CN206510538U - Anti-glare wear-resistant electrostatic protective film - Google Patents

Abstract

The utility model discloses an anti-dazzle wear-resistant electrostatic protection film, which comprises a PET base layer, an electrostatic self-adhesive film-absorbing layer, a release layer, an anti-dazzle layer, a silica gel protection layer, an antistatic coating and a wear-resistant layer; this PET basic unit is the high transparent PET material, and this static self-adhesion inhales the rete shaping and pastes and cover on the bottom surface of PET basic unit, should inhale the bottom surface on the rete from the separable subsides of type layer on static self-adhesion, and this anti-dazzle layer shaping is pasted and is covered on the surface of PET basic unit. Through utilizing static self-adhesive to inhale the rete, this product can rely on static adsorption on the surface of article, through being provided with the silica gel protective layer, make the product soft, can directly absorb outside striking, and the cooperation is provided with the wearing layer, make the product more wear-resisting, can implement better protection to article, the product is also more durable, and through being provided with anti-dazzle layer and antistatic coating, make this product possess anti-dazzle light and antistatic characteristic, be difficult for staiing, in order to satisfy operation requirement.

Description

Anti-glare wear-resistant electrostatic protective film

technical field

The utility model relates to the technology in the field of electrostatic protective films, in particular to an anti-glare and wear-resistant electrostatic protective film.

Background technique

At present, electrostatic film is mainly used for surface protection of LCD display screen, notebook computer, MP3, PC plate, mobile phone lens, PDA, etc., PMMA, PC panel process and factory protection, to prevent it from being contacted by chemical substances or nails, etc. Scuffs and scratches.

At present, PE electrostatic film is often used, but this type of electrostatic film is not wear-resistant, has poor anti-glare and antistatic properties, and cannot meet the requirements of use. Therefore, it is necessary to improve the current electrostatic film.

Utility model content

In view of this, the utility model aims at the deficiencies in the prior art, and its main purpose is to provide an anti-glare and wear-resistant electrostatic protective film, which has the characteristics of wear resistance, anti-glare and anti-static.

In order to achieve the above object, the utility model adopts the following technical solutions:

An anti-glare wear-resistant electrostatic protective film, comprising a PET base layer, an electrostatic self-adhesive suction film layer, a release layer, an anti-glare layer, a silica gel protective layer, an antistatic coating and a wear-resistant layer; the PET base layer is a highly transparent PET Material, the electrostatic self-adhesive absorbing film layer is formed and attached to the bottom surface of the PET base layer, the release layer is detachably attached to the bottom surface of the electrostatic self-adhesive absorbing film layer, and the anti-glare layer is formed and attached to the PET base layer The silicone protective layer is coated on the surface of the anti-glare layer, the antistatic coating is coated on the surface of the silicone protective layer, and the wear-resistant layer is molded and pasted on the surface of the antistatic coating.

As a preferred solution, the thickness of the PET base layer is 48-56 μm.

As a preferred solution, the electrostatic self-adhesive film-absorbing layer is a PE plastic self-adhesive layer with a thickness of 18-20 μm.

As a preferred solution, the release layer is made of PET material with a thickness of 12-14 μm.

As a preferred solution, the thickness of the anti-glare layer is 8-12 μm.

As a preferred solution, the silica gel protective layer is made of transparent silica gel with a thickness of 20-23 μm.

As a preferred solution, the antistatic coating has a thickness of 6-8 μm.

As a preferred solution, the thickness of the wear-resistant layer is 8-10 μm.

Compared with the prior art, the utility model has obvious advantages and beneficial effects. Specifically, it can be known from the above technical solutions:

By using the electrostatic self-adhesive suction film layer, this product can be adsorbed on the surface of the object by static electricity, and the silicone protective layer is provided to make the product soft and can directly absorb external impacts, and it is equipped with a wear-resistant layer to make the product more durable Grinding can provide better protection for items, and the product is more durable, and by setting an anti-glare layer and an anti-static coating, this product has anti-glare and anti-static properties, and is not easy to stain, so as to meet the use requirements.

In order to illustrate the structural features and functions of the utility model more clearly, the utility model will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

Description of drawings

Fig. 1 is a sectional view of a preferred embodiment of the present utility model.

Explanation of the accompanying drawings:

10. PET base layer 20. Electrostatic self-adhesive suction film layer

30. Release layer 40. Anti-glare layer

50. Silicone protective layer 60. Antistatic coating

70. Wear-resistant layer.

detailed description

Please refer to shown in Fig. 1, it has shown the specific structure of the preferred embodiment of the present utility model, comprises PET base layer 10, electrostatic self-adhesive suction film layer 20, release layer 30, anti-glare layer 40, silica gel protective layer 50 , antistatic coating 60 and wear-resistant layer 70 .

The electrostatic self-adhesive suction film layer 20 is molded and attached to the bottom surface of the PET base layer 10. The PET base layer 10 is made of highly transparent PE material. In this embodiment, the thickness of the PET base layer 10 is 48-56 μm. The electrostatic self-adhesive suction film layer is a PE plastic self-adhesive layer, and its thickness is 18-20 μm.

The release layer 30 is peelably pasted on the bottom surface of the electrostatic self-adhesive film layer 20 . In this embodiment, the release layer 30 is made of PET with a thickness of 12-14 μm.

The anti-glare layer 40 is molded and pasted on the surface of the PET base layer 10. In this embodiment, the thickness of the anti-glare layer 40 is 8-12 μm.

The silica gel protection layer 50 is coated on the surface of the anti-glare layer 40. In this embodiment, the silica gel protection layer 50 is made of transparent silica gel with a thickness of 20-23 μm.

The antistatic coating 60 is coated on the surface of the silicone protective layer 50 , and in this embodiment, the thickness of the antistatic coating 60 is 6-8 μm.

The wear-resistant layer 70 is molded and pasted on the surface of the antistatic coating 60 , and in this embodiment, the thickness of the wear-resistant layer 70 is 8-10 μm.

During production, at first, forming the PET base layer 10, then, forming and pasting the electrostatic self-adhesive suction film layer 20 on the bottom surface of the PET base layer 10, then, the release layer 30 is pasted on the bottom surface of the electrostatic self-adhesive suction film layer 20, Then, the anti-glare layer 40 is molded on the surface of the PET base layer 10, and then, the surface of the anti-glare layer 40 is coated with silica gel to form a silica gel protective layer 50, and then, an antistatic coating is coated on the surface of the silica gel protective layer 50. To form the antistatic coating 60 , finally, form the wear-resistant layer 70 on the surface of the antistatic coating 60 .

When in use, the release layer 30 is peeled off, and then the electrostatic self-adhesive suction film layer 20 is attached to the surface of the object, and the electrostatic self-adhesive suction film layer 20 is adsorbed on the surface of the object by static electricity.

The key point of the design of the utility model is: by using the electrostatic self-adhesive suction film layer, the product can be adsorbed on the surface of the article by means of static electricity, and the product is soft by being provided with a silica gel protective layer, which can directly absorb external impacts, and is equipped with The wear-resistant layer makes the product more wear-resistant, better protects the items, and the product is more durable, and the anti-glare layer and anti-static coating make the product have anti-glare and anti-static properties, and it is not easy to Contamination to meet the requirements of use.

The above are only preferred embodiments of the present utility model, and are not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present utility model , all still belong to the scope of the technical solution of the utility model.

Claims (8)

1. a kind of wear-resisting electrostatic protection film of anti-dazzle, it is characterised in that：Include PET basic units, electrostatic self-adhesion and inhale film layer, release Layer, anti-dazzle photosphere, silicone protective layer, antistatic coating and wearing layer；The PET basic units are high transparency PET materials, and the electrostatic is certainly Viscous film layer of inhaling is molded and is covered on the bottom surface of PET basic units, and the release layer is separable to be covered in the bottom that electrostatic self-adhesion inhales film layer On face, the anti-dazzle formable layer is covered on the surface of PET basic units, and the silicone protective layer is coated on the surface of anti-dazzle photosphere, The antistatic coating is coated on the surface of silicone protective layer, and the wear-resisting formable layer is covered on the surface of antistatic coating.

2. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The thickness of the PET basic units is 48-56μm。

3. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The electrostatic self-adhesion inhales film layer PE plastics self-adhesive layers, its thickness is 18-20 μm.

4. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The release layer is PET materials, Its thickness is 12-14 μm.

5. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The thickness of the anti-dazzle photosphere is 8-12μm。

6. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The silicone protective layer is transparent Silica gel material, its thickness is 20-23 μm.

7. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The thickness of the antistatic coating For 6-8 μm.

8. the wear-resisting electrostatic protection film of anti-dazzle according to claim 1, it is characterised in that：The thickness of the wearing layer is 8- 10μm。