CN205130536U - Anti electromagnetic wave of anti blue light has substrate AB glue membrane - Google Patents

Abstract

The utility model relates to a viscose technical field, concretely relates to anti electromagnetic wave of anti blue light has substrate AB glue membrane, including the substrate layer, locate the substrate layer upper surface anti blue light layer, locate anti blue light layer upper surface adhesive agent layer, locate adhesive agent layer's upper surface release film layer, locate the silica gel layer of the lower surface of substrate layer and locate the peel ply of the lower surface on silica gel layer, the inside of substrate layer includes the metal nanoparticles granule. The utility model discloses an anti blue light is functional, and has excellent anti electromagnetic wave performance.

Description

A kind of anti-blue light anti-electromagnetic wave has base material AB glued membrane

Technical field

The utility model relates to viscose glue technical field, and being specifically related to a kind of anti-blue light anti-electromagnetic wave has base material AB glued membrane.

Background technology

The AB glue being applied to safety glass provided in the market, it is mainly base material with PET, and the one side of base material is silica gel, and the another side of base material is other mucilage materialses.

This AB glue production technology is mainly: be covered with safety glass film after being first coated with mucilage materials in the one side of PET base material, then PET base material another side coating silica gel and fit with the mobile terminal such as mobile phone.Electromagnetic wave is usually there is in the mobile terminals such as mobile phone in the process used, but the defect of existing AB glue ubiquity anti-electromagnetic wave poor performance; And mobile phone products more or less all can send some blue lights in the process used, the health of harm user, the AB glue therefore with good anti-blue light performance is also that existing market is badly in need of.

Summary of the invention

In order to overcome the shortcoming and defect existed in prior art, the purpose of this utility model is to provide a kind of anti-blue light anti-electromagnetic wave to have base material AB glued membrane, and its anti-blue light is functional, and has excellent anti-electromagnetic wave performance.

The purpose of this utility model is achieved through the following technical solutions: a kind of anti-blue light anti-electromagnetic wave has base material AB glued membrane, comprise substrate layer, be located at the anti-blu-ray layer of substrate layer upper surface, be located at anti-blu-ray layer upper surface adhering agent layer, be located at the upper surface of adhering agent layer release film layer, be located at the layer of silica gel of the lower surface of substrate layer and be located at the peel ply of lower surface of layer of silica gel, the inside of described substrate layer includes nano-metal particle.

Wherein, described anti-blu-ray layer is anti-blue light UV acrylate resin layer.

Wherein, the inside of described anti-blu-ray layer includes nano rare earth fluorescent grain.

Wherein, described release film layer is PET film layer, and the light transmittance of release film layer is greater than 87%.

Wherein, described adhering agent layer is acrylic compounds, silicone based or polyurethane material layer.

Wherein, described substrate layer is PET laminated polyester film.

Wherein, described peel ply is PET, PE or OPP rete, and the light transmittance of peel ply is greater than 87%.

Wherein, the thickness of described release film layer is 25-50 μm, and the thickness of described adhering agent layer is 25-40 μm, and the thickness of anti-blu-ray layer is 8-20 μm.

Wherein, the thickness of described substrate layer is 30-70 μm.

Wherein, the thickness of described layer of silica gel is 25-40 μm, and the thickness of described peel ply is 25-50 μm.

Wherein, the edge of described release film layer and peel ply is equipped with hand and tears portion.

Wherein, the particle diameter of described nano-metal particle is 15-100nm, and the particle diameter of described nano rare earth fluorescent grain is 15-100nm.

Wherein, the lower surface of described peel ply is provided with rhombus identifying body.

The beneficial effects of the utility model are: the upper surface of substrate layer of the present utility model is provided with anti-blu-ray layer, and anti-blue light is functional, and the inside of substrate layer includes nano-metal particle, and anti-electromagnetic wave jamming performance is excellent, in use procedure of the present utility model, first release film layer is torn, at the surface of adhering agent layer laminating safety glass, utilize the strong bonding force of adhering agent layer, adhering agent layer and safety glass are fitted tightly, then peel ply is torn, layer of silica gel is fitted on the mobile terminal products such as mobile phone, layer of silica gel has self-bleeding function, inside can not produce bubble, fit effective, thus cover safety glass with making the surperficial Absorbable organic halogens of the mobile terminal products such as mobile phone, the screen of protection mobile terminal product is not scratched, improve the surface impact energy of mobile terminal product.

Accompanying drawing explanation

Fig. 1 is schematic diagram of the present utility model.

Fig. 2 is upward view of the present utility model.

Reference numeral is: 1-substrate layer, 2-anti-blu-ray layer, 3-adhering agent layer, 4-release film layer, 5-layer of silica gel, 6-peel ply, 7-hand tear portion, 8-rhombus identifying body.

Detailed description of the invention

For the ease of the understanding of those skilled in the art, be further described below in conjunction with embodiment and accompanying drawing 1 pair of the utility model, the content that embodiment is mentioned is not to restriction of the present utility model.

See Fig. 1, a kind of anti-blue light anti-electromagnetic wave has base material AB glued membrane, comprise substrate layer 1, be located at the anti-blu-ray layer 2 of substrate layer 1 upper surface, be located at anti-blu-ray layer 2 upper surface adhering agent layer 3, be located at the upper surface of adhering agent layer 3 release film layer 4, be located at the layer of silica gel 5 of the lower surface of substrate layer 1 and be located at the peel ply 6 of lower surface of layer of silica gel 5, the inside of described substrate layer 1 includes nano-metal particle.

The upper surface of substrate layer 1 of the present utility model is provided with anti-blu-ray layer 2, and anti-blue light is functional, and the inside of substrate layer 1 includes nano-metal particle, and anti-electromagnetic wave jamming performance is excellent, in use procedure of the present utility model, first release film layer 4 is torn, at the surface of adhering agent layer 3 laminating safety glass, utilize the strong bonding force of adhering agent layer 3, adhering agent layer 3 and safety glass are fitted tightly, then peel ply 6 is torn, layer of silica gel 5 is fitted on the mobile terminal products such as mobile phone, layer of silica gel 5 has self-bleeding function, inside can not produce bubble, fit effective, thus cover safety glass with making the surperficial Absorbable organic halogens of the mobile terminal products such as mobile phone, the screen of protection mobile terminal product is not scratched, improve the surface impact energy of mobile terminal product.

Wherein, described anti-blu-ray layer 2 is anti-blue light UV acrylate resin layer.The anti-blue light of anti-blue light UV acrylate resin layer is functional, and anti-blue light rate can reach more than 45%.

Wherein, the inside of described anti-blu-ray layer 2 includes nano rare earth fluorescent grain.By adding the anti-blue light performance that nano level nano rare earth fluorescent grain strengthens anti-blu-ray layer 2 further in the inside of anti-blu-ray layer 2, further increase anti-blue light rate of the present utility model, anti-blue light rate can reach more than 80%.

Wherein, described release film layer 4 is PET film layer, and the light transmittance of release film layer 4 is greater than 87%.The light transmittance of release film layer 4 is high, and be conducive to the integral light-transmitting rate improving AB glued membrane, the price of PET film is relatively cheap, can effectively reduce production cost of the present utility model.

Wherein, described adhering agent layer 3 is acrylic compounds, silicone based or polyurethane material layer.Particularly, described adhering agent layer 3 is polyurethane material layer, and its adhesive property is good, fits effective.

Wherein, described substrate layer 1 is PET laminated polyester film.The price of PET polyester film is relatively cheap, can effectively reduce production cost of the present utility model.

Wherein, described peel ply 6 is PET, PE or OPP rete, and the light transmittance of peel ply 6 is greater than 87%.Particularly, described peel ply 6 is OPP rete.

Wherein, the thickness of described release film layer 4 is 25-50 μm, and the thickness of described adhering agent layer 3 is 25-40 μm, and the thickness of anti-blu-ray layer 2 is 8-20 μm.Particularly, the thickness of described release film layer 4 is 25 μm, and the thickness of described adhering agent layer 3 is 40 μm, and the thickness of anti-blu-ray layer 2 is 12 μm.The thickness of release film layer 4, adhering agent layer 3 and anti-blu-ray layer 2 is moderate, guarantees that the integral thickness of the AB glued membrane obtained is thinner.

Wherein, the thickness of described substrate layer 1 is 30-70 μm.Particularly, the thickness of described substrate layer 1 is 60 μm.The thickness of substrate layer 1 is moderate, guarantees that the integral thickness of the AB glued membrane obtained is thinner.

Wherein, the thickness of described layer of silica gel 5 is 25-40 μm, and the thickness of described peel ply 6 is 25-50 μm.Particularly, the thickness of described layer of silica gel 5 is 40 μm, and the thickness of described peel ply 6 is 25 μm.The thickness of layer of silica gel 5 and peel ply 6 is moderate, guarantees that the integral thickness of the AB glued membrane obtained is thinner.

Wherein, the edge of described release film layer 4 and peel ply 6 is equipped with hand and tears portion 7.The setting that hand tears portion 7 is convenient to user and release film layer 4 or peel ply 6 is torn, convenient and practical.

Wherein, the particle diameter of described nano-metal particle is 15-100nm, and the particle diameter of described nano rare earth fluorescent grain is 15-100nm.The particle size of nano-metal particle and nano rare earth fluorescent grain is moderate, and the too small cost of then polishing of particle diameter is high, and particle diameter is excessive, can affect the light transmittance of AB glued membrane.

Wherein, the lower surface of described peel ply 6 is provided with rhombus identifying body 8.Rhombus identifying body 8 is convenient to user and is distinguished peel ply 6 and release film layer 4, avoids using AB glued membrane in the other direction, and meanwhile, when AB glued membrane and safety glass are fitted, rhombus identifying body 8 can play certain contraposition effect, is convenient to fit.

Above-described embodiment is the utility model preferably implementation, and in addition, the utility model can also realize by alternate manner, and any apparent replacement is all within protection domain of the present utility model without departing from the concept of the premise utility.

Claims (10)

1. an anti-blue light anti-electromagnetic wave has base material AB glued membrane, it is characterized in that: the adhering agent layer of the anti-blu-ray layer upper surface that comprises substrate layer, is located at the anti-blu-ray layer of substrate layer upper surface, is located at, be located at the upper surface of adhering agent layer release film layer, be located at the layer of silica gel of the lower surface of substrate layer and be located at the peel ply of lower surface of layer of silica gel, the inside of described substrate layer includes nano-metal particle.

2. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: described anti-blu-ray layer is anti-blue light UV acrylate resin layer.

3. the anti-blue light anti-electromagnetic wave of one according to claim 2 has base material AB glued membrane, it is characterized in that: the inside of described anti-blu-ray layer includes nano rare earth fluorescent grain.

4. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: described release film layer is PET film layer, and the light transmittance of release film layer is greater than 87%.

5. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: described adhering agent layer is acrylic compounds, silicone based or polyurethane material layer.

6. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: described substrate layer is PET laminated polyester film.

7. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: described peel ply is PET, PE or OPP rete, and the light transmittance of peel ply is greater than 87%.

8. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: the thickness of described release film layer is 25-50 μm, and the thickness of described adhering agent layer is 25-40 μm, and the thickness of anti-blu-ray layer is 8-20 μm.

9. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: the thickness of described substrate layer is 30-70 μm.

10. the anti-blue light anti-electromagnetic wave of one according to claim 1 has base material AB glued membrane, it is characterized in that: the thickness of described layer of silica gel is 25-40 μm, and the thickness of described peel ply is 25-50 μm.