CN205687805U - A kind of film structure of substrate of glass semi-transparent semi-reflecting lens - Google Patents

Abstract

The utility model discloses the film structure of a kind of substrate of glass semi-transparent semi-reflecting lens, including substrate of glass and the plating semi-transparent semi-reflecting film of muted color on the glass substrate；Described semi-transparent semi-reflecting film includes five film structure from inside to outside: the first high refractive index layer (H1), the first low-index film (L1), the second high refractive index layer (H2), the second low-index film (L2), the 3rd high refractive index layer (H3).The advantage of described film structure is: can be effectively improved glass surface reflexes to more than 60%, and retain has 30% pass through simultaneously, and film layer itself has higher dielectric constant, electromagnetic signal will not be produced interference；There is again the effect reflecting bias colour, manifesting muted color, under black background, can reach mirror effect；The unification of decoration and function can be reached.

Description

A kind of film structure of substrate of glass semi-transparent semi-reflecting lens

Technical field

This utility model relates to glass post-processing technical field, particularly to the substrate of glass half of a kind of five tunic architecture The film structure of semi-reflective mirror thoroughly.

Background technology

Along with the development of visual device, the rise that the nearlyest 2 years intelligence is dressed, people for outward appearance requirement increasingly Height, has metal-like to make minute surface product look at more, need to produce the minute surface effect of height reflection at lens surface by the mode of plated film Really；But owing to being applied to electronic equipment, requiring again to ensure that electromagnetic signal section penetrates, film layer must be non-conductive；The most vehicle-mounted, intelligent Dressing and wait it is also proposed that when display is not lighted, whole viewfinder area includes that frame can form holistic mirror effect, this is just Need film layer to have higher reflection, there is certain passing through simultaneously, reach the unification of decoration and function.

Utility model content

To achieve these goals, this utility model provides the film structure of a kind of substrate of glass semi-transparent semi-reflecting lens.

The technical solution of the utility model is as follows: this utility model provides the film system of a kind of substrate of glass semi-transparent semi-reflecting lens Structure, including substrate of glass and the plating semi-transparent semi-reflecting film of muted color on the glass substrate；Described semi-transparent semi-reflecting film include from interior to Five outer film structure: the first high refractive index layer (H1), the first low-index film (L1), the second high refractive index layer (H2), the second low-index film (L2), the 3rd high refractive index layer (H3).

The gross thickness of described semi-transparent semi-reflecting film is 370 ~ 440nm.

This film structure: the first high refractive index layer (H1), the second high refractive index layer (H2), the 3rd high refractive index layer (H3) material is Nb₂O₅;First low-index film (L1), the material of the second low-index film (L2) are SiO₂。

This film structure: the first high refractive index layer (H1), the first low-index film (L1), the second high refractive index layer (H2), the second low-index film (L2), the thicknesses of layers of the 3rd high refractive index layer (H3) correspondence are respectively 102.01- 112.01nm、98.11-108.11nm、49.84-53.84nm、90.36-98.36nm、48.77-52.77nm。

This utility model provides the film structure of a kind of substrate of glass semi-permeable and semi-reflecting mirror, and it can be effectively improved glass table Face reflex to more than 60%, retain has 30% pass through simultaneously, and film layer itself has higher dielectric constant, will not believe electromagnetism Number produce interference；There is again the effect reflecting bias colour, manifesting muted color, under black background, can reach mirror effect；Can reach Unification to decoration with function.

Accompanying drawing explanation

Fig. 1 is the profile of the film structure of this utility model substrate of glass semi-transparent semi-reflecting lens；

Fig. 2 is the reflectance spectrum figure of the film structure of this utility model substrate of glass semi-transparent semi-reflecting lens.

Detailed description of the invention

Shown in Figure 1, the film structure of a kind of substrate of glass semi-transparent semi-reflecting lens described in the utility model, it is possible to achieve Decoration and the unification of function, meet the demand in market well, and it includes substrate of glass and plating muted color on the glass substrate Semi-transparent semi-reflecting film.Described semi-transparent semi-reflecting film includes five film structure from inside to outside: the first high refractive index layer (H1), first low Refractivity film layer (L1), the second high refractive index layer (H2), the second low-index film (L2), the 3rd high refractive index layer (H3).

The gross thickness of described semi-transparent semi-reflecting lens is 370 ~ 440nm, preferably 407.09nm.Concrete, in this film structure The first high refractive index layer (H1), the first low-index film (L1), the second high refractive index layer (H2), the second low-refraction Film layer (L2), the thicknesses of layers that the 3rd high refractive index layer (H3) is corresponding be respectively 107.01nm, 103.11nm, 51.84nm, 94.36nm、50.77nm。

Wherein the first high refractive index layer (H1), the second high refractive index layer (H2), the 3rd high refractive index layer (H3) are All Nb₂O₅;First low-index film (L1), the second low-index film (L2) are SiO₂。

Seeing Fig. 2, in the film structure of the substrate of glass semi-transparent semi-reflecting lens that this utility model provides, semi-transparent semi-reflecting film is at ripple Mean transmissivity in long 420-680nm is 35.7%, and average reflectance is 64.3%, reflects light bias colour, is revealed as muted color, Mirror effect is good, pencil hardness test reach 9H without scratch, meet the market demand.

In sum, this utility model provides the film structure of a kind of substrate of glass semi-permeable and semi-reflecting mirror, and it can be effective That improves glass surface reflexes to more than 60%, and retain has 30% pass through simultaneously, and film layer itself has higher dielectric constant, no Electromagnetic signal can be produced interference；There is again the effect reflecting bias colour, manifesting muted color, under black background, can reach mirror effect Really；The unification of decoration and function can be reached.

These are only preferred embodiment of the present utility model, be not limited to this utility model, all in this practicality Any amendment, equivalent and the improvement etc. made within novel spirit and principle, should be included in guarantor of the present utility model Within the scope of protecting.

Claims (4)

1. the film structure of a substrate of glass semi-transparent semi-reflecting lens, it is characterised in that include substrate of glass and be plated in substrate of glass On the semi-transparent semi-reflecting film of muted color；Described semi-transparent semi-reflecting film includes five film structure from inside to outside: the first high refractive index layer (H1), the first low-index film (L1), the second high refractive index layer (H2), the second low-index film (L2), three-hypers folding Penetrate rate film layer (H3).

2. according to the film structure of the substrate of glass semi-transparent semi-reflecting lens described in claim 1, it is characterised in that described semi-transparent half The gross thickness of anti-film is 370 ~ 440nm.

3. according to the film structure of the substrate of glass semi-transparent semi-reflecting lens described in claim 1, it is characterised in that: the first high refraction Rate film layer (H1), the second high refractive index layer (H2), the material of the 3rd high refractive index layer (H3) are Nb₂O₅;First low folding Penetrate rate film layer (L1), the material of the second low-index film (L2) is SiO₂。

4. according to the film structure of the substrate of glass semi-transparent semi-reflecting lens described in claim 2, it is characterised in that described first is high Refractivity film layer (H1), the first low-index film (L1), the second high refractive index layer (H2), the second low-index film (L2), the thicknesses of layers that the 3rd high refractive index layer (H3) is corresponding be respectively 102.01-112.01nm, 98.11-108.11nm, 49.84-53.84nm、90.36-98.36nm、48.77-52.77nm。