CN216738182U - Attached electrically conductive insulating protection glass of sectional type bending - Google Patents

Abstract

The utility model discloses a sectional type bending attached conductive insulation protection sheet which comprises a grid release film, wherein MYLAR adhesive tape I is arranged on one side of the grid release film, a silica gel protection film covers the grid release film and the MYLAR adhesive tape I at the same time, and a conductive insulation composite film is arranged between the silica gel protection film and the grid release film. According to the utility model, an MYLAR tape II, a front release film, a rear release film, a double-sided adhesive and a conductive double-sided adhesive are integrally connected, a gap is formed between the front release film and the rear release film, a gap is formed between the double-sided adhesive and the conductive double-sided adhesive, the insulating double-sided adhesive and the conductive double-sided adhesive with conductive performance are arranged below the MYLAR tape II, a plurality of conductive insulating composite films with silica gel protective films can be compounded on the same grid release film through the MYLAR tape I, the adhesion force is enhanced, the MYLAR tape is not easy to fall off, the overall structure is suitable for bending and attaching, the double functions of conduction and insulation are realized, the overall structure is simple, and the MYLAR tape is suitable for industrial popularization and use.

Description

Attached electrically conductive insulating protection glass of sectional type bending

Technical Field

The utility model belongs to the technical field of protective films, and particularly relates to a sectional type bending and attaching conductive insulating protective sheet.

Background

The surface of the device is usually required to be pasted with a protective film so as to protect the surface of the device and prolong the service life. However, the existing protective film is usually of an integrated structure, so that the integration of insulation and conductivity can be rarely achieved, the product after bending and attaching can not be broken, the product is not easy to rebound, and the diversified requirements of devices can not be met.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems in the prior art, the utility model aims to provide a sectional bending attached conductive insulating protective sheet.

In order to achieve the purpose and achieve the technical effect, the utility model adopts the technical scheme that:

the utility model provides a segment type bends attached electrically conductive insulating protection piece, leaves the type membrane including the net, the net is provided with MYLAR sticky tape I from type membrane one side along its length direction, and the silica gel protection film covers simultaneously on net is from type membrane and MYLAR sticky tape I, and silica gel protection film and net are provided with electrically conductive insulating composite film from between the type membrane, and electrically conductive insulating composite film's size is not more than the size of bonding the silica gel protection film on net is from type membrane.

Furthermore, a part of the silica gel protective film is directly bonded on the MYLAR adhesive tape I, the rest part of the silica gel protective film is directly bonded on the grid release film, and a conductive insulating composite film is arranged between the silica gel protective film and the grid release film.

Further, electrically conductive insulating composite film is including setting gradually from type membrane and back from type membrane, MYLAR sticky tape II and be located same horizontal plane and face relative preceding from type membrane and back that from top to bottom and be located same horizontal plane and face relative electrically conductive double faced adhesive tape and double faced adhesive tape, preceding from type membrane and back from interval setting between the type membrane, interval setting between double faced adhesive tape and the electrically conductive double faced adhesive tape, preceding from type membrane and back bond respectively in two sides around II top surfaces of MYLAR sticky tape from type membrane bottom surface partly, and electrically conductive double faced adhesive tape and double faced adhesive tape top surface partly bond respectively in two sides around II bottom surfaces of MYLAR sticky tape.

Furthermore, a bulge is arranged on one side of the MYLAR adhesive tape II, and a position avoiding opening is formed in the bulge.

Further, the thickness of the front release film and the thickness of the rear release film are respectively 0.1 +/-0.003 mm.

Furthermore, the MYLAR adhesive tape II comprises a black polyester film, an acrylic adhesive layer and a release layer which are sequentially arranged from top to bottom, the total thickness is 15-40 mu m, and the peel force tested by a 180-degree peel machine is greater than 500g/25 mm.

Furthermore, the thickness of the conductive double-sided adhesive tape is 100 +/-15 mu m, the surface resistance in the x-y direction is less than 0.3 omega/sq, and the contact resistance in the z direction is less than 0.05 omega/in²。

Furthermore, the thickness of the double-sided adhesive tape is 100 +/-15 mu m, and the elongation at break is less than 50%.

Furthermore, the thickness of the grid release film is 90 +/-10 microns, and the thickness of the MYLAR adhesive tape I is controlled to be 60 +/-5 microns.

Further, the silica gel protection film includes two-layer polyester film PET and coats the silica gel glue layer between the two, and the thickness of individual layer polyester film PET is 0.038 + -0.001 mm, and the thickness sum of two-layer polyester film PET is 0.075 + -0.001 mm, and the thickness of silica gel glue layer is 0.01 + -0.002 mm.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model discloses a sectional bending attached conductive insulation protection sheet, which comprises a grid release film, wherein MYLAR adhesive tape I is arranged on one side of the grid release film along the length direction of the grid release film, a silica gel protection film covers the grid release film and the MYLAR adhesive tape I at the same time, a conductive insulation composite film is arranged between the silica gel protection film and the grid release film, and the size of the conductive insulation composite film is not larger than that of the silica gel protection film adhered to the grid release film. The utility model provides a sectional type bending attached conductive insulation protection sheet, a silica gel protection film is arranged at the top, a front release film and a rear release film are arranged below the silica gel protection film, opposite surfaces of the front release film and the rear release film are separated, a gap is reserved between the front release film and the rear release film, a MYLAR adhesive tape II is arranged below the middle parts of the front release film and the rear release film, the adhesive surface of the MYLAR adhesive tape II faces downwards, the MYLAR adhesive tape II has insulation and adhesion effects, an insulated double-sided adhesive tape is arranged below the MYLAR adhesive tape II, a conductive double-sided adhesive tape with conductive performance is arranged below the MYLAR adhesive tape II, opposite surfaces of the double-sided adhesive tape and the conductive double-sided adhesive tape are separated, a gap is reserved between the MYLAR adhesive tape II, the front release film, the rear release film and the double-sided adhesive tape and the conductive double-sided adhesive tape, the MYLAR adhesive tape I can compound a plurality of conductive insulation composite films with silica gel protection films on the same grid release film, the adhesion force is enhanced, difficult droing, MYLAR sticky tape I optional bright-colored sticky tape of colour, the discernment of being convenient for, overall structure is fit for bending attached, realizes switching on and insulating dual function, and overall structure is simple, is fit for the industrialization and uses widely.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is an exploded view of the present invention.

Detailed Description

The present invention is described in detail below so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and thus the scope of the present invention can be clearly and clearly defined.

The following presents a simplified summary of one or more aspects in order to provide a basic understanding of such aspects. This summary is not an extensive overview of all contemplated aspects, and is intended to neither identify key or critical elements of all aspects nor delineate the scope of any or all aspects. Its sole purpose is to present some concepts of one or more aspects in a simplified form as a prelude to the more detailed description that is presented later.

In the description of the present invention, the terms "inside", "outside", "vertical", "lateral", "up", "down", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are for convenience only to describe the present invention without requiring the present invention to be necessarily constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1-2, an attached electrically conductive insulating protection piece of sectional type of bending, it is from type membrane 1 to include the net, this net is provided with MYLAR sticky tape I2 along its length direction from type membrane 1 one side, silica gel protection film 3 covers on net is from type membrane 1 and MYLAR sticky tape I2, 3 partly direct bonds of silica gel protection film are in MYLAR sticky tape I2, the remaining part of silica gel protection film 3 is directly bonded on net is from type membrane 1 and is provided with electrically conductive insulating composite film between the two, electrically conductive insulating composite film's size is less than the size of bonding the silica gel protection film 3 on net is from type membrane 1. A plurality of conductive insulation composite films can be bonded on the grid release film 1 through MYLAR adhesive tapes I2.

Electrically conductive insulating composite film is including being located same horizontal plane and the relative preceding type membrane 4 of leaving of face and back 5 from the type membrane from top to bottom set gradually, MYLAR sticky tape II 6 reaches and is located same horizontal plane and the relative electrically conductive double faced adhesive tape 7 of face and double faced adhesive tape 8, electrically conductive double faced adhesive tape 7 is in the front, double faced adhesive tape 8 is in the back, preceding type membrane 4 sets up with the back interval between the type membrane 5 from type membrane, there is the interval between the two opposite faces, preceding type membrane 4 and the back type membrane 5 from type membrane 4 after tearing down, each other does not influence, interval setting between electrically conductive double faced adhesive tape 7 and the double faced adhesive tape 8, there is the interval between the two opposite faces, preceding type membrane 4 and the back gap between type membrane 5 and the clearance looks adaptation between electrically conductive double faced adhesive tape 7 and the double faced adhesive tape 8. More specifically, preceding from type membrane 4 and back 5 bottom surfaces of type membrane partly bond respectively in MYLAR sticky tape II 6 top surface front and back both sides, and then utilize MYLAR sticky tape II 6 will preceding from type membrane 4 and back from type membrane 5 and realize an organic whole and connect, electrically conductive double faced adhesive tape 7 and 8 top surfaces of double faced adhesive tape partly bond respectively in MYLAR sticky tape II 6 bottom surface front and back both sides, and then utilize MYLAR sticky tape II 6 to realize an organic whole with electrically conductive double faced adhesive tape 7 and double faced adhesive tape 8 and connect, electrically conductive double faced adhesive tape 7 and the relative two sides of double faced adhesive tape 8 all have viscidity, can adhere preceding from type membrane 4, back from type membrane 5, MYLAR sticky tape II 6 plays bonding and insulating effect.

The grid release film 1 adopts an LDW36T105 release film, and comprises a release layer, a diamond PE layer, PET, PE and an anti-adsorption layer which are sequentially arranged from top to bottom, the total thickness is 90 +/-10 mu m, the width is 1040mm, and the release force tested by a 180-degree stripping machine is 3 +/-2 g/25 mm.

MYLAR adhesive tape I2 adopts SDK2296CR, and the total thickness is controlled at 60 + -5 μm, and bright colors such as red are preferred, so that the identification is convenient, and the adhesive leakage is avoided.

The silica gel protective film 3 adopts S7512L-38, a polyester film PET is used as a base material, the polyester film PET has two layers, a silica gel glue layer is coated on the polyester film PET, one side of the silica gel glue layer, which is back to the polyester film PET, is adhered with a layer of polyester film PET, the sum of the thicknesses of the two layers of polyester film PET is 0.075 +/-0.001 mm, the thickness of a single layer of polyester film PET is 0.038 +/-0.001 mm, the thickness of the silica gel glue layer is 0.01 +/-0.002 mm, the peeling force tested by a 180-degree peeling machine is 12.5 +/-2.5 g/25mm, the test standard is GB SUS/T2792-1998, the test width of a sample is 25mm, the test object is a 304 steel plate, the test speed is 300mm/min, and the test conditions are as follows: the temperature is 23 +/-2 ℃, and the relative humidity is 65 +/-5%.

The front release film 4 and the rear release film 5 are respectively 100T055B, the thicknesses of the front release film 4 and the rear release film 5 are respectively 0.1 +/-0.003 mm, the residual adhesion rate tested by a 5000g range tensile machine is not less than 85%, and the peeling force tested by a 180-degree 5000g range tensile machine is 25-40g/25 mm. Preceding from type membrane 4 bonds on net is from type membrane 1 through MYLAR sticky tape II 6 and the viscidity of electrically conductive double faced adhesive tape 7, and back is from type membrane 5 and bonds on net is from type membrane 1 through MYLAR sticky tape II 6 and the viscidity of double faced adhesive tape 8.

The MYLAR adhesive tape II 6 adopts FTBFAP-15, comprises a black polyester film, an acrylic acid adhesive layer and a release layer which are sequentially arranged from top to bottom, has the total thickness of 15-40 mu m, has a better shading effect, and has the stripping force of more than 500g/25mm tested by a 180-degree stripping machine.

As a more specific embodiment, a bulge 61 is arranged on one side of the MYLAR adhesive tape II 6, and a position avoiding opening is formed in the bulge 61.

The conductive double-sided adhesive tape 7 is made of tesa60384 and has good conductivity, the thickness of the conductive double-sided adhesive tape is 100 +/-15 mu m, the surface resistance in the x-y direction is less than 0.3 omega/sq, and the contact resistance in the z direction is less than 0.05 omega/in²。

The double-sided adhesive tape 8 is made of tesa4982, the thickness is 100 +/-15 mu m, and the elongation at break is less than 50%.

The working principle of the utility model is as follows:

before attaching, tear the net off from type membrane 1 and silica gel protection film 3, expose electrically conductive insulating composite film, it is preceding from type membrane 4, after from type membrane 5 and MYLAR sticky tape II 6 on with the one side inviscid of the laminating of silica gel protection film 3, the iron sheet adhesion that needs to switch on is on electrically conductive double faced adhesive tape 7, the components and parts adhesion that need not switch on is on double faced adhesive tape 8, and because there is the clearance between electrically conductive double faced adhesive tape 7 and the double faced adhesive tape 8, be convenient for realize bending attached, utilize double faced adhesive tape 8 to realize insulating protection, utilize electrically conductive double faced adhesive tape 7 to realize the conduction, tear preceding type membrane 4 afterwards, after, expose electrically conductive double faced adhesive tape 7 and double faced adhesive tape 8 and carry out the adhesion.

Example 1

As shown in fig. 1-2, an attached electrically conductive insulating protection piece of sectional type of bending, it is from type membrane 1 to include the net, this net is provided with MYLAR sticky tape I2 along its length direction from type membrane 1 one side, silica gel protection film 3 covers on net is from type membrane 1 and MYLAR sticky tape I2, 3 partly direct bonds of silica gel protection film are in MYLAR sticky tape I2, the remaining part of silica gel protection film 3 is directly bonded on net is from type membrane 1 and is provided with electrically conductive insulating composite film between the two, electrically conductive insulating composite film's size is less than the size of bonding the silica gel protection film 3 on net is from type membrane 1. A plurality of conductive insulation composite films can be bonded on the grid release film 1 through MYLAR adhesive tapes I2.

Electrically conductive insulating composite film is including being located same horizontal plane and the relative preceding type membrane 4 of leaving of face and back 5 from the type membrane from top to bottom set gradually, MYLAR sticky tape II 6 reaches and is located same horizontal plane and the relative electrically conductive double faced adhesive tape 7 of face and double faced adhesive tape 8, electrically conductive double faced adhesive tape 7 is in the front, double faced adhesive tape 8 is in the back, preceding type membrane 4 sets up with the back interval between the type membrane 5 from type membrane, there is the interval between the two opposite faces, preceding type membrane 4 and the back type membrane 5 from type membrane 4 after tearing down, each other does not influence, interval setting between electrically conductive double faced adhesive tape 7 and the double faced adhesive tape 8, there is the interval between the two opposite faces, preceding type membrane 4 and the back gap between type membrane 5 and the clearance looks adaptation between electrically conductive double faced adhesive tape 7 and the double faced adhesive tape 8. More specifically, preceding from type membrane 4 and back 5 bottom surfaces of type membrane partly bond respectively in MYLAR sticky tape II 6 top surface front and back both sides, and then utilize MYLAR sticky tape II 6 will preceding from type membrane 4 and back from type membrane 5 and realize an organic whole and connect, electrically conductive double faced adhesive tape 7 and 8 top surfaces of double faced adhesive tape partly bond respectively in MYLAR sticky tape II 6 bottom surface front and back both sides, and then utilize MYLAR sticky tape II 6 to realize an organic whole with electrically conductive double faced adhesive tape 7 and double faced adhesive tape 8 and connect, electrically conductive double faced adhesive tape 7 and the relative two sides of double faced adhesive tape 8 all have viscidity, can adhere preceding from type membrane 4, back from type membrane 5, MYLAR sticky tape II 6 plays bonding and insulating effect.

The grid release film 1 adopts a transparent LDW36T105 release film, and comprises a release layer, a diamond PE layer, PET, PE and an anti-adsorption layer which are sequentially arranged from top to bottom, the total thickness is 90 mu m, the width is 1040mm, and the release force tested by a 180-degree stripping machine is 3g/25 mm.

MYLAR adhesive tape I2 adopts SDK2296CR, and total thickness is controlled at 60 μm, and the color is red, so that the identification is convenient, and the adhesive leakage is avoided.

The silica gel protective film 3 adopts transparent S7512L-38, uses polyester film PET as a substrate, the polyester film PET has two layers, the polyester film PET is coated with a silica gel glue layer, one side of the silica gel glue layer, which is back to the polyester film PET, is adhered with a layer of polyester film PET, the sum of the thicknesses of the two layers of polyester film PET is 0.076mm, the thickness of the single layer polyester film PET is 0.038mm, the thickness of the silica gel glue layer is 0.01mm, the peel force tested by a 180-degree peeling machine is 12.5g/25mm, the test standard is GB/T2792-1998, the test width of a sample is 25mm, the tested object is an SUS304 steel plate, the test speed is 300mm/min, and the test conditions are as follows: the temperature is 23 +/-2 ℃, and the relative humidity is 65 +/-5%. The silica gel protective film 3 is provided with a plurality of through holes with circular structures.

The front release film 4 and the rear release film 5 are respectively blue 100T055B, the thicknesses of the front release film 4 and the rear release film 5 are respectively 0.1mm, the residual adhesion rate tested by a 5000g range tensile machine is not less than 85%, and the peeling force tested by a 180-degree 5000g range tensile machine is 25g/25 mm. Preceding from type membrane 4 bonds on net is from type membrane 1 through MYLAR sticky tape II 6 and the viscidity of electrically conductive double faced adhesive tape 7, and back is from type membrane 5 and bonds on net is from type membrane 1 through MYLAR sticky tape II 6 and the viscidity of double faced adhesive tape 8. The front release film 4 and the rear release film 5 are respectively provided with a position avoiding opening with a step structure at the left end. The front release film 4 is provided with a circular through hole.

MYLAR adhesive tape II 6 adopts black FTBFAP-15, comprises a black polyester film, an acrylic acid adhesive layer and a release layer which are sequentially arranged from top to bottom, has a total thickness of 15 mu m, has a good shading effect, and has a stripping force greater than 500g/25mm when tested by a 180-degree stripping machine.

In a more specific embodiment, a square or other-structured protrusion 61 is arranged on the front side of the MYLAR adhesive tape II 6, and a round or other-structured avoiding opening is formed in the protrusion 61.

The conductive double-sided adhesive tape 7 is made of tesa60384 and has good conductivity, the thickness of the conductive double-sided adhesive tape is 100 mu m, the surface resistance in the x-y direction is 0.2 omega/sq, and the contact resistance in the z direction is 0.04 omega/in²。

The double-sided adhesive tape 8 is made of transparent tesa4982, has a thickness of 100 μm and an elongation at break of 45%.

The left ends of the conductive double-sided adhesive tape 7 and the double-sided adhesive tape 8 are respectively provided with a position avoiding opening with a step structure. The conductive double-sided adhesive tape 7 is provided with a circular through hole. The double-sided adhesive tape 8 is provided with a plurality of grooves for avoiding positions.

The parts or structures not described in detail in the present invention may be implemented by using the prior art, and are not described herein again.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a segment type bends attached electrically conductive insulating protection piece, a serial communication port, leave the type membrane including the net, the net is provided with MYLAR sticky tape I from type membrane one side along its length direction, and the silica gel protection film covers simultaneously on net is from type membrane and MYLAR sticky tape I, and silica gel protection film and net are provided with electrically conductive insulating composite film from between the type membrane, and electrically conductive insulating composite film's size is not more than bonds the size at the mesh from the silica gel protection film on the type membrane.

2. The segmented, bent and attached conductive insulation protection sheet according to claim 1, wherein a part of the silica gel protection film is directly adhered to MYLAR tape I, the rest of the silica gel protection film is directly adhered to the grid release film, and a conductive insulation composite film is arranged between the silica gel protection film and the grid release film.

3. The conductive insulation protection sheet attached by bending in a segmented manner according to claim 1 or 2, wherein the conductive insulation composite film comprises a front release film and a rear release film which are arranged from top to bottom and face to face, a MYLAR tape II, a conductive double-sided adhesive tape and a double-sided adhesive tape, the conductive double-sided adhesive tape and the double-sided adhesive tape are arranged on the same horizontal plane and face to face, the front release film and the rear release film are arranged at intervals, the double-sided adhesive tape and the conductive double-sided adhesive tape are arranged at intervals, a part of the bottom surface of the front release film and a part of the bottom surface of the rear release film are respectively bonded to the front side and the rear side of the top surface of the MYLAR tape II, and a part of the top surface of the conductive double-sided adhesive tape and the double-sided adhesive tape are respectively bonded to the front side and the rear side of the bottom surface of the MYLAR tape II.

4. The segmented bent and attached conductive insulation protection sheet according to claim 3, wherein a protrusion is arranged on one side of the MYLAR tape II, and a position avoiding opening is formed in the protrusion.

5. The protective sheet according to claim 3, wherein the front release film and the rear release film each have a thickness of 0.1 ± 0.003 mm.

6. The segmented bend-attached conductive insulating protective sheet according to claim 3, wherein the MYLAR tape II comprises a black polyester film, an acrylic adhesive layer and a release layer which are sequentially arranged from top to bottom, the total thickness is 15-40 μm, and the peel force measured by a 180-degree peeling machine is greater than 500g/25 mm.

7. The protective bend-applied conductive insulating sheet according to claim 3, wherein the thickness of the conductive double-sided adhesive tape is 100 ± 15 μm, the surface resistance in x-y direction is less than 0.3 Ω/sq, and the contact resistance in z direction is less than 0.05 Ω/in²。

8. The protective, bend-applied, segmented, electrically conductive insulating sheet according to claim 3, wherein said double-sided adhesive has a thickness of 100 ± 15 μm and an elongation at break of < 50%.

9. The protective sheet according to claim 1, wherein the thickness of the mesh release film is 90 ± 10 μm, and the thickness of the MYLAR tape I is controlled to be 60 ± 5 μm.

10. The protective sheet according to claim 1, wherein the silicone protective film comprises two layers of polyester film PET and a silicone glue layer coated therebetween, the thickness of the single layer of polyester film PET is 0.038 ± 0.001mm, the sum of the thicknesses of the two layers of polyester film PET is 0.075 ± 0.001mm, and the thickness of the silicone glue layer is 0.01 ± 0.002 mm.

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