CN218262362U

CN218262362U - Multi-functional stratiform electrically conductive cloth double faced adhesive tape subassembly

Info

Publication number: CN218262362U
Application number: CN202222774733.3U
Authority: CN
Inventors: 张继翔; 何荣; 贾军虎; 徐敏
Original assignee: Jiebang Precision Technology Co ltd
Current assignee: Jiebang Precision Technology Co ltd
Priority date: 2022-10-21
Filing date: 2022-10-21
Publication date: 2023-01-10
Anticipated expiration: 2032-10-21

Abstract

The utility model discloses a multi-functional stratiform electrically conducts cloth double faced adhesive tape subassembly, this subassembly includes in proper order: functional layers such as an insulating adhesive tape layer, a single-sided adhesive tape layer, a first insulating film layer, a first double-sided adhesive tape layer, a conductive cloth adhesive tape layer, an insulating PET layer, a release film layer, a second double-sided adhesive tape layer and a second insulating film layer; the two sides of the insulating adhesive tape layer, the single-sided adhesive tape layer and the conductive cloth adhesive tape layer are provided with protruding first side wing parts, and correspondingly, the release film layer, the second double-sided adhesive tape layer on the release film layer and the second insulating film layer are also provided with second side wing parts matched with the first side wing parts in shape; a plurality of hollow parts are arranged in the insulating PET layer. The utility model discloses electrically conductive cloth double faced adhesive tape subassembly of multi-functional stratiform has the combined material up to nine layers, possesses functional layer such as bonding, electrically conductive, insulation simultaneously, through adopting multiunit flat knife cross cutting processing and to pasting process steps such as equipment, assembles after simplifying complicated structure to make production efficiency improve 50% -90%.

Description

Multi-functional stratiform electrically conductive cloth double faced adhesive tape subassembly

Technical Field

The utility model relates to a combined material and cross cutting processing technology field specifically are multi-functional stratiform electrically conductive cloth double faced adhesive tape subassembly.

Background

Precision electronic products such as cell-phones, panel computer, notebook computer and products such as various precision instruments equipment need use the compound subassembly of multiple functions's cross cutting when the equipment, for example double faced adhesive tape subassembly, electrically conductive cloth subassembly, shock attenuation bubble cotton subassembly, insulating shielding subassembly etc. this type of subassembly has very big difference according to the use occasion of difference, the material of product, hierarchy structure and preparation technology etc. especially to the compound subassembly that the hierarchy requires many, often can not adopt single flat sword cross cutting or circular knife cross cutting processing just can realize. If various functional components are produced independently, great assembly difficulty is brought to the terminal during use, assembly efficiency and accuracy are affected, and great troubles and losses are brought to a terminal user.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional stratiform electrically conducts cloth double faced adhesive tape subassembly to the customer's demand, produce the multi-functional stratiform electrically conducts cloth double faced adhesive tape subassembly that contains adhesive linkage, electrically conductive functional layer, a plurality of insulating functional layer simultaneously, and design out the high-efficient production technology of optimization, facilitate for the follow-up use of customer.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a two sided adhesive tape subassembly of electrically conductive cloth of multi-functional stratiform, this subassembly includes from bottom to top in proper order: the conductive fabric adhesive tape comprises an insulating adhesive tape layer with an upward adhesive surface, a single-sided adhesive tape layer which is overlapped and compounded with the insulating adhesive tape layer in shape and has an upward adhesive surface, a first insulating film layer which is matched with the outline of one side of the single-sided adhesive tape layer, a first double-sided adhesive tape layer which is overlapped and compounded with the first insulating film layer in shape, a conductive fabric adhesive tape layer which is overlapped and compounded with the insulating adhesive tape layer in shape and covers the first double-sided adhesive tape layer, an insulating PET layer which is consistent with the outline of the first double-sided adhesive tape layer and compounded in one side area of the upper surface of the conductive fabric adhesive tape layer, a release film layer which is compounded with the insulating PET layer in the same layer and in the other side area of the upper surface of the conductive fabric adhesive tape layer, a second double-sided adhesive tape layer which is overlapped and compounded with the release film layer in shape, a second insulating film layer which is compounded with the second double-sided adhesive tape layer in shape, and a release paper layer which completely covers the material of the second insulating PET layer;

the two sides of the insulating tape layer, the single-sided tape layer and the conductive cloth tape layer are provided with protruded first side wing parts, and correspondingly, the release film layer, the second double-sided tape layer on the release film layer and the second insulating film layer are also provided with second side wing parts matched with the first side wing parts in shape; the conductive cloth adhesive tape layer is also formed with a crease line;

a plurality of hollow parts are formed in the insulating PET layer;

the release film layer protrudes out of the conductive cloth adhesive tape layer towards the other side.

In the above-mentioned multi-functional stratiform electrically conducts cloth double faced adhesive tape subassembly: the outline of the first insulating film layer, the outline of the first double-sided adhesive tape layer and the outline of the insulating PET layer are rectangular and are equivalent to the outline of one side area of the insulating adhesive tape layer; and a protective film layer is attached to the lower surface of the insulating tape layer.

The utility model discloses electrically conductive cloth double faced adhesive tape subassembly of multi-functional stratiform has up to nine layers of combined material, possesses functional layer such as bonding, electrically conductive, insulating simultaneously, through adopting multiunit flat knife cross cutting processing and to pasting process steps such as equipment, assembles after simplifying complicated structure to make production efficiency improve 50% -90%; when the product is used subsequently, the release paper layer on the surface is only needed to be peeled off, so that the insulating PET layer, the hollow part of the insulating PET layer and the conductive cloth adhesive tape layer exposed from the hollow part are exposed and are attached and assembled with the corresponding equipment part, and other parts of the product respectively play a role in isolating and insulating other parts.

Drawings

Fig. 1 and fig. 2 are schematic diagrams of an exploded view and a combined planar structure of the multifunctional layered conductive cloth double-sided adhesive tape assembly of the present invention;

fig. 3 is an exploded view of the intermediate product a of the present invention;

3-1, 3-2 are schematic plan views of the cutting plates of the first and second flat-cutter die-cutting modules for forming the semi-finished product A; 3-3, 3-4 are schematic die-cutting levels of the first flat-blade die-cutting module and the second flat-blade die-cutting module, respectively; 3-5 are schematic diagrams of the superimposed effect of the first flat-blade die-cutting module and the second flat-blade die-cutting module after die-cutting;

fig. 4 is an exploded view of the intermediate product B of the present invention;

4-1, 4-2 are schematic plan views of the third and fourth flat-cutter die-cutting modules for forming the semi-finished product A; 4-3 and 4-4 are schematic die-cutting levels of a third flat-blade die-cutting module and a fourth flat-blade die-cutting module, respectively; 4-5 are schematic diagrams showing the superimposed effect of the third flat-blade die-cutting module and the fourth flat-blade die-cutting module after die-cutting;

fig. 5 is an exploded view of the intermediate product C of the present invention;

FIG. 5-1 is a schematic plan view of a knife template of a fifth flat-blade die-cutting die set for forming a blank C; FIG. 5-2 is a die cut level schematic view of a fifth flat-blade die cutting module;

5-3 are schematic diagrams of the superimposed effect of five flat-blade die-cutting modules after die cutting.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to the attached

drawings

1 and 2, the present invention provides a multifunctional layered conductive cloth double-sided adhesive tape assembly, which comprises in sequence from bottom to top: an insulating adhesive tape layer 1 with an upward adhesive surface, a single-sided adhesive tape layer 2 overlapped and compounded with the insulating adhesive tape layer 1 in a shape and with an upward adhesive surface, a first insulating film layer 3 matched with one side of the single-sided adhesive tape layer 2 in contour (and completely positioned in the single-sided adhesive tape layer), a first double-sided adhesive tape layer 4 overlapped and compounded with the first insulating film layer 3 in shape, a conductive adhesive tape layer 5 overlapped and compounded with the insulating adhesive tape layer 1 in shape and covering the first double-sided adhesive tape layer 4, an insulating PET layer 6 matched with the first double-sided adhesive tape layer 4 in contour and compounded in one side area of the upper surface of the conductive adhesive tape layer 5, a release film layer 7 compounded with the insulating PET layer 6 in the same layer and in the other side area of the upper surface of the conductive adhesive tape layer 5 (and the release film layer 7 protrudes out of the conductive adhesive tape layer 5 towards the other side), a second double-sided adhesive tape layer 8 overlapped and compounded with the release film layer 7 in shape, a second insulating film layer 9 overlapped and compounded with the second double-sided adhesive tape layer 8, and a release paper layer 10 completely covering the second insulating PET layer 9 and the side material where the insulating PET layer 6 are positioned;

the two sides of the insulating tape layer 1, the single-sided tape layer 2 and the conductive fabric tape layer 5 are provided with a first protruding wing portion 201, and correspondingly, the release film layer 7, the second double-sided tape layer 8 thereon and the second insulating film layer 9 are also provided with a second wing portion 801 matched with the first wing portion 201 in shape; a crease line 501 is formed on the conductive cloth adhesive tape layer 5, and the crease line 501 is a closed rectangular crease line 501 in this embodiment; the release film layer 7 protrudes out of the conductive cloth adhesive tape layer 5 towards the other side;

a plurality of hollow parts 601 are arranged inside the insulating PET layer 6, in the embodiment, two hollow parts 601 are rectangular, so that the conductive cloth adhesive tape layer 5 is exposed to be assembled and connected with other elements when in use;

in the above-mentioned multi-functional stratiform electrically conducts cloth double faced adhesive tape subassembly: the outline of the first insulating film layer 3, the outline of the first double-sided adhesive tape layer 4 and the outline of the insulating PET layer 6 are rectangular and are equivalent to the outline of one side area of the insulating adhesive tape layer 1; a protective film layer 11 is further attached to the lower surface of the insulating tape layer 1.

The utility model discloses production technology of electrically conductive cloth double faced adhesive tape subassembly of multi-functional stratiform contains following step:

step a, respectively producing a semi-finished product A, a semi-finished product B and a semi-finished product C;

referring to fig. 3, 3-1 to 3-5, a semi-finished product a includes a conductive fabric adhesive tape layer 5 and an insulating PET layer 6, first two first transitional release film tapes G1 arranged at intervals are compounded on a first carrier film tape T1, a release surface of each first transitional release film tape G1 faces upward, a non-release surface faces toward the first carrier film tape T1, and then an insulating PET tape P1 is compounded between the two first transitional release film tapes G1, one edge of each insulating PET tape P1 is adjacent to an inner edge of one first transitional release film tape G1, and the other edge of each insulating PET tape P1 is located on a release surface of the other first transitional release film tape G1, that is, the insulating PET tape P1 is partially compounded on the first carrier film tape T1, and partially compounded on the other first transitional film tape G1; the composite material belt is subjected to die cutting by adopting a first flat-cutter die-cutting module M1, the first flat-cutter die-cutting module M1 is used for die-cutting and forming a long-edge outer contour line and a hollow part 601 of the insulated PET layer 6 on the insulated PET material belt P1, and the insulated PET layer 6 is just positioned in an area between two first transition release type film material belts G1; cutting through the material belt at the hollow part 601 of the insulating PET layer 6, removing waste materials in the hole, and removing the waste materials above the first transition release film material belt G1 of the insulating PET material belt P1; this compound material area is two-layer structure this moment: the first carrier film material belt T1 is provided with a shaped hole matched with the shape of the hollow part, and the two first transition carrier film material belts G1 and the insulated PET material belt P1 with the hollow part are compounded on the first carrier film material belt T1 in the same layer; compounding a conductive adhesive tape D1 and a lower Fang Fuge second transitional release film tape G2 above the composite tape, then performing die cutting on the composite tape by using a second flat cutting die set M2, cutting out all the outline of the conductive adhesive tape layer 5 by using the second flat cutting die set M2, simultaneously cutting out the other three outline of the insulating PET layer 6, simultaneously forming a pressing line 501 on the conductive adhesive tape layer 5, and cutting out a first semi-finished product positioning hole K101 on the first carrier film tape T1 and the second transitional release film tape G2; then, removing the outer frame waste of the conductive cloth adhesive tape layer 5, the outer frame waste of the insulating PET layer 6 and the second transitional release type film material tape G2, forming a semi-finished product A with the formed conductive cloth adhesive tape layer 5 and the insulating PET layer 6, namely arranging the semi-finished product A on the first carrier film material tape T1 and the first transitional release type film material tape G1 at intervals, compounding a layer of first transitional release type paper material tape Z1 above the conductive cloth adhesive tape layer 5, and rolling for later use;

as shown in fig. 4, 4-1 to 4-5, the semi-finished product B includes a first double-sided tape layer 4, a first insulating film layer 3, a single-sided tape layer 2, and an insulating tape layer 1; firstly, compounding a first double-sided adhesive tape material tape S1 with a release film material tape S11 with a first insulating film material tape J1, feeding and die-cutting the first insulating film material tape J1 through a third flat-cutter die-cutting module M3, forming a long-side outer contour line on the first insulating film material tape J1 and the first double-sided adhesive tape S1, and then removing waste materials outside the long-side outer contour line;

on the other hand, the non-adhesive surface of the single-sided tape material strip D2 is compounded with the adhesive surface of the insulating tape material strip D3, the third transitional release film material strip G3 is compounded on the non-adhesive surface of the insulating tape material strip D3, the fourth transitional release film material strip G4 is compounded on each of the two sides of the insulating tape material strip D3 in the third transitional release film material strip G3, the adhesive surface of the single-sided tape material strip D2 in the composite material strip is compounded on the first insulating film material strip J1 subjected to die cutting waste discharge by the third flat knife die cutting module M3, one side of the single-sided tape material strip D2 is compounded with the self-adhesive release film material strip of the first double-sided tape material strip S1, and the composite material strip is turned over, wherein the steps are sequentially from bottom to top: a third transitional release film material belt G3, an insulating tape material belt D3, a single-sided tape material belt D2, a first insulating film material belt J1, a first double-sided tape material belt S1 and a release film material belt carried by the first double-sided tape material belt S1; then, die cutting is carried out on the composite material belt through a fourth flat cutter die cutting module M4, all contour lines of a single-sided adhesive tape layer 2 and an insulating adhesive tape layer 1 are cut from a self-release film material belt of a first double-sided adhesive tape belt S1 by feeding, half cutting to a third transitional release film material belt G3, the other three contour lines of a first insulating film layer 3 and a first double-sided adhesive tape layer 4 are also cut, a second semi-finished product positioning hole K201 is also cut on the third transitional release film material belt G3, a first assembling positioning hole Z101 is formed on the two fourth transitional release film material belts G4, and the first assembling positioning hole Z101 corresponds to the first semi-finished product positioning hole K101, so that a semi-finished product A and a semi-finished product B are positioned and assembled; then, removing outer frame waste materials of the insulating tape material belt D3, the single-side tape material belt D2 and the first double-side tape self-carrying release film material belt, removing frame waste materials of the single-side tape layer 2 and the first double-side tape layer 4 through a waste discharging tape, distributing semi-finished products B on the third transition release film material belt G3 at intervals, and then compounding a fifth transition release film material belt on the first double-side tape layer 4 and the single-side tape layer 2 and then rolling for later use;

the semi-finished product C comprises a release film layer 7, a second double-sided adhesive tape layer 8 and a second insulating film layer 9; compounding a non-release surface of a release type film material belt L1 with a second double-sided adhesive tape material belt S2, sequentially compounding a second insulating film material belt J2, a sixth transitional release type film material belt G6 and a second carrier film material belt T2 on the other surface of the second double-sided adhesive tape material belt S2, performing die cutting on the composite material belt through a fifth flat-cutter die-cutting module M5, feeding from the upper side of the release type film material belt L1, performing half-cutting to the second carrier film material belt T2, forming all outer frame contour lines of a release film layer 7, a second double-sided adhesive tape layer 8 and a second insulating film layer 9, forming second assembly positioning holes Z201 corresponding to the first assembly positioning holes Z101 on two sides of the sixth transitional release type film material belt G6, removing frame outer wastes of the release type film material belt L1, the second double-sided adhesive tape material belt S2 and the second insulating film material belt J2, peeling off the second carrier film T2, arranging semi-finished products C on the sixth transitional release type film material belt G6 at intervals, and compounding a layer of a second standby release type standby release paper material belt Z2 on a winding layer;

and (c) combining the semi-finished product A and the semi-finished product B with the combination of the following steps of 5-5: firstly, stripping a first transitional release type paper material belt on the material belt of the semi-finished product A and a fifth transitional release type film material belt on the material belt of the semi-finished product B, and oppositely pasting the first transitional release type paper material belt and the fifth transitional release type film material belt on the material belt of the semi-finished product B through a first semi-finished product positioning hole K101 and a second semi-finished product positioning hole K201 to compound a conductive cloth adhesive tape layer 5 on the semi-finished product A, a first double-sided adhesive tape layer 4 on the semi-finished product B and an exposed part of a single-sided adhesive tape layer 2, so that the semi-finished product A and the semi-finished product B are oppositely pasted and assembled together;

at this moment, the composite structure of the semi-finished product A and the semi-finished product B is sequentially as follows: the first transition release film material belt comprises a first transition release film material belt, an insulation adhesive tape layer, a single-sided adhesive tape layer, a first insulation film layer, a first double-sided adhesive tape layer, a conductive cloth adhesive tape layer, an insulation PET layer with a hollow-out part, two first transition release film material belts and a first support base film material belt; then stripping the first carrier film material strip and the two first transition release film material strips to expose the conductive cloth adhesive tape layer and the insulating PET layer, stripping the second transition release paper material strip on the semi-finished product C to expose the release film layer on the semi-finished product C, aligning the second assembly positioning holes Z201 on the two sides of the sixth transition release film material strip G6 with the first assembly positioning holes Z101 to align and compound the release film layer on the semi-finished product C with the conductive cloth adhesive tape layer 5 exposed on the semi-finished product A, and keeping the insulating PET layer 6 on the semi-finished product A exposed; and finally, peeling off the third transition release film material belt at the bottom of the finished product after the finished product is assembled, transferring the third transition release film material belt onto the protective film material belt, peeling off the sixth transition release film material belt G6 of the semi-finished product C positioned on the upper layer, compounding the upper release paper material belt, enabling the release paper material belt on the top layer to completely cover the second insulating film layer and the insulating PET layer, and rolling or slitting to complete the finished product assembly.

In the above process, the knife template of the first flat knife die-cutting module M1 has a first straight knife edge M101 for forming one long-side outer contour line of the insulating PET layer, and two first closed knife edges M102 for forming the hollow portion, the two first closed knife edges M102 form two rectangular hollow portions 601 on the same component through two die-cutting actions, and each rectangular hollow portion in two adjacent components is formed through one action; the upper side and the lower side of the two first closing blades M102 are respectively provided with a first semi-finished product positioning hole blade M103, one upper side and two lower sides are distributed in a triangular shape, so as to form a first semi-finished product positioning hole K101; the upper side and the lower side of the first straight line blade M101 are respectively provided with a first positioning column M104 corresponding to the first semi-finished product positioning hole blade M103, and a first step distance is formed between the first semi-finished product positioning hole blade M103 and the first positioning column M104; the knife template of the second flat-knife die-cutting module M2 is provided with a first peripheral contour line knife edge M201 for forming the whole contour of the conductive cloth adhesive tape layer 5 and a crease line raised line M202 for forming the crease line, and is provided with a second positioning column M203 corresponding to the first semi-finished product positioning hole knife edge M103, and the second positioning column M203 is used for positioning and die-cutting with the formed first semi-finished product positioning hole K101.

A second linear blade M301 for forming a long-side outer contour line of the first insulating film layer 3 and the first double-sided tape layer 4 is arranged on a blade template of the third flat-blade die-cutting module M3, a second semi-finished product positioning hole blade M302 and a third positioning column M303 corresponding to the second semi-finished product positioning hole blade M302 are respectively arranged on the upper side and the lower side of the second linear blade M301, a second step distance is formed between the second semi-finished product positioning hole blade M302 and the third positioning column M303, and the second step distance is equal to the first step distance; a second peripheral contour line cutting edge M401 for forming all contour lines of the single-sided adhesive tape layer 2 and the insulating adhesive tape layer 1 is arranged on a cutter template of the fourth flat cutter die cutting module M4, fourth positioning columns M402 corresponding to the second semi-finished product positioning hole cutting edge M302 are further arranged on the upper and lower sides of the second peripheral contour line cutting edge M401, a group of first assembly positioning hole cutting edges M403 are further arranged, the first assembly positioning hole cutting edges M403 correspond to the first semi-finished product positioning hole cutting edges M103, and three cutting edges are also arranged in regions between the second peripheral contour line cutting edge M401 and the fourth positioning columns M402 on the upper and lower sides respectively and are used for positioning and assembling of the semi-finished product B, the semi-finished product a and the semi-finished product C.

The knife template of the fifth flat-knife die-cutting module M5 is provided with a third peripheral contour line blade M501 for forming the second double-sided adhesive tape layer 8 and all the outer frame contour lines of the second insulating film layer 9, and is further provided with a second assembly positioning hole blade M502 corresponding to the first assembly positioning hole blade M403, and a second assembly positioning hole Z201 formed by the first assembly positioning hole blade Z101 and the second assembly positioning hole blade M502 formed by the first assembly positioning hole blade M403, so that the semi-finished product C is assembled on the semi-finished product B.

The utility model discloses electrically conductive cloth double faced adhesive tape subassembly of multi-functional stratiform has up to nine layers of combined material, possesses functional layer such as bonding, electrically conductive, insulating simultaneously, through adopting multiunit flat knife cross cutting processing and to pasting process steps such as equipment, assembles after simplifying complicated structure to make production efficiency improve 50% -90%; when the product is used subsequently, only the release paper layer on the surface needs to be peeled off, so that the insulating PET layer, the hollow part thereof and the conductive cloth adhesive tape layer exposed by the hollow part are exposed and are attached and assembled with the corresponding equipment part, and other parts of the product respectively play a role in isolating and insulating other parts.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a two-sided adhesive tape subassembly of electrically conductive cloth of multi-functional stratiform which characterized in that: this subassembly includes from bottom to top in proper order: the conductive fabric adhesive tape comprises an insulating adhesive tape layer with an upward adhesive surface, a single-sided adhesive tape layer which is overlapped and compounded with the insulating adhesive tape layer in shape and has an upward adhesive surface, a first insulating film layer which is matched with the outline of one side of the single-sided adhesive tape layer, a first double-sided adhesive tape layer which is overlapped and compounded with the first insulating film layer in shape, a conductive fabric adhesive tape layer which is overlapped and compounded with the insulating adhesive tape layer in shape and covers the first double-sided adhesive tape layer, an insulating PET layer which is consistent with the outline of the first double-sided adhesive tape layer and compounded in one side area of the upper surface of the conductive fabric adhesive tape layer, a release film layer which is compounded with the insulating PET layer in the same layer and in the other side area of the upper surface of the conductive fabric adhesive tape layer, a second double-sided adhesive tape layer which is overlapped and compounded with the release film layer in shape, a second insulating film layer which is compounded with the second double-sided adhesive tape layer in shape, and a release paper layer which completely covers the material of the second insulating PET layer;

a plurality of hollow parts are formed in the insulating PET layer;

2. The multifunctional layered conductive cloth double-sided tape assembly according to claim 1, wherein: the outline of the first insulating film layer, the outline of the first double-sided adhesive tape layer and the outline of the insulating PET layer are rectangular and are equivalent to the outline of one side area of the insulating adhesive tape layer; and a protective film layer is attached to the lower surface of the insulating tape layer.