CN205375441U - Capacitive touch control screen of semitransparent mirror face - Google Patents

Abstract

The utility model discloses a capacitive touch control screen of semitransparent mirror face includes glass panels, metal oxide rete, touch -sensitive unit and touch panel unit in proper order, the spraying plating of metal oxide rete is on glass panels's non - touch surface, and the touch -sensitive unit passes through the sticky subsides of transparent optical on the metal oxide rete, wherein, the touch -sensitive unit includes conductive lead wire and the transparent conducting block of being connected with conductive lead wire one end, and the other end of conductive lead wire is bound and is formed the conductive lead wire at the tip of touch -sensitive unit and bind the piece, and the touch panel unit includes that control chip and the lead wire that is located touch panel unit tip bind the piece, and the piece is bound to the conductive lead wire and a fixed connection is bound to the lead wire, the frame silk screen printing printing ink layer of metal oxide rete, the printing ink layer covers on the conductive lead wire of touch -sensitive unit. The utility model discloses the touch screen is introduced the semitransparent mirror technique on the touch screen to it uses to make this touch screen can also work as the mirror outside satisfying the function that normal intelligent touch screen can realize.

Description

A kind of capacitance type touch control screen of semi-transparent minute surface

Technical field

This utility model relates to a kind of touch screen, particularly relates to the capacitance type touch control screen of a kind of semi-transparent minute surface.

Background technology

Existing touch screen, form all-transparent, transmission effects is good, but reflecting effect is poor, mirror can not be worked as shine, cause that touching display terminal product can not realize in application scenes, as intelligence evil spirit send out mirror, smart pier glass, intelligence makeups mirror application scenarios are all need to select the hair style of needs, clothes, cosmetic data etc. from minute surface display screen, see that selected hair style, clothes, cosmetic data meet undesirable while looking in the mirror.Existing technology be typically all in these scenes needed by the method choice of remote controller hair style, clothes, cosmetic data etc..Remote controller operation is very inconvenient, and not directly, and remote controller is easily lost.Best scheme is that PAD is the same directly use finger clicking operation on the mirror display with intelligence to smart mobile phone, and namely finger touch puts i.e. use, not only intuitively but also facilitate.

Utility model content

Utility model purpose: technical problem to be solved in the utility model is to provide the capacitance type touch control screen of a kind of semi-transparent minute surface, this touch screen meet can also work as outside the function achieved by normal intelligent touch screen mirror use.

Utility model content: for solving above-mentioned technical problem, the technical scheme that this utility model adopts is:

The capacitance type touch control screen of a kind of semi-transparent minute surface, includes face glass, metal-oxide rete, touch sensing unit and touch control unit successively；

Described metal-oxide rete spraying plating is on the non-tactile face of described face glass, and described touch sensing unit is pasted onto on described metal-oxide rete by transparent optical cement, and described metal-oxide rete is titanium oxide layer or aluminium oxide rete；

Wherein, described touch sensing unit includes conductive lead wire and the electrically conducting transparent block being connected with described conductive lead wire one end, the other end of described conductive lead wire is bundled in the end of described touch sensing unit and forms conductive lead wire binding block, described touch control unit includes control chip and is positioned at the lead-in wire binding block of described touch control unit end, and described conductive lead wire binds block and described lead-in wire binding block is fixed and connected；

The frame ink for screen printing layer of described metal-oxide rete, described ink layer covers on the conductive lead wire of described touch sensing unit.

It is preferred that, also include being positioned at the anti-fingerprint coating in described face glass touch surface or anti-fingerprint rete.

It is preferred that, the thickness of described face glass is 0.5 ~ 6mm.

It is preferred that, described face glass is toughened glass panel.

It is preferred that, the thickness of described metal-oxide rete is below 1um.

Beneficial effect: compared to prior art, pellicle mirror technology is incorporated on touch screen by touch screen of the present utility model, so that the smart terminal product applying this utility model touch screen can also be looked in the mirror while being capable of carrying out selecting operation in minute surface display screen, and then substantially increase the range of application of smart terminal product.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model capacitance type touch control screen；

Fig. 2 is the structural representation of touch sensing unit in this utility model capacitance type touch control screen；

Fig. 3 is the structural representation of touch control unit in this utility model capacitance type touch control screen；

Fig. 4 is the front view of this utility model capacitance type touch control screen.

Detailed description of the invention

According to following embodiment, it is possible to be more fully understood that this utility model.But, as it will be easily appreciated by one skilled in the art that the content described by embodiment is merely to illustrate this utility model, and should without this utility model described in detail in restriction claims.

As shown in Fig. 1 ~ 4, the capacitance type touch control screen of semi-transparent minute surface of the present utility model, include face glass 2, metal-oxide rete 3, touch sensing unit 5 and touch control unit 6 successively；Wherein, face glass 2 is plane toughened glass panel, and its thickness is 0.5 ~ 6mm；One or more layers metal-oxide rete 3 of spraying plating on the non-tactile face of face glass 2, this metal-oxide rete 3 has reflecting effect, it is capable of reflecting light line, it addition, compared to metal coating, metal-oxide is electron opaque material, go for capacitive touch screen, (traditional pellicle mirror, the material plated is all metallics, as: nickel, cadmium, chromium etc.；Owing to capacitance type touch control screen utilizes electrostatic induction principle to work; touch panel part is not allow for the material containing conductive compositions; the material that pellicle mirror of the present utility model plates is electron opaque material; plated film is carried out by special technique; make it can reach the gloss of minute surface, be again insulation) in order to prevent metal-oxide rete 3 oxidized, it is necessary to again to metal-oxide rete 3 does some special handlings; as plated layer of silicon dioxide layer, silicon dioxide layer shields.

Touch sensing unit 5 is pasted onto on metal-oxide rete 3 by transparent optical cement, touch sensing unit 5 includes conductive lead wire 8 and the electrically conducting transparent block 7 being connected with conductive lead wire 8 one end, the other end of conductive lead wire 8 is bundled in the end of touch sensing unit 5 and forms conductive lead wire binding block 9, electrically conducting transparent block 7 is positioned at the middle part of touch sensing unit 5, and the conductive lead wire 8 being connected with electrically conducting transparent block 7 is positioned at the frame place of touch sensing unit 5；Touch control unit 6 includes control chip 10 and is positioned at the lead-in wire binding block 11 of touch control unit 6 end, and conductive lead wire binding block 9 and the binding block 11 that goes between connect by hot pressing mode is fixing；

The frame place silk-screen of metal-oxide rete 3 has ink layer 4, ink layer 4 covers on the conductive lead wire 8 of touch sensing unit 5, ink layer 4 forms the covering frame 13 of a hollow on metal-oxide rete 3, the part that covering frame 13 encloses is the translucent form 12 of touch screen, and covering frame 13 can cover opaque conductive lead wire 8 in touch sensing unit 5.

Also being coated with one layer of anti-fingerprint coating 1 in the touch surface of this utility model capacitance type touch control screen face glass 2 or be fitted with one layer of anti-fingerprint rete 1, anti-fingerprint layer 1 can play the effect of anti-fingerprint, oil rub resistance, and then effectively protects touch screen.

This utility model capacitance type touch control screen forms semi-transparent minute surface after having plated metal-oxide rete 3, can see the content in display screen when display screen is bright；When display screen does not work, touch screen meets light line reflection, forms mirror effect, it is possible to when mirror shines.It addition, this utility model capacitance type touch control screen can realize single-point or multi-point touch, the size of display screen can accomplish 3.5 cun ~ 100 cun.

Claims (5)

1. the capacitance type touch control screen of a semi-transparent minute surface, it is characterised in that: include face glass, metal-oxide rete, touch sensing unit and touch control unit successively；

Described metal-oxide rete spraying plating is on the non-tactile face of described face glass, and described touch sensing unit is pasted onto on described metal-oxide rete by transparent optical cement, and described metal-oxide rete is titanium oxide layer or aluminium oxide rete；

Wherein, described touch sensing unit includes conductive lead wire and the electrically conducting transparent block being connected with described conductive lead wire one end, the other end of described conductive lead wire is bundled in the end of described touch sensing unit and forms conductive lead wire binding block, described touch control unit includes control chip and is positioned at the lead-in wire binding block of described touch control unit end, and described conductive lead wire binds block and described lead-in wire binding block is fixed and connected；

The frame ink for screen printing layer of described metal-oxide rete, described ink layer covers on the conductive lead wire of described touch sensing unit.

2. the capacitance type touch control screen of semi-transparent minute surface according to claim 1, it is characterised in that: also include being positioned at the anti-fingerprint coating in described face glass touch surface or anti-fingerprint rete.

3. the capacitance type touch control screen of semi-transparent minute surface according to claim 1, it is characterised in that: the thickness of described face glass is 0.5 ~ 6mm.

4. the capacitance type touch control screen of semi-transparent minute surface according to claim 1, it is characterised in that: described face glass is toughened glass panel.

5. the capacitance type touch control screen of semi-transparent minute surface according to claim 1, it is characterised in that: the thickness of described metal-oxide rete is below 1um.