CN204904229U - Stereoscopic display touches module - Google Patents

Abstract

The utility model discloses a stereoscopic display touches module sets up on display panel, including stereoscopic display and touch -sensitive module, first bond line and the protection casing of concrete bore hole stereoscopic display with the touch function, display panel, stereoscopic display and touch -sensitive module, first bond line and protection casing set gradually according to display panel's smooth emitting direction, stereoscopic display and touch -sensitive module through with concrete bore hole stereoscopic display and touch function set up, between display panel and protection casing, and through first bond line with stereoscopic display and touch -sensitive module and protection casing bonding, the touch -sensitive function has been realized when realizing bore hole stereoscopic display function, compared with the prior art partial membrane structure has been saved, the thickness and the weight of product have been reduced.

Description

Stereo display touches module

Technical field

The utility model relates to electronic equipment stereo display technique, and particularly stereo display touches module.

Background technology

Bore hole stereo display technique can meet observer close to the requirement of sense in reality, is applied just gradually in the products such as medical treatment display product, teaching instrument and equipment, TV, mobile phone, flat board.Meanwhile, in these display products, the touching technique of plane, comprises capacitive touch screen or touch membrane, and resistive touch screen or touch membrane are applied more widely.

As shown in Figure 1, existing 3 D stereo display structure comprises back cover supporting mechanism 1, back light unit 2, LCD glass 3, optical focus glass (optical focus film) 4, compound 3D grating 5 and ARFilm film 6 according to light exit direction, wherein, LCD glass, optical focus glass and film, compound 3D grating and ARFilm film can be spaces, also can be that optical cement bonds each Rotating fields.This structure makes people experience stereoeffect primarily of compound 3D grating.

As shown in Figure 2, existing capacitance touch screen comprises: display panels 10, first bonding coat 20, glass substrate 30, transparency electrode 40, second bonding coat 50, protective cover 60 and AR coating 70.Touch principle is: the external capacitive that finger contact is formed will change on same layer conducting film, electric capacity between adjacent rows (or two row), adjacent two ITO (IndiumTinOxide, tin-doped indium oxide) add high-frequency ac voltage between conductive stripe, detect its electric current simultaneously, from while to another side scanning, two ITO conductive stripe positions of current anomaly are horizontal stroke (indulging) coordinate of touch point.

In above-mentioned touch-screen, glass substrate also can adopt the diaphragm material of synthesis lipid.Stereo display touch apparatus adopts and is directly superimposed in stereo display structure by above-mentioned touch-screen, can realize bore hole stereo display and touch controllable function.

The grating of current bore hole stereo display, all can need an optical focus distance at large scale bore hole stereo product (such as from more than 21 inches to 110 inches), and thickness is not probably at 2mm to 20mm etc.And the module of planar touch itself comprises multilayer material, add outermost cover glass 4mm or 6mm, cause the high and Heavy Weight of the thickness of overall product.

On small size bore hole stereo product (such as 4 inches to 13 inches), the optical focus distance that 3 D grating needs is at 0.1mm to 2mm etc.The thickness of the touch membrane of whole product is about 2mm.For the more thin better market application trend of pursuit, the thickness increase of every 0.1mm all will reduce the competitive power of product.

In addition, existing stereo display touch apparatus must by above-mentioned touch-screen and stereo display folded structures, and capacitance touch screen to stack order immutable, and the level of each module can not reduce.

Thus prior art need to improve.

Utility model content

In view of above-mentioned the deficiencies in the prior art part, the purpose of this utility model is to provide stereo display to touch module, while having bore hole three-dimensional display function, can reduce the thickness of product.

In order to achieve the above object, the utility model takes following technical scheme:

Stereo display touches module, be arranged on display panel, comprise stereo display and touch sensible module, the first bonding coat and the protective cover of concrete bore hole stereo display and touch function, described display panel, stereo display and touch sensible module, the first bonding coat and protective cover set gradually according to the light exit direction of display panel.

Described stereo display touches in module, and described stereo display and touch sensible module comprise stereo display assembly and touch sensible assembly, and described touch sensible assembly is positioned on stereo display assembly.

Described stereo display touches in module, and described stereo display assembly comprises the second bonding coat, cubic light gate layer and the 3rd bonding coat, and described touch sensible assembly comprises glass substrate and transparent electrode layer; Described display panel, the second bonding coat, cubic light gate layer, the 3rd bonding coat, glass substrate, transparent electrode layer, the first bonding coat and protective cover set gradually.

Described stereo display touches in module, described stereo display assembly comprises the second bonding coat, cubic light gate layer and the 3rd bonding coat, described touch sensible assembly comprises glass substrate, sense line layer and driver circuit layer, and described display panel, the second bonding coat, cubic light gate layer, the 3rd bonding coat, glass substrate, sense line layer, driver circuit layer, the first bonding coat and protective cover set gradually.

Described stereo display touches in module, described stereo display assembly comprises the second bonding coat, cubic light gate layer and the 3rd bonding coat, described touch sensible assembly comprises bottom ITOfilm layer, bottom ITO layer, 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer and upper ITOfilm layer, described display panel, second bonding coat, cubic light gate layer, 3rd bonding coat, bottom ITOfilm layer, bottom ITO layer, 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer, ITOfilm layer, first bonding coat and protective cover set gradually.

Described stereo display touches in module, and described stereo display and touch sensible module comprise stereo display assembly and touch sensible assembly, and described stereo display assembly is positioned on touch sensible assembly.

Described stereo display touches in module, and described stereo display assembly comprises the second bonding coat and cubic light gate layer, and described touch sensible assembly comprises glass substrate and transparent electrode layer; Described display panel, glass substrate, transparent electrode layer, the second bonding coat, cubic light gate layer, the first bonding coat and protective cover set gradually.

Described stereo display touches in module, described stereo display assembly comprises the second bonding coat and cubic light gate layer, described touch sensible assembly comprises glass substrate, sense line layer and driver circuit layer, and described display panel, glass substrate, sense line layer, driver circuit layer, the second bonding coat, cubic light gate layer, the first bonding coat and protective cover set gradually.

Described stereo display touches in module, described stereo display assembly comprises the second bonding coat and cubic light gate layer, described touch sensible assembly comprises bottom ITOfilm layer, bottom ITO layer, the 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer and upper ITOfilm layer, and described display panel, bottom ITOfilm layer, bottom ITO layer, the 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer, upper ITOfilm layer, the second bonding coat, cubic light gate layer, the first bonding coat and protective cover set gradually.

Described stereo display touches in module, and described protective cover is provided with AR coating.

Compared to prior art, the stereo display that the utility model provides touches module, comprise stereo display and touch sensible module, first bonding coat and protective cover, described display panel, stereo display and touch sensible module, first bonding coat and protective cover set gradually according to the light exit direction of display panel, by the stereo display of concrete bore hole stereo display and touch function and touch sensible module are arranged between display panel and protective cover, and by the first bonding coat by stereo display and touch sensible module and protective cover bonding, touch sensing function is achieved while realizing bore hole three-dimensional display function, compared with prior art eliminate part film Rotating fields, reduce thickness and the weight of product.

Accompanying drawing explanation

Fig. 1 is the structural representation of existing three-dimensional stereo display equipment.

Fig. 2 is the structural representation of existing capacitance touch display device.

Fig. 3 is the structural representation that the stereo display of the utility model embodiment touches module.

The structural representation of the stereo display touch module that Fig. 4 provides for the utility model first preferred embodiment.

The structural representation of the stereo display touch module that Fig. 5 provides for the utility model second preferred embodiment.

The structural representation of the stereo display touch module that Fig. 6 provides for the utility model the 3rd preferred embodiment.

The structural representation of the stereo display touch module that Fig. 7 provides for the utility model the 4th preferred embodiment.

The structural representation of the stereo display touch module that Fig. 8 provides for the utility model the 5th preferred embodiment.

The structural representation of the stereo display touch module that Fig. 9 provides for the utility model the 6th preferred embodiment.

Embodiment

The utility model provides stereo display to touch module, the stack architecture of the integration touch-screen of 3 D grating (can be lens pillar, also can be slit grating) and G+G (glass and glass) or G+FF (glass and diaphragm) combined for one and three-dimensionally touch planar device.The utility model can reduce the thickness of detector of tradition application, simultaneously on the basis of not carrying out the transformation showing liquid crystal layer, for display device increases the function of stereo display and planar touch simultaneously.The utility model is not limited to size, all applicable to 150 inches from 2 inches, has huge marketing application prospect

For making the purpose of this utility model, technical scheme and effect clearly, clearly, referring to the accompanying drawing embodiment that develops simultaneously, the utility model is further described.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 3, it is the structural representation that the stereo display of the utility model embodiment touches module.The stereo display that the utility model embodiment provides touches module, be arranged on display panel 10, comprise the stereo display of concrete bore hole stereo display and touch function and touch sensible module 20, first bonding coat 30 and protective cover 40, described display panel 10, stereo display and touch sensible module 20, first bonding coat 30 and protective cover 40 set gradually according to the light exit direction of display panel 10.

Wherein, described stereo display and touch sensible module 20 comprise stereo display assembly 21 and touch sensible assembly 22.Described stereo display assembly 21 has bore hole three-dimensional display function, and described touch sensible group has touch sensing function, comprises capacitive sensing and resistance responds to two kinds.Described touch sensible assembly 22 is positioned on stereo display assembly 21, also can be that described stereo display assembly 21 is positioned on touch sensible assembly 22.In order to better understand the utility model, below lifting specific embodiment and stereo display touch module of the present utility model is described in detail.

Refer to Fig. 4, in the first preferred embodiment of the present utility model, described stereo display assembly 21 comprises the second bonding coat 211, cubic light gate layer 212 and the 3rd bonding coat 213, and described touch sensible assembly 22 comprises glass substrate 221 and transparent electrode layer 222; Described display panel 10, second bonding coat 211, cubic light gate layer 212, the 3rd bonding coat 213, glass substrate 221, transparent electrode layer 222, first bonding coat 30 and protective cover 40 are penetrated face from light and are set gradually.In the present embodiment, described transparent electrode layer 222 is for realizing touch sensing function, and cubic light gate layer 212 is for realizing bore hole three-dimensional display function, and this first preferred embodiment adopts the mode of capacitance touching control.

Refer to Fig. 5, in the second preferred embodiment of the present utility model, described stereo display assembly 21 comprises the second bonding coat 211, cubic light gate layer 212 and the 3rd bonding coat 213, described touch sensible assembly 22 comprises glass substrate 221, sense line layer 223 and driver circuit layer 224, and described display panel 10, second bonding coat 211, cubic light gate layer 212, the 3rd bonding coat 213, glass substrate 221, sense line layer 223, driver circuit layer 224, first bonding coat 30 and protective cover 40 are penetrated face from light and set gradually.In the present embodiment, described sense line layer 223 and driver circuit layer 224 are for realizing touch sensing function, and cubic light gate layer 212 is for realizing bore hole three-dimensional display function, and this second preferred embodiment adopts the mode of resistance touch-control.

Refer to Fig. 6, in the 3rd preferred embodiment of the present utility model, described stereo display assembly 21 comprises the second bonding coat 211, cubic light gate layer 212 and the 3rd bonding coat 213, described touch sensible assembly 22 comprises bottom ITOfilm layer 225, bottom ITO layer 226, 4th bonding coat 227, lower ITOfilm layer 228, sense line layer 223, driver circuit layer 224 and upper ITOfilm layer 229, described display panel 10, second bonding coat 211, cubic light gate layer 212, 3rd bonding coat 213, bottom ITOfilm layer 225, bottom ITO layer 226, 4th bonding coat 227, lower ITOfilm layer 228, sense line layer 223, driver circuit layer 224, ITOfilm layer, first bonding coat 30 and protective cover 40 are penetrated face from light and are set gradually.In the present embodiment, described bottom ITOfilm layer 225, bottom ITO layer 226, the 4th bonding coat 227, lower ITOfilm layer 228, sense line layer 223, driver circuit layer 224 and upper ITOfilm layer 229 are for realizing touch sensing function, cubic light gate layer 212 is for realizing bore hole three-dimensional display function, and this 3rd preferred embodiment adopts the mode of ITO touch-control.

In above-mentioned first to the 3rd preferred embodiment, before touch sensible assembly 22 is all positioned at stereo display assembly 21, namely touch sensible assembly 22 is in the outside of stereo display assembly 21, certainly, stereo display assembly 21 also can be positioned on touch sensible assembly 22, and namely stereo display assembly 21 is in the outside of touch sensible assembly 22.

Refer to Fig. 7, in the utility model the 4th preferred embodiment, described stereo display assembly 21 comprises the second bonding coat 211 and cubic light gate layer 212, and described touch sensible assembly 22 comprises glass substrate 221 and transparent electrode layer 222; Described display panel 10, glass substrate 221, transparent electrode layer 222, second bonding coat 211, cubic light gate layer 212, first bonding coat 30 and protective cover 40 set gradually from inside to outside, this embodiment is compared with the first preferred embodiment, stereo display assembly 21 is in the outside of touch sensible assembly 22, but also eliminating one deck bonding coat, thickness reduces further.

Refer to Fig. 8, in the utility model the 5th preferred embodiment, described stereo display assembly 21 comprises the second bonding coat 211 and cubic light gate layer 212, described touch sensible assembly 22 comprises glass substrate 221, sense line layer 223 and driver circuit layer 224, described display panel 10, glass substrate 221, sense line layer 223, driver circuit layer 224, second bonding coat 211, cubic light gate layer 212, first bonding coat 30 and protective cover 40 set gradually from inside to outside, this embodiment is compared with the second preferred embodiment, stereo display assembly 21 is in the outside of touch sensible assembly 22, but also eliminate one deck bonding coat, module thickness reduces further.

Refer to Fig. 9, in the utility model the 6th preferred embodiment, described stereo display assembly 21 comprises the second bonding coat 211 and cubic light gate layer 212, described touch sensible assembly 22 comprises bottom ITOfilm layer 225, bottom ITO layer 226, 4th bonding coat 227, lower ITOfilm layer 228, sense line layer 223, driver circuit layer 224 and upper ITOfilm layer 229, described display panel 10, bottom ITOfilm layer 225, bottom ITO layer 226, 4th bonding coat 227, lower ITOfilm layer 228, sense line layer 223, driver circuit layer 224, upper ITOfilm layer 229, second bonding coat 211, cubic light gate layer 212, first bonding coat 30 and protective cover 40 set gradually from inside to outside, this embodiment is compared with the 3rd preferred embodiment, stereo display assembly 21 is in the outside of touch sensible assembly 22, but also eliminate one deck bonding coat, module thickness reduces further.

Further; module is touched in order to well protect stereo display of the present utility model; above-mentioned first, second, in the 5th and the 6th preferred embodiment; described protective cover 40 is provided with AR coating 50; this AR coating 50 is the surface treatment of stereo display touch module; certainly, this structure can also be the structures such as fungi-proofing layer, hardened layer, specular layer.

In each embodiment above-mentioned, described display panel 10 comprises and is also not limited to LCD, OLED autoluminescence liquid crystal panel, bendable oled panel, plasma panel, rear-projection panel etc.

Further, in each embodiment above-mentioned, cubic light gate layer 212 include but not limited to lenticular sheet, slit grating and other meet on film material by the UV optical grating construction made such as shaping.

Further, in each embodiment above-mentioned, glass substrate 221 can be silex glass, acrylic material glass, Graphene glass, and have flexible other materials high transmission rate optical material make substrate.Its function includes but not limited to play carrying coating, carry out optical focus, protection, silk-screen etc.

It should be noted that in each embodiment above-mentioned, the material of various lamination and thickness are according to functional requirements such as stereo display and planar touch surface process and carry out designing and calculating and realization.

In sum, stereo display that the utility model provides touches module, is the stacked structure that be combined with each other of the grating with stereo display effect of integral type and touch screen function and with the planar device of this Structure composing.(can be lens pillar by 3 D grating, also can be slit grating) and the stack architecture of integration that combines of the touch-screen of G+G (glass and glass) or G+FF (glass and diaphragm) and three-dimensionally touch planar device, and its process is mutually compatible with traditional production technology.The utility model by the first bonding coat by stereo display and touch sensible module and protective cover bonding, touch sensing function is achieved while realizing bore hole three-dimensional display function, compared with prior art eliminate optical focus glass (or optical focus film), reduce thickness and the weight of product.

Meanwhile, the utility model on the basis of technique change of not carrying out display device such as liquid-crystalline glasses, for flat-panel display devices increases the function of stereo display and planar touch simultaneously.In addition, stereo display and touch sensible module Stereo display assembly do not limit to its stacked position, can be placed in the random layer structure of capacitance touch screen, easy to assembly, production efficiency is high, but also can ingeniously utilize the ITO layer of capacitance touch screen as focus layer, reduce the thickness of product.

Be understandable that; for those of ordinary skills; can be equal to according to the technical solution of the utility model and utility model design thereof and replace or change, and all these change or replace the protection domain that all should belong to the claim appended by the utility model.

Claims (10)

1. a stereo display touches module, be arranged on display panel, it is characterized in that, comprise stereo display and touch sensible module, the first bonding coat and the protective cover of concrete bore hole stereo display and touch function, described display panel, stereo display and touch sensible module, the first bonding coat and protective cover set gradually according to the light exit direction of display panel.

2. stereo display according to claim 1 touches module, and it is characterized in that, described stereo display and touch sensible module comprise stereo display assembly and touch sensible assembly, and described touch sensible assembly is positioned on stereo display assembly.

3. stereo display according to claim 2 touches module, and it is characterized in that, described stereo display assembly comprises the second bonding coat, cubic light gate layer and the 3rd bonding coat, and described touch sensible assembly comprises glass substrate and transparent electrode layer; Described display panel, the second bonding coat, cubic light gate layer, the 3rd bonding coat, glass substrate, transparent electrode layer, the first bonding coat and protective cover set gradually.

4. stereo display according to claim 2 touches module, it is characterized in that, described stereo display assembly comprises the second bonding coat, cubic light gate layer and the 3rd bonding coat, described touch sensible assembly comprises glass substrate, sense line layer and driver circuit layer, and described display panel, the second bonding coat, cubic light gate layer, the 3rd bonding coat, glass substrate, sense line layer, driver circuit layer, the first bonding coat and protective cover set gradually.

5. stereo display according to claim 2 touches module, it is characterized in that, described stereo display assembly comprises the second bonding coat, cubic light gate layer and the 3rd bonding coat, described touch sensible assembly comprises bottom ITOfilm layer, bottom ITO layer, 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer and upper ITOfilm layer, described display panel, second bonding coat, cubic light gate layer, 3rd bonding coat, bottom ITOfilm layer, bottom ITO layer, 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer, ITOfilm layer, first bonding coat and protective cover set gradually.

6. stereo display according to claim 1 touches module, and it is characterized in that, described stereo display and touch sensible module comprise stereo display assembly and touch sensible assembly, and described stereo display assembly is positioned on touch sensible assembly.

7. stereo display according to claim 6 touches module, and it is characterized in that, described stereo display assembly comprises the second bonding coat and cubic light gate layer, and described touch sensible assembly comprises glass substrate and transparent electrode layer; Described display panel, glass substrate, transparent electrode layer, the second bonding coat, cubic light gate layer, the first bonding coat and protective cover set gradually.

8. stereo display according to claim 6 touches module, it is characterized in that, described stereo display assembly comprises the second bonding coat and cubic light gate layer, described touch sensible assembly comprises glass substrate, sense line layer and driver circuit layer, and described display panel, glass substrate, sense line layer, driver circuit layer, the second bonding coat, cubic light gate layer, the first bonding coat and protective cover set gradually.

9. stereo display according to claim 6 touches module, it is characterized in that, described stereo display assembly comprises the second bonding coat and cubic light gate layer, described touch sensible assembly comprises bottom ITOfilm layer, bottom ITO layer, 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer and upper ITOfilm layer, described display panel, bottom ITOfilm layer, bottom ITO layer, 4th bonding coat, lower ITOfilm layer, sense line layer, driver circuit layer, upper ITOfilm layer, second bonding coat, cubic light gate layer, first bonding coat and protective cover set gradually.

10. the stereo display according to claim 3 or 4 or 7 or 8 touches module, it is characterized in that, described protective cover is provided with AR coating.