CN102053753A - Semitransparent touch screen - Google Patents

Abstract

The invention discloses a semitransparent touch screen. The touch screen comprises glass superimposed in sequence, a non-conductive coating film and a touch screen. The semitransparent touch screen provided by the invention achieves the semitransparent and semi-reflective effects by adopting the glass and the non-conductive coating film.

Description

Translucent touch screen

Technical field

The present invention relates to the touch-screen field, specially refer to a kind of translucent touch screen.

Background technology

Touch-screen is applied to various electronic products more and more widely and since touch-screen have sturdy and durable, reaction velocity fast, save the space, be easy to many advantages such as interchange.Utilize this technology, the user needs only icon or the literal touched lightly on the computer display with finger and just can realize host service function, thereby makes man-machine interaction more simple and direct, and this technology greatly facilitates the user who is ignorant of computation.Touch-screen is as a kind of up-to-date computer input equipment, and it is simple, convenient, the most natural present a kind of man-machine interaction mode.

But present touch-screen only is used for showing and input that reflecting effect when display screen is closed, just is not in the blank screen state.

Summary of the invention

Fundamental purpose of the present invention has reflecting effect for a kind of translucent touch screen is provided.

The present invention proposes a kind of translucent touch screen, comprises glass, non-conductive plated film and the touch-screen of stack successively.

Preferably, described non-conductive plated film comprises full dielectric oxide nanocomposite optical film.

Preferably, described touch-screen is capacitive touch screen or resistive touch screen.

Preferably, described non-conductive plated film forms translucent glass by electroplating attached on glass.

Preferably, described translucent glass and described touch-screen are bonding.

The present invention also proposes a kind of rearview mirror, comprises display screen, also comprises the translucent touch screen that is superimposed upon on the display screen, and described translucent touch screen comprises glass, non-conductive plated film and the touch-screen of stack successively.

Preferably, described non-conductive plated film comprises full dielectric oxide nanocomposite optical film.

Preferably, described touch-screen is capacitive touch screen or resistive touch screen.

Preferably, described non-conductive plated film forms translucent glass by electroplating attached on glass.

Preferably, described translucent glass and described touch-screen are bonding.

A kind of translucent touch screen that the present invention proposes utilizes glass and non-conductive plated film, realizes translucent half reflection effect.

Description of drawings

Fig. 1 is the structural representation of translucent touch screen one embodiment of the present invention.

Fig. 2 is the structural representation of rearview mirror one embodiment of the present invention.

The realization of the object of the invention, functional characteristics and advantage will be in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

A kind of translucent touch screen that the present invention proposes, a kind of translucent touch screen that the present invention proposes utilizes glass and non-conductive plated film, realizes translucent half reflection effect.

With reference to Fig. 1, translucent touch screen 100 1 embodiment of the present invention are proposed, comprise glass 10, non-conductive plated film 20 and the touch-screen 30 of stack successively.

The touch-screen of present embodiment mainly comprises three parts: glass 10, non-conductive plated film 20 and touch-screen 30.At first on glass 10, plate non-conductive plated film 20 by the mode of electroplating, glass 10 can use simple glass, non-conductive plated film 20 can be full dielectric oxide nanocomposite optical film, coating technique technology mainly is to adopt vacuum coating technology to be coated with the full dielectric oxide nanocomposite optical film of multilayer (2 layers to 7 layers), in the time of for assurance film high permeability, improve the reflectivity of film, thereby reach the effect of high reflection mirror face, its thin film composition is mainly the alternately mixolimnion of SiO2 and Nb2O5 (or TiO2), thickness is about 300-400nm, the visible light mean transmissivity is about 50%+/-5%, and reflectivity is about 50%+/-5%.Other non-conductive plated film that can reach effect same also is applicable to the present invention.Glass 10 after the plating forms translucent glass, has translucent effect, can reflect article.Secondly the one side with translucent coating film on glass is bonded together with touch-screen 30, and touch-screen 30 can be capacitive touch screen or resistive touch screen, and preferred embodiment is a capacitive touch screen.

A kind of translucent touch screen 100 that the present invention proposes, a kind of translucent touch screen 100 that the present invention proposes utilizes glass 10 and non-conductive plated film 20, realizes translucent half reflection effect.

In a kind of translucent touch screen 100 1 embodiment that the present invention proposes, non-conductive plated film 20 can be full dielectric oxide nanocomposite optical film.

Use non-conductive plated film 20 not only can make translucent touch screen 100 have translucent half reflection effect, do not influence normal use again.

In a kind of translucent touch screen 100 1 embodiment that the present invention proposes, touch-screen 30 can be capacitive touch screen or resistive touch screen.

The present invention is not limited only to capacitive touch screen or resistive touch screen.The product with touch controllable function that other it may occur to persons skilled in the art that all is applicable to the present invention.

In a kind of translucent touch screen 100 1 embodiment that the present invention proposes, non-conductive plated film 20 forms translucent glass by electroplating attached on the glass 10.

The present invention is not limited only to use the mode of plating that non-conductive plated film 20 is attached on the glass 10, and other is adoptable to combine non-conductive plated film 20 and glass 1, and realizes that the mode of translucent effect is equally applicable to the present invention.

In a kind of translucent touch screen 100 1 embodiment that the present invention proposes, translucent glass and touch-screen are bonding.

The present invention is not limited only to use bonding mode with translucent glass and touch-screen 30 stacks, and other can make translucent glass and touch-screen 30 all be applicable to the present invention by the mode that layer structure superposes.

The thickness that it should be noted that above-mentioned glass 10 or non-conductive plated film 20 can be provided with as required.

With reference to Fig. 2, propose a kind of rearview mirror one embodiment of the present invention, comprise display screen 200, also comprise the translucent touch screen 100 that is superimposed upon on the display screen 200, this translucent touch screen 100 is a translucent display screen 100 shown in Figure 1, and its structure and principle of work repeat no more herein.

When display screen 200 is opened, can on rearview mirror, normally show and import, to carry out various operations, when display screen 200 was closed, rearview mirror had translucent half reflection function again, can retroreflective articles.

The rearview mirror that the present invention proposes can show and import by the translucent half reflection function of translucent touch screen 100, can be used as mirror again.

The above only is the preferred embodiments of the present invention; be not so limit claim of the present invention; every equivalent structure or equivalent flow process conversion that utilizes instructions of the present invention and accompanying drawing content to be done; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present invention.

Claims (6)

1. a translucent touch screen is characterized in that, comprises glass, non-conductive plated film and the touch-screen of stack successively.

2. translucent touch screen as claimed in claim 1 or 2 is characterized in that, described non-conductive plated film comprises full dielectric oxide nanocomposite optical film.

3. translucent touch screen as claimed in claim 1 or 2 is characterized in that, described touch-screen is capacitive touch screen or resistive touch screen.

4. translucent touch screen as claimed in claim 1 or 2 is characterized in that, described non-conductive plated film forms translucent glass by electroplating attached on glass.

5. translucent touch screen as claimed in claim 4 is characterized in that, described translucent glass and described touch-screen are bonding.

6. a rearview mirror comprises display screen, it is characterized in that, also comprises the translucent touch screen that is superimposed upon on the display screen, and described translucent touch screen is each described translucent display screen in the claim 1 to 5.

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