CN113249050A - 3D full-curved-surface glass film full-adhesive antistatic adhesive and application thereof - Google Patents

Abstract

The invention relates to the field of glass films, in particular to a 3D full-curved-surface glass film full-glue antistatic glue and an application thereof.

Description

3D full-curved-surface glass film full-adhesive antistatic adhesive and application thereof

Technical Field

The invention relates to the field of glass films, in particular to a 3D full-curved glass film full-adhesive antistatic adhesive and application thereof.

Background

The 3D full-curved glass film is one of common film products in the market, and is used for protecting screens of electronic products and avoiding scratching.

The 3D curved surface glass membrane that uses can produce static when using at present, leads to the membrane surface to adsorb a lot of dust hair, influences the outward appearance of 3D curved surface glass membrane, and the condition of damage appears easily when 3D curved surface glass membrane piles up, the life of loss 3D curved surface glass membrane.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a 3D full-curved glass film full-glue antistatic glue.

The technical scheme adopted by the invention for solving the technical problems is as follows: 3D full curved surface glass membrane glues antistatic adhesive entirely, including first substrate, the upper end of first substrate bonds and has a cell-phone antistatic adhesive, the upper end of pasting the cell-phone antistatic adhesive bonds and has firstly from the type membrane, the lower extreme of first substrate bonds and has super soft colloid, the lower extreme of super soft colloid bonds and has the second substrate, the lower extreme of second substrate bonds and has a toughened glass colloid, the lower extreme of pasting the toughened glass colloid bonds and has the second from the type membrane.

Specifically, the first base material and the second base material are made of the same material, and the thickness of the first base material and the thickness of the second base material are both 1 u-1000 u.

Specifically, the first material of leaving the type membrane and the second is the same from the type membrane, first leave type membrane and second leave type membrane by PET, PI, PE, PC, paper coating silicone oil, silica gel protection film or fluorine and make, first thickness of leaving type membrane and second from the type membrane is 2u ~250 u.

Specifically, the antistatic colloid for the mobile phone is made of acrylic glue, silica gel, rubber, synthetic rubber, PU glue, UV glue, nano silver, nano copper, lithium salt series, amine salt series, polyacetylene, polyphenylene and polyaniline.

Specifically, the super soft colloid is the same with the material of pasting the toughened glass colloid, the super soft colloid is glued by ya keli, silica gel, rubber, synthetic rubber, PU glue and UV with pasting the toughened glass colloid and is made, the thickness of super soft colloid is 1u ~1000 u.

Specifically, the thickness of the ultra-soft colloid is the same as that of the adhered toughened glass colloid, and the thickness of the ultra-soft colloid is 1 u-1000 u.

Specifically, the first substrate and the second substrate are both made of PET, PI, PC, PE, TPU, or synthetic resin.

The manufacturing method of the 3D full-curved glass film full-glue antistatic glue comprises the following steps:

putting acrylic glue, silica gel, rubber, synthetic rubber, PU glue and UV glue into a mixing device, starting the mixing device, mixing the acrylic glue, the silica gel, the rubber, the synthetic rubber, the PU glue and the UV glue together by using the mixing device, then putting 0.005% -10% of nano silver, nano copper, lithium salt series, amine salt series, polyacetylene, polyphenylene and polyaniline into the mixing device, and mixing the acrylic glue, the silica gel, the rubber, the synthetic rubber, the PU glue and the UV glue with the nano silver, the nano copper, the lithium salt series, the amine salt series, the polyacetylene, the polyphenylene and the polyaniline together by heating, stirring, defoaming and other procedures to prepare the required glue;

secondly, bonding a second substrate to the lower end of the first substrate through the ultra-soft colloid, bonding the toughened glass adhesive to the lower end of the second substrate, and bonding a second release film to the lower end of the toughened glass adhesive;

thirdly, coating the prepared glue on the upper end of the first substrate to form the conductive layer 10⁶ ~10¹¹And covering the first release film on the antistatic adhesive for the first substrate to have an antistatic function.

The invention has the beneficial effects that:

(1) prevent the tearing-off film from electrostatic adsorption of dust and hair to cause product loss.

(2) Prevent the unclean and pressure injury of the product surface caused by electrostatic adsorption dust hair generated by friction.

(3) Prevent to produce static because of the friction during the packing for packing efficiency.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a first structural schematic diagram of a 3D full-curved glass film full-adhesive antistatic adhesive provided by the invention;

fig. 2 is a second structural schematic diagram of the 3D full-curved glass film full-adhesive antistatic adhesive provided by the invention.

In the figure: 1. a first substrate; 2. sticking antistatic colloid to the mobile phone; 3. a first release film; 4. ultra-soft colloid; 5. a second substrate; 6. pasting toughened glass colloid; 7. and a second release film.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1, the 3D full-curve glass film full-glue antistatic adhesive comprises a first substrate 1, a mobile phone antistatic adhesive 2 is bonded to the upper end of the first substrate 1, a first release film 3 is bonded to the upper end of the mobile phone antistatic adhesive 2, a super-soft adhesive 4 is bonded to the lower end of the first substrate 1, a second substrate 5 is bonded to the lower end of the super-soft adhesive 4, a tempered glass adhesive 6 is bonded to the lower end of the second substrate 5, and a second release film 7 is bonded to the lower end of the tempered glass adhesive 6.

Wherein, first type membrane 3 and second are the same from the material of type membrane 7, first type membrane 3 and second are made by PET, PI, PE, PC, paper coating silicon oil, silica gel protection film or fluorine from type membrane 7, first type membrane 3 and second are 2u ~250u from the thickness of type membrane 7.

The first base material 1 and the second base material 5 are made of the same material, the first base material 1 and the second base material 5 are made of PET, PI, PC, PE, TPU or synthetic resin, and the thickness of the first base material 1 and the thickness of the second base material 5 are both 1 u-1000 u.

Wherein, super soft colloid 4 is the same with the material of pasting toughened glass colloid 6, super soft colloid 4 with paste toughened glass colloid 6 and glue by ya keli, silica gel, rubber, synthetic rubber, PU glue and UV and make, super soft colloid 4's thickness is 1u ~1000u, super soft colloid 4 is the same with the thickness of pasting toughened glass colloid 6, super soft colloid 4 is 1u ~1000u with the thickness of pasting toughened glass colloid 6.

The antistatic colloid 2 for the mobile phone is made of acrylic glue, silica gel, rubber, synthetic rubber, PU glue, UV glue, nano silver, nano copper, lithium salt series, amine salt series, polyacetylene, polyphenylene and polyaniline.

The manufacturing method of the 3D full-curved glass film full-glue antistatic glue comprises the following steps:

putting acrylic glue, silica gel, rubber, synthetic rubber, PU glue and UV glue into a mixing device, starting the mixing device, mixing the acrylic glue, the silica gel, the rubber, the synthetic rubber, the PU glue and the UV glue together by using the mixing device, then putting 0.005% -10% of nano silver, nano copper, lithium salt series, amine salt series, polyacetylene, polyphenylene and polyaniline into the mixing device, and mixing the acrylic glue, the silica gel, the rubber, the synthetic rubber, the PU glue and the UV glue with the nano silver, the nano copper, the lithium salt series, the amine salt series, the polyacetylene, the polyphenylene and the polyaniline together by heating, stirring, defoaming and other procedures to prepare the required glue;

secondly, bonding a second substrate 5 to the lower end of the first substrate 1 through the ultra-soft colloid 4, bonding a toughened glass adhesive 6 to the lower end of the second substrate 5, and bonding a second release film 7 to the lower end of the toughened glass adhesive 6;

thirdly, coating the prepared glue on the upper end of the first substrate 1 to form a conductive layer 10⁶ ~10¹¹Namely, the antistatic adhesive 2 for sticking the mobile phone is formed, and the first release film 3 is covered on the antistatic adhesive 2 for sticking the mobile phone, so that the first substrate 1 has an antistatic function.

As shown in fig. 2, the 3D full-curved glass film full-glue antistatic adhesive disclosed by the invention forms a required new adhesive by omitting the second substrate 5 and the toughened glass adhesive 6 in fig. 1, so that the manufacturing cost of the invention is saved, and the application range of the invention is increased, so that the invention can be adhered to glass and products needing antistatic.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a 3D full curved surface glass membrane glues antistatic adhesive entirely, including first substrate (1), its characterized in that, the upper end of first substrate (1) bonds and has a cell-phone antistatic colloid (2), the upper end of pasting cell-phone antistatic colloid (2) bonds and has first from type membrane (3), the lower extreme of first substrate (1) bonds and has super soft colloid (4), the lower extreme of super soft colloid (4) bonds and has second substrate (5), the lower extreme of second substrate (5) bonds and has a tempering glass colloid (6), the lower extreme of pasting tempering glass colloid (6) bonds and has the second from type membrane (7).
2. 2. The 3D full-glue antistatic adhesive for the full-curved glass film according to claim 1, which is characterized in that: the first base material (1) and the second base material (5) are made of the same material, and the thickness of the first base material (1) and the thickness of the second base material (5) are both 1 u-1000 u.
3. 3. The 3D full-glue antistatic adhesive for the full-curved glass film according to claim 1, which is characterized in that: the first material of leaving type membrane (3) and second from type membrane (7) is the same, first leave type membrane (3) and second from type membrane (7) by PET, PI, PE, PC, paper coating silicon oil, silica gel protection film or fluorine and make, first thickness of leaving type membrane (3) and second from type membrane (7) is 2u ~250 u.
4. 4. The 3D full-glue antistatic adhesive for the full-curved glass film according to claim 1, which is characterized in that: the antistatic colloid (2) for the mobile phone is made of acrylic glue, silica gel, PU glue, UV glue, rubber, synthetic rubber, nano silver, nano copper, lithium salt series, amine salt series, polyacetylene, polyphenylene and polyaniline.
5. 5. The 3D full-glue antistatic adhesive for the full-curved glass film according to claim 1, which is characterized in that: super soft colloid (4) are the same with the material of pasting toughened glass colloid (6), super soft colloid (4) are glued by ya keli, silica gel, rubber, synthetic rubber, PU glue and UV with pasting toughened glass colloid (6) and are made, the thickness of super soft colloid (4) is 1u ~1000 u.
6. 6. The 3D full-glue antistatic adhesive for the full-curved glass film according to claim 1, which is characterized in that: the super-soft colloid (4) and the thickness of pasting toughened glass colloid (6) are the same, and the thickness of super-soft colloid (4) and the thickness of pasting toughened glass colloid (6) are 1u ~1000 u.
7. 7. The 3D full-glue antistatic adhesive for the full-curved glass film according to claim 1, which is characterized in that: the first substrate (1) and the second substrate (5) are both made of PET, PI, PC, PE, TPU or synthetic resin.
8. 8. The method for manufacturing the 3D fully curved glass film fully glued antistatic glue according to any one of claims 1 to 7, characterized by comprising the following steps: the method comprises the following steps:

   firstly, putting acrylic glue, silica gel, rubber, synthetic rubber, PU glue and UV glue into a mixing device, starting the mixing device, mixing the acrylic glue, the silica gel, the rubber, the synthetic rubber, the PU glue and the UV glue together by using the mixing device, then putting 0.005% -10% of nano silver, nano copper, lithium salt series, amine salt series, polyacetylene, polyphenylene and polyaniline into the mixing device, and mixing the acrylic glue, the silica gel, the rubber, the synthetic rubber, the PU glue and the UV glue with the nano silver, the nano copper, the lithium salt series, the amine salt series, the polyacetylene, the polyphenylene and the polyaniline together through procedures of heating, stirring, defoaming and the like to prepare the required glue;

   secondly, bonding a second substrate (5) to the lower end of the first substrate (1) through the ultra-soft colloid (4), bonding the toughened glass-adhered colloid (6) to the lower end of the second substrate (5), and bonding a second release film (7) to the lower end of the toughened glass-adhered colloid (6);

   thirdly, coating the prepared glue on the upper end of the first substrate (1) to form a conductive layer 10⁶ ~10¹¹Namely, the antistatic adhesive (2) for sticking the mobile phone is formed, and the first release film (3) is covered on the antistatic adhesive (2) for sticking the mobile phone, so that the first substrate (1) has the antistatic function.

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