discloses a mic waterproof breathable film edge covering composite process, which adopts three lines to simultaneously produce a first semi-finished product, a second semi-finished product and a third semi-finished product, the third semi-finished product is clamped between the first semi-finished product and the second semi-finished product, and the edges of the first semi-finished product and the second semi-finished product are jointed. The invention provides a mic production process. Waterproof ventilated membrane contracts in for the glue of both sides (contract in equipment staggered floor tolerance within range), be cut into the first double faced adhesive tape of lower floor earlier waterproof ventilated membrane, the shape of the little round of second double faced adhesive tape, the equipment of the waterproof ventilated membrane semi-manufactured goods that the rethread tool will cross cutting is good and glues semi-manufactured goods, cut into the product appearance at last, waterproof ventilated membrane is than the little round of double faced adhesive tape of both sides, realize that waterproof ventilated membrane appearance is glued by the first double faced adhesive tape of both sides, the appearance package clamp is glued to the second double faced adhesive tape, first double faced adhesive tape, the outside border of second double faced adhesive tape bonds, avoid waterproof ventilated membrane atress in the installation, avoid the problem of micmembrane layering completely.

Description

micro waterproof breathable film edge covering composite process

Technical Field

The invention relates to the technical field of die cutting processes, in particular to a binding and compounding process of a mic waterproof breathable film.

Background

On waterproof electronic products such as cell-phone, intelligent wrist-watch, waterproof camera, micmembrane play prevent into that water from causing the short circuit, ventilative, reduce the loss in the sound transmission process to minimum effect.

Due to the influence of the above effects, the waterproof and breathable film in the mic film cannot have high cohesion; in the mounting process of the Mic membrane, the automatic suction of a suction head is generally adopted, and three forces shown in fig. 8 exist in the suction process, namely (1) force F1 for sucking the Mic membrane by the suction head, (2) cohesive force F2 of the waterproof breathable membrane, and (3) force F3 for the Mic membrane and the bottom membrane.

The air-permeable waterproof film can be normally sucked only by making F3 be more than F1 and making F2 be more than F3 and less than F1 according to the actual condition of the existing structure, and the problems that the waterproof breathable film is easy to delaminate in the production process and structural loss is generated after assembly are serious.

Disclosure of Invention

According to one aspect of the invention, a binding compounding process of a mic waterproof breathable film is provided, which comprises the following steps

First compounding, namely compounding the first original film and the first double faced adhesive to form a first semi-finished product;

second compounding, namely laminating and compounding the second double-sided adhesive, the second original film and the third double-sided adhesive in sequence to form a second semi-finished product;

cutting, namely cutting the waterproof breathable film along the edge until the area of the waterproof breathable film is reduced integrally and is smaller than the area of the first semi-finished product and the area of the second semi-finished product, so as to obtain a third semi-finished product;

assembling, namely clamping the third semi-finished product between the first semi-finished product and the second semi-finished product, and attaching the edges of the first semi-finished product and the second semi-finished product;

and shaping to obtain a finished product.

The invention provides a mic production process. Waterproof ventilated membrane contracts for the gluing of both sides (contract in equipment staggered floor tolerance within range), be cut into earlier waterproof ventilated membrane than the first double-sided glue on upper and lower layer, the shape of the little round of second double-sided glue, the equipment of the waterproof ventilated membrane semi-manufactured goods that the rethread tool will cross cutting is good with gluey semi-manufactured goods, be cut into the product appearance at last, realize that waterproof ventilated membrane appearance is glued by the first double-sided glue of both sides, the second double-sided glue appearance package presss from both sides, first double-sided glue, the outside border of second double-sided glue bonds, avoid waterproof ventilated membrane atress in the installation, avoid the problem of micmembrane layering completely.

In some embodiments, the step of: in the first combination, the first laminating equipment, the first sleeving and cutting equipment and the second laminating equipment are sequentially arranged.

Thereby, the steps of: the first combination is realized by the joint action of the devices.

In some embodiments, the step of: the first compounding further comprises the steps of,

inputting the first carrier film and the first original film into first laminating equipment for laminating, and then sequentially inputting the first double-sided adhesive and the first face paper into the first laminating equipment for laminating;

feeding the first surface paper, the first double faced adhesive, the first original film and the first bottom supporting film which are laminated and attached from top to bottom into a first set of cutting equipment for cutting, and feeding the cut first surface paper, the first double faced adhesive, the first original film and the first bottom supporting film into a second attaching equipment;

and in the second laminating equipment, discharging the first facial tissue, inputting the second facial tissue for laminating to obtain a first semi-finished product with the first support base film and the second facial tissue.

Therefore, through the steps, the first semi-finished product is die-cut, and the inner hole of the product is cut. The first semi-finished product with the first carrier film and the second facial tissue is produced in second laminating equipment and specifically comprises the following steps: the first base film, the first original film, the first double-sided adhesive and the second surface paper.

In some embodiments, the step of: and in the second compounding process, the third laminating equipment, the second sleeving and cutting equipment, the fourth laminating equipment, the third sleeving and cutting equipment and the fifth laminating equipment are sequentially arranged.

Thereby, the steps of: the second combination is realized by the joint action of the devices.

In some embodiments, the step of: the second compounding further comprises the steps of,

the second base film and the second double-sided adhesive are firstly input into third laminating equipment for laminating, then the second original film and the third double-sided adhesive are sequentially input into the third laminating equipment for laminating, and the third base film and the third surface paper are input for laminating;

feeding the third surface paper, the third double-sided adhesive tape, the second original film, the second double-sided adhesive tape, the second bottom supporting film and the third bottom supporting film which are laminated and attached from top to bottom into second sleeving and cutting equipment for cutting, and feeding the cut films into fourth attaching equipment;

discharging third surface paper in fourth laminating equipment, inputting fourth surface paper for laminating, and entering third sleeve cutting equipment;

in the third set of cutting equipment, the rest except the third bottom supporting film is cut into a plurality of pieces, and then the pieces enter fifth laminating equipment;

and discharging waste in the fifth laminating device to obtain a second semi-finished product with a third bottom supporting film, a second bottom supporting film and third surface paper.

Thus, through the above steps, the second semi-finished product is die-cut, the inner hole of the product is cut, and then the material strip is cut into a sheet shape. The second semi-finished product of the second semi-finished product with the third carrier film, the second carrier film and the third facial tissue is produced in fifth laminating equipment and specifically comprises the following steps: the third base film, the second base film, the third double-sided adhesive tape, the second original film and the fourth surface paper.

In some embodiments, the step of: and during cutting, the cutting device comprises a sixth laminating device, a fourth laminating device, a seventh laminating device, a fifth laminating device and an eighth laminating device which are sequentially arranged.

Thereby, the steps of: the cutting is realized by the combined action of the devices.

In some embodiments, the step of: the cutting further comprises the following steps of,

inputting the fourth bottom supporting film and the waterproof breathable film into sixth laminating equipment for laminating, and laminating the fifth bottom supporting film and the fifth surface paper;

feeding the fifth surface paper, the waterproof breathable film, the fourth bottom supporting film and the fifth bottom supporting film which are laminated and attached from top to bottom into a fourth set of cutting equipment for cutting, and feeding the cut fifth bottom supporting film into seventh attaching equipment;

discharging fifth surface paper in seventh laminating equipment, inputting sixth surface paper for laminating, and entering fifth set of cutting equipment;

in the fifth set of cutting equipment, the rest except the fifth bottom supporting film is cut into a plurality of pieces, and then the pieces enter eighth laminating equipment;

and discharging waste materials in eighth laminating equipment to obtain a third semi-finished product with a fifth bottom film, a fourth bottom film and sixth surface paper.

In some embodiments, the third semi-finished product is die-cut, the waterproof breathable film is cut, and the strip of material is cut into sheets by the above steps. The third semi-finished product with the fifth carrier film, the fourth carrier film and the sixth facial tissue is produced in the eighth laminating device and specifically comprises the following steps: a fifth bottom supporting film, a fourth bottom supporting film, a waterproof breathable film and sixth surface paper.

In some embodiments, the step of: in the assembly, the fixture comprises a first fixture,

and mounting the third semi-finished product on the side, close to the first double-sided adhesive, of the first semi-finished product through the first jig.

Thereby, the steps of: the assembly is realized by the joint action of the devices.

In some embodiments, the step of: in the assembly process, the device also comprises a second jig,

and mounting the second semi-finished product on the side, close to the first double-sided adhesive, of the first semi-finished product through a second jig, clamping a third semi-finished product between the first semi-finished product and the second semi-finished product, and attaching the edges of the first semi-finished product and the second semi-finished product.

In some embodiments, the step of: in the shaping process, a sixth set of cutting equipment and a ninth attaching equipment are included,

inputting the assembled first semi-finished product, the assembled third semi-finished product and the assembled second semi-finished product into a sixth set of cutting equipment to cut the overall appearance, and entering ninth laminating equipment after cutting;

and discharging waste materials in ninth laminating equipment to obtain a finished product.

Thereby, the steps of: the shaping is realized by the joint action of the devices.

According to the mic waterproof breathable film produced by the process, the waterproof breathable film is smaller than double-faced adhesive tapes on two sides by a circle, the appearance of the waterproof breathable film is wrapped by the appearance of the adhesive tapes on two sides, and the waterproof breathable film is not stressed in a customer absorption process, so that the problem of layering of the waterproof breathable film is completely solved.

Drawings

Fig. 1 is a schematic plan structure diagram of the first composition in the mic waterproof breathable film hemming composition process according to an embodiment of the invention.

Fig. 2 is a schematic plan structure diagram of the second composition in the mic waterproof breathable film hemming composition process according to the embodiment of the invention.

Fig. 3 is a schematic plan view of a cut plane structure in the taping composite process of the mic waterproof breathable film according to an embodiment of the present invention.

Fig. 4 is a schematic view of a shaping planar structure in a taping composite process of a mic waterproof breathable film according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a first semi-finished product in a taping composite process of a mic waterproof breathable film according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a second semi-finished product in the taping composite process of the mic waterproof breathable film according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a third semi-finished product in the taping composite process of the mic waterproof breathable film according to an embodiment of the present invention.

FIG. 8 is a structural schematic diagram of the stress direction of the production and installation of the mic waterproof breathable film.

Reference numbers in the figures: 11-first laminating equipment, 12-first cutting equipment, 13-second laminating equipment, 21-third laminating equipment, 22-second cutting equipment, 23-fourth laminating equipment, 24-third cutting equipment, 25-fifth laminating equipment, 31-sixth laminating equipment, 32-fourth cutting equipment, 33-seventh laminating equipment, 34-fifth cutting equipment, 35-eighth laminating equipment, 41-sixth cutting equipment, 42-ninth laminating equipment, a-first base film, b-first original film, c-first double-faced adhesive, d-first surface paper, e-second surface paper, f-second base film, g-second double-faced adhesive, h-second original film, i-third double-faced adhesive, j-third surface paper, k-third base film, l-fourth surface paper, m-fourth base film, n-waterproof surface paper, o-fifth base film, p-fifth base film and q-sixth base film.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 schematically shows a mic waterproof breathable film hemming composite process according to an embodiment of the invention, which simultaneously produces semi-finished products in three lines and then assembles the semi-finished products. The production efficiency of the product can be effectively improved.

With reference to FIGS. 1-4, a binding and compounding process of a mic waterproof breathable film comprises the following steps

S1.1, first compounding, namely compounding a first original film b and a first double-sided adhesive c to form a first semi-finished product;

s1.2, performing second compounding, namely sequentially laminating and compounding a second double-sided adhesive g, a second original film h and a third double-sided adhesive i to form a second semi-finished product;

s1.3, cutting, namely cutting the edge of the waterproof breathable film n until the area of the waterproof breathable film n is reduced integrally and is smaller than the area of the first semi-finished product and the second semi-finished product, so as to obtain a third semi-finished product;

and S2, assembling, namely clamping the third semi-finished product between the first semi-finished product and the second semi-finished product, and attaching the edges of the first semi-finished product and the second semi-finished product.

Waterproof ventilated membrane contracts for the gluing of both sides (contract in equipment staggered floor tolerance within range), be cut into earlier waterproof ventilated membrane than the first double-sided glue on upper and lower layer, the shape of the little round of second double-sided glue, the equipment of the waterproof ventilated membrane semi-manufactured goods that the rethread tool will cross cutting is good with gluey semi-manufactured goods, be cut into the product appearance at last, realize that waterproof ventilated membrane appearance is glued by the first double-sided glue of both sides, the second double-sided glue appearance package presss from both sides, first double-sided glue, the outside border of second double-sided glue bonds, avoid waterproof ventilated membrane atress in the installation, avoid the problem of micmembrane layering completely.

In this embodiment, step S1.1: the first compounding is to produce a first semi-finished product, which specifically comprises from top to bottom: the first original film b + the first double-sided adhesive c.

With reference to fig. 1 and 5, step S1.1: in the first compounding, the first laminating equipment 11, the first sleeving and cutting equipment 12 and the second laminating equipment 13 are sequentially arranged. The method also comprises the following steps of,

s1.1.1, inputting a first base film a and a first original film b into first laminating equipment 11 for laminating, and then sequentially inputting a first double-sided adhesive c and first face paper d into the first laminating equipment 11 for laminating;

s1.1.2, feeding the first surface paper d, the first double-sided adhesive c, the first original film b and the first carrier film a which are laminated and attached from top to bottom into a first set of cutting equipment 12 for cutting, and feeding the cut first carrier film a into a second attaching equipment 13;

s1.1.3 and the second laminating device 13, discharge the first surface paper d, and input the second surface paper e for laminating, so as to obtain a first semi-finished product with a first carrier film a and a second surface paper e.

Through the steps, the first semi-finished product is die-cut, and the inner hole of the product is cut. The first semi-finished product with the first carrier film a and the second facial tissue e produced in the second laminating device 13 is specifically as follows from bottom to top: the first base film a + the first original film b + the first double-sided adhesive c + the second facial tissue e.

In this embodiment, step S1.2: the first composite is used for producing a second semi-finished product, and the second semi-finished product specifically comprises from top to bottom: a second double-sided adhesive g, a second original film h and a third double-sided adhesive i, as shown in fig. 5.

With reference to fig. 2 and 6, the steps: in the second compounding, a third laminating device 21, a second sleeving and cutting device 22, a fourth laminating device 23, a third sleeving and cutting device 24 and a fifth laminating device 25 are included in sequence. The method also comprises the following steps of,

s1.2.1, inputting a second carrier film f and a second double-sided adhesive g into a third laminating device 21 for laminating, sequentially inputting a second original film h and a third double-sided adhesive i into the third laminating device 21 for laminating, and inputting a third carrier film k and a third face paper j for laminating;

s1.2.2, feeding a third face paper j, a third double-sided adhesive i, a second original film h, a second double-sided adhesive g, a second base film f and a third base film k which are laminated and attached from top to bottom into a second sheathing and cutting device 22 for cutting, cutting an inner hole of a product, and feeding the cut product into a fourth attaching device 23;

s1.2.3 and the fourth laminating device 23, discharging the third surface paper j, inputting the fourth surface paper l for laminating, and entering the third sleeve cutting device 24;

s1.2.4, in the third cutting device 24, cutting the rest materials except the third carrier film k into a plurality of pieces, then cutting the material strips into pieces, and then entering the fifth laminating device 25;

s1.2.5 and the fifth laminating device 25, discharging waste materials to obtain a second semi-finished product with a third bottom supporting film k, a second bottom supporting film f and third surface paper j.

And through the steps, die-cutting the second semi-finished product, cutting an inner hole of the product, and then cutting the material belt into sheets. The second semi-finished product produced in the fifth laminating device 25 and having the second semi-finished product with the third bottom film k, the second bottom film f and the third tissue j specifically comprises from bottom to top: a third carrier film k + a second carrier film f + a third double-sided adhesive i + a second original film h, a second double-sided adhesive g + a fourth face paper l, as shown in fig. 6.

In this embodiment, step S1.3: and a third semi-finished product is produced in the cutting process, wherein the third semi-finished product is a waterproof breathable film n from top to bottom.

With reference to fig. 3 and 7, the steps: the cutting includes a sixth laminating apparatus 31, a fourth set of cutting apparatus 32, a seventh laminating apparatus 33, a fifth set of cutting apparatus 34, and an eighth laminating apparatus 35, which are arranged in this order. The method also comprises the following steps of,

s1.3.1, the fourth carrier film m and the waterproof breathable film n are firstly input into the sixth laminating equipment 31 for laminating, and then the fifth carrier film p and the fifth surface paper o are laminated;

s1.3.2, the fifth surface paper o, the waterproof breathable film n, the fourth base film m and the fifth base film p which are laminated and attached from top to bottom enter a fourth set of cutting equipment 32 to be cut, the shape of the waterproof breathable film n is cut, and the cut waterproof breathable film n enters seventh attaching equipment 33;

s1.3.3, in the seventh laminating apparatus 33, discharging the fifth sheet o, inputting the sixth sheet q for laminating, and entering the fifth set of cutting apparatus 34;

s1.3.4, in the fifth cutting device 34, the rest except the fifth carrier film p are cut into a plurality of pieces, the material belt is cut into pieces, and then the pieces enter the eighth laminating device 35;

s1.3.5 and the eighth laminating device 35, the waste is discharged, and a third semi-finished product with a fifth carrier film p, a fourth carrier film m and a sixth paper q is obtained.

Through the steps, the third semi-finished product is die-cut, the appearance of the waterproof breathable film is cut, and then the material belt is cut into sheets. The third semi-finished product produced in the eighth laminating device 35 and having the fifth support base film p, the fourth support base film m and the sixth paper q is specifically made from bottom to top: a fifth base film p, a fourth base film m, a waterproof breathable film n and sixth paper q.

In this embodiment, the step S2 of assembling is to assemble the first semi-finished product, the second semi-finished product, and the third semi-finished product, and the assembled semi-finished products are the first semi-finished product, the third semi-finished product, and the second semi-finished product from top to bottom.

The method comprises the following steps: the assembly comprises a first fixture, a second fixture, and the following steps

S2.1, mounting a third semi-finished product on one surface, close to the first double-sided adhesive tape c, of the first semi-finished product through a first jig to obtain a PI + double-sided adhesive tape + waterproof breathable film n which is laminated and attached from top to bottom;

s2.1, installing the second semi-finished product on one surface, close to the first double-sided adhesive tape c, of the first semi-finished product through a second jig, clamping the third semi-finished product between the first semi-finished product and the second semi-finished product, and attaching the edges of the first semi-finished product and the second semi-finished product to obtain a first original film b + double-sided adhesive tape + waterproof breathable film n + second double-sided adhesive tape g + second original film h + third double-sided adhesive tape i which are laminated from top to bottom and attached to each other, as shown in the figure 7.

In this embodiment, the step S3 is to perform integral die cutting and shaping on the semi-finished product. The finished product is from top to bottom: first original film b + double-sided adhesive tape + waterproof breathable film n + second double-sided adhesive tape g + second original film h + third double-sided adhesive tape i

With reference to fig. 4, the steps: the shaping includes a sixth set of cutting equipment 41 and a ninth applying equipment 42, and further includes the following steps.

S3.1, inputting the assembled first semi-finished product, third semi-finished product and second semi-finished product into a sixth set of cutting equipment 41 for overall shape cutting, and entering ninth attaching equipment 42 after cutting;

and S3.2, discharging waste materials in the ninth laminating device 42 to obtain a finished product.

According to the mic waterproof breathable film n produced by the process, the waterproof breathable film n is smaller than double-sided tapes on two sides by a circle, the appearance of the waterproof breathable film n is wrapped by the glue appearances on two sides, and the waterproof breathable film n is not stressed in the customer suction process, so that the problem of layering of the waterproof breathable film n is completely solved.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the invention.

Claims

1.mic waterproof breathable film edge covering composite process, which is characterized by comprising the following steps

First compounding, namely compounding a first original film (b) and a first double-sided adhesive (c) to form a first semi-finished product;

second compounding, namely laminating and compounding a second double-sided adhesive (g), a second original film (h) and a third double-sided adhesive (i) in sequence to form a second semi-finished product;

cutting, namely cutting the edge of the waterproof breathable film (n) until the area of the waterproof breathable film is reduced integrally and is smaller than that of the first semi-finished product and that of the second semi-finished product, so as to obtain a third semi-finished product;

assembling, namely clamping a third semi-finished product between the first semi-finished product and the second semi-finished product, and attaching the edges of the first semi-finished product and the second semi-finished product;

and shaping to obtain a finished product.

2. The mic waterproof breathable film hemming compounding process according to claim 1, wherein the step of: in the first compounding, the laminating machine comprises first laminating equipment (11), first sleeving and cutting equipment (12) and second laminating equipment (13) which are sequentially arranged.

3. The mic waterproof breathable film hemming compounding process according to claim 2, wherein the step is: the first compounding further comprises the steps of,

inputting a first carrier film (a) and a first original film (b) into first laminating equipment (11) for laminating, and then sequentially inputting a first double-sided adhesive (c) and first face paper (d) into the first laminating equipment (11) for laminating;

feeding the first surface paper (d), the first double-sided adhesive (c), the first original film (b) and the first bottom supporting film (a) which are laminated and attached from top to bottom into a first set of cutting equipment (12) for cutting, and feeding the cut first surface paper, the first original film and the first bottom supporting film into second attaching equipment (13);

and in the second laminating equipment (13), the first surface paper (d) is discharged and input into the second surface paper (e) for laminating, so that a first semi-finished product with the first carrier film (a) and the second surface paper (e) is obtained.

4. The mic waterproof breathable film hemming compounding process according to claim 1, wherein the step of: and in the second compounding process, the laminating machine comprises a third laminating device (21), a second sleeving and cutting device (22), a fourth laminating device (23), a third sleeving and cutting device (24) and a fifth laminating device (25) which are sequentially arranged.

5. The mic waterproof breathable film hemming compounding process according to claim 4, wherein the step is: the second compounding further includes the steps of,

the second carrier film (f) and the second double-sided adhesive (g) are firstly input into a third laminating device (21) for laminating, then the second original film (h) and the third double-sided adhesive (i) are sequentially input into the third laminating device (21) for laminating, and the third carrier film (k) and the third paper (j) are input for laminating;

feeding a third surface paper (j), a third double-sided adhesive tape (i), a second original film (h), a second double-sided adhesive tape (g), a second bottom supporting film (f) and a third bottom supporting film (k) which are laminated and attached from top to bottom into second sleeving and cutting equipment (22) for cutting, and feeding the cut materials into fourth attaching equipment (23);

in the fourth laminating equipment (23), discharging third surface paper (j), inputting fourth surface paper (l) for laminating, and entering third cutting equipment (24);

in the third cutting device (24), the rest except the third bottom film (k) is cut into a plurality of pieces, and then the pieces enter a fifth laminating device (25);

and in the fifth laminating equipment (25), discharging waste materials to obtain a second semi-finished product with a third bottom supporting film (k), a second bottom supporting film (f) and third surface paper (j).

6. The mic waterproof breathable film hemming compounding process according to claim 1, wherein the step of: the cutting comprises a sixth laminating device (31), a fourth laminating device (32), a seventh laminating device (33), a fifth laminating device (34) and an eighth laminating device (35) which are sequentially arranged.

7. The mic waterproof breathable film hemming compounding process according to claim 6, wherein the step is: the cutting further comprises the following steps of,

the fourth carrier film (m) and the waterproof breathable film (n) are firstly input into sixth laminating equipment (31) for laminating, and then the fifth carrier film (p) and the fifth surface paper (o) are laminated;

feeding the fifth surface paper (o), the waterproof breathable film (n), the fourth bottom supporting film (m) and the fifth bottom supporting film (p) which are laminated and attached from top to bottom into a fourth set of cutting equipment (32) for cutting, and feeding the cut fifth bottom supporting film into seventh attaching equipment (33);

in the seventh laminating device (33), fifth surface paper (o) is discharged, and the sixth surface paper (q) is input for laminating and enters a fifth set cutting device (34);

in the fifth set of cutting equipment (34), the rest except the fifth supporting film (p) is cut into a plurality of pieces, and then the pieces enter eighth laminating equipment (35);

and in the eighth laminating device (35), discharging waste materials to obtain a third semi-finished product with a fifth base film (p), a fourth base film (m) and a sixth paper (q).

8. The mic waterproof breathable film hemming composite process according to any one of claims 1 to 7, wherein the process comprises the following steps: in the assembly, the fixture comprises a first fixture,

and (c) mounting the third semi-finished product on the surface, close to the first double-faced adhesive tape (c), of the first semi-finished product through the first jig.

9. The mic waterproof breathable film hemming compounding process according to claim 8, wherein the step of: in the assembly process, the device also comprises a second jig,

and (3) mounting the second semi-finished product on the surface, close to the first double-sided adhesive (c), of the first semi-finished product through a second jig, clamping a third semi-finished product between the first semi-finished product and the second semi-finished product, and attaching the edges of the first semi-finished product and the second semi-finished product.

10. The mic waterproof breathable film hemming composite process according to any one of claims 1 to 7, wherein the step of: in the shaping process, a sixth set of cutting equipment (41) and a ninth attaching equipment (42) are included,

inputting the assembled first semi-finished product, third semi-finished product and second semi-finished product into a sixth set of cutting equipment (41) for overall shape cutting, and entering ninth attaching equipment (42) after cutting;

and in the ninth laminating equipment (42), discharging waste materials to obtain a finished product.