CN204526337U - A kind of wear-resisting antistatic radiation proof protective film - Google Patents

Abstract

The utility model relates to a kind of wear-resisting antistatic radiation proof protective film, for mobile phone or panel computer, comprises wear-resisting antistatic backing, radiation protective layer and bottom; Radiation protective layer is bonded on bottom, and the wear-resisting antistatic backing being positioned at outer surface is bonded in radiation protective layer; Wear-resisting antistatic backing is the film formed after dispersed nano-graphite powder and nano chromium oxide powder in PET, and thickness is 30 ~ 40 μm; Radiation protective layer is thin film of titanium oxide, and thickness is 30 ~ 40 μm; Bottom is silica gel thin film, and thickness is 20 ~ 30 μm.The beneficial effects of the utility model are: after using wear-resisting antistatic radiation proof protective film of the present utility model; not give only the antistatic performance of the protective film of mobile phone or panel computer screen; also drastically increase the anti-wear performance of protective film simultaneously and significantly reduce the eyes of electromagnetic radiation to user and the infringement of vision system of mobile phone or panel computer screen emissions, there is great practical value.

Description

A kind of wear-resisting antistatic radiation proof protective film

Technical field

The utility model relates to a kind of wear-resisting antistatic radiation proof protective film, is specifically related to a kind of wear-resisting antistatic radiation proof protective film for mobile phone or panel computer.

Background technology

Growing along with science and technology, mobile phone and panel computer have become the indispensable commodity of people.In order to prevent wearing and tearing and the pollution of the display screen of mobile phone and panel computer, usually one deck protective film can be sticked at mobile phone and dull and stereotyped computer surface.But existing mobile phone and dull and stereotyped computer protecting film all also exist the shortcoming worn no resistance, after using a period of time, diaphragm there will be wearing and tearing, affects the visual effect of screen; Meanwhile, protective film all also exists antistatic performance difference or does not have the shortcoming of antistatic performance, can accumulate electrostatic, affect result of use in use procedure on protective film surface; And due to people's Long-Time Service mobile phone and panel computer, the electromagnetic wave of screen radiation can cause very large injury to the eyes of people and vision system, gently then causes visual impairment, heavy then may cause occurring ophthalmology disease.Therefore, it is necessary for designing a kind of wear-resisting antistatic radiation proof protective film for mobile phone or panel computer.

For this reason; designer of the present utility model, because above-mentioned technological deficiency, by concentrating on studies and designing, is comprehensively engaged in experience and the achievement of related industry for a long time for many years; research and design goes out a kind of wear-resisting antistatic radiation proof protective film for mobile phone or panel computer, to overcome above-mentioned technological deficiency.

Utility model content

The technical problems to be solved in the utility model is: design a kind of wear-resisting antistatic radiation proof protective film for mobile phone or panel computer, to solve the high technological deficiency of protective film anti-wear performance of the prior art and antistatic performance difference and electromagnetic radiation.

In order to solve the problems of the technologies described above, the utility model have employed following technical scheme:

A kind of wear-resisting antistatic radiation proof protective film, for mobile phone or panel computer, comprises wear-resisting antistatic backing, radiation protective layer and bottom; It is characterized in that: radiation protective layer is bonded on bottom, the wear-resisting antistatic backing being positioned at outer surface is bonded in radiation protective layer; Described wear-resisting antistatic backing is the film formed after dispersed nano-graphite powder and nano chromium oxide powder in PET, and thickness is 30 ~ 40 μm; Described radiation protective layer is thin film of titanium oxide, and thickness is 30 ~ 40 μm.

Wherein: described bottom is silica gel thin film, thickness is 20 ~ 30 μm.

Known by technique scheme, wear-resisting antistatic radiation proof protective film of the present utility model has following technique effect:

1, by being used in the film that formed after dispersed nano-graphite powder and nano chromium oxide powder in PET as wear-resisting antistatic backing, the electrostatic conductive performance of nano-graphite and the anti-wear performance of nano chromium oxide is utilized to drastically increase anti-static effect and the abrasion resistant effect of protective film;

2, by use thin film of titanium oxide as radiation protective layer, utilize the excellent shielding property of thin film of titanium oxide, greatly reduce protective film electromagenetic wave radiation.

Detailed content of the present utility model obtains by following detailed description and Figure of description.

Accompanying drawing explanation

Fig. 1 is the structural representation of wear-resisting antistatic radiation proof protective film of the present utility model.

In figure: 1 be wear-resisting antistatic backing, 2 be radiation protective layer, 3 for bottom

Detailed description of the invention

Wear-resisting antistatic radiation proof protective film of the present utility model is described in detail below in conjunction with Figure of description.

See Fig. 1, show wear-resisting antistatic radiation proof protective film of the present utility model.

One of the present utility model wear-resisting antistatic radiation proof protective film, for mobile phone or panel computer, it comprises wear-resisting antistatic backing 1, radiation protective layer 2 and bottom 3; Radiation protective layer 2 is bonded on bottom 3, and the wear-resisting antistatic backing 1 being positioned at outer surface is bonded in radiation protective layer 2; This wear-resisting antistatic backing 1 is the film formed after dispersed nano-graphite powder and nano chromium oxide powder in PET, and thickness is preferably 35 μm; This radiation protective layer 2 is thin film of titanium oxide, and thickness is preferably 35 μm; This bottom is silica gel thin film, and thickness is preferably 25 μm.

Known by said structure, wear-resisting antistatic radiation proof protective film tool of the present utility model has the following advantages:

1, by being used in the film that formed after dispersed nano-graphite powder and nano chromium oxide powder in PET as wear-resisting antistatic backing, the electrostatic conductive performance of nano-graphite and the anti-wear performance of nano chromium oxide is utilized to drastically increase anti-static effect and the abrasion resistant effect of protective film;

2, by use thin film of titanium oxide as radiation protective layer, utilize the excellent shielding property of thin film of titanium oxide, greatly reduce protective film electromagenetic wave radiation.

It is evident that, above description and record be only citing instead of in order to limit content disclosed in the utility model, application or use.Although described in an embodiment and described embodiment with reference to the accompanying drawings, but the utility model do not limit by accompanying drawing example and describe in an embodiment as the optimal mode thought at present to implement the specific examples of instruction of the present utility model, scope of the present utility model will comprise any embodiment of description and the appended claim fallen into above.

Claims (2)

1. a wear-resisting antistatic radiation proof protective film, for mobile phone or panel computer, comprises wear-resisting antistatic backing, radiation protective layer and bottom; It is characterized in that: radiation protective layer is bonded on bottom, the wear-resisting antistatic backing being positioned at outer surface is bonded in radiation protective layer; Described wear-resisting antistatic backing is the film formed after dispersed nano-graphite powder and nano chromium oxide powder in PET, and thickness is 30 ~ 40 μm; Described radiation protective layer is thin film of titanium oxide, and thickness is 30 ~ 40 μm.

2. wear-resisting radiation proof protective film as claimed in claim 1, it is characterized in that: described bottom is silica gel thin film, thickness is 20 ~ 30 μm.