CN204392326U - Mobile phone shell diaphragm - Google Patents

Abstract

The utility model discloses a kind of mobile phone shell diaphragm, be by counterdie and on the adhesive linkage, metal level and the wearing layer that superpose successively, wherein counterdie is pet layer, and metal layer thickness is 180-220nm, and adhesive linkage is identical with the thickness of wearing layer.PET resin layer, SiO2 layer, indium tin metal layer, TiO2 layer are combined with each other by the utility model, and the rete that can control phone housing surface, in non-conductive scope, has metallic luster and resistance to wear simultaneously, and volume production efficiency is high, and yield is up to more than 95%.

Description

Mobile phone shell diaphragm

Technical field

The utility model discloses a kind of mobile phone shell diaphragm, divides belong to phone housing surface decoration technique field by International Patent Classification (IPC) (IPC).

Background technology

Flourish along with the information age, people more and more rely on electronic products such as using mobile phone and exchange, but phone housing adopts plastic-injection shaping mostly, outward appearance is poor, need further surface decoration tech, as surface spraying, non-conducting vacuum metallization etc., Chinese document CN 103147045 A discloses a kind of metalized surface decoration processing method of plastic casing, be directly on plastic casing plated film to obtain Metallization effects, complex process.

At present, diaphragm often adheres to play protection decoration function at surface of shell in handset shell manufacturer, but existing mobile phone shell Film color is single, does not have metallic luster, and wears no resistance.Meanwhile, as the theca externa of phone housing, also must ensure safety, reach non-conductive effect.

Summary of the invention

For the deficiencies in the prior art, the utility model provides a kind of mobile phone shell diaphragm, and it is attached to hand shell case surface, has the advantages such as resistance to wear, non-conductive property and metallic luster.

For achieving the above object, the utility model is achieved through the following technical solutions:

A kind of mobile phone shell diaphragm, by counterdie and on the adhesive linkage, metal level and the wearing layer that superpose successively form, wherein counterdie is pet layer, and metal layer thickness is 180-220nm, and adhesive linkage is identical with the thickness of wearing layer.

Further, described metal level is indium stannum alloy layer and by magnetron sputtering on the adhesive linkage on PET, metal layer thickness is wherein 190-210nm.

Further, described adhesive linkage is SiO2 layer, and thickness is that 8-12nm is used for increasing adhesive force.

Further, described wearing layer is TiO2 layer, and thickness is 8-12nm, increases resistance to wear.

PET resin layer, SiO2 layer, indium tin metal layer, TiO2 layer are combined with each other by the utility model, can control the rete on phone housing surface in non-conductive scope.The utility model is applied in plastic housing of mobile phone surface, simultaneously by magnetron sputtering technique, is conducive to improving non-conductive property and metallic luster and resistance to wear.The utility model production cost is low, and volume production efficiency is high, and yield is up to more than 95%.

Accompanying drawing explanation

Fig. 1 is the utility model schematic diagram.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Embodiment: refer to Fig. 1, a kind of mobile phone shell diaphragm, by counterdie 1 and on the adhesive linkage 2, metal level 3 and the wearing layer 4 that superpose successively form, wherein counterdie 1 is pet layer, and metal level 3 thickness is 180-220nm, and adhesive linkage 2 is identical with the thickness of wearing layer 4.Metal level 3 of the present utility model is indium stannum alloy layer and by magnetron sputtering on the adhesive linkage on PET, metal level 3 thickness is wherein 190-210nm.Adhesive linkage 2 is SiO2 layer, and thickness is that 8-12nm is used for increasing adhesive force.Wearing layer 4 is TiO2 layer, and thickness is 8-12nm, increases resistance to wear.

PET resin layer, SiO2 layer, indium tin metal layer, TiO2 layer are combined with each other by the utility model, can control the rete on phone housing surface in non-conductive scope.The utility model is applied in plastic housing of mobile phone surface, simultaneously by magnetron sputtering technique, is conducive to improving non-conductive property and metallic luster and resistance to wear.

Above, be only the embodiment utilizing this origination techniques content, the modification that any those skilled in the art use this creation to do, change, all belong to the scope of the claims that this creation is advocated, and be not limited to those disclosed embodiments.

Claims (4)

1. a mobile phone shell diaphragm, is characterized in that: this diaphragm by counterdie and on the adhesive linkage, metal level and the wearing layer that superpose successively form, wherein counterdie is pet layer, and metal layer thickness is 180-220nm, and adhesive linkage is identical with the thickness of wearing layer.

2. mobile phone shell diaphragm according to claim 1, is characterized in that: described metal level is indium stannum alloy layer and by magnetron sputtering on the adhesive linkage on PET, metal layer thickness is wherein 190-210nm.

3. mobile phone shell diaphragm according to claim 1 and 2, is characterized in that: described adhesive linkage is SiO2 layer, and thickness is that 8-12nm is used for increasing adhesive force.

4. mobile phone shell diaphragm according to claim 1 and 2, is characterized in that: described wearing layer is TiO2 layer, and thickness is 8-12nm.