CN205121506U - Touch control display equipment - Google Patents

Abstract

The utility model provides a touch control display equipment contains transparent cover, touch -control sensing film, decorative layer and display panel. Transparent cover has flat, curvature and side part. Flat and side part are connected to the curvature. Touch -control sensing film sets up on transparent cover's internal surface. Decorative layer part at least sets up between side part and touch -control sensing film. Touch -control sensing film contain touch -control sensing array and with touch -control sensing array electric connection's at least one peripheral lead wire. Touch -control sensing array sets up on flat and curvature, and peripheral lead wire sets up in the side part. Display panel sets up in one side of the relative flat of touch -control sensing film. Because the user only can observe the decorative layer or walk the side of line, and can reach the purpose of the frame that narrows.

Description

Touch control display device

Technical field

The utility model relates to a kind of touch control display device.

Background technology

In recent years, touch control display device is widely used in various electronic equipment, such as intelligent mobile phone, flat board, notebook computer, Vehicular device etc.Touch control display device can be divided into contact panel, display panel and transparent cover plate roughly, and wherein the edge of contact panel and display panel is often provided with cabling, so that contact panel is connected with the normal of display panel.

In order to cover cabling, light shield layer (or decorative layer) generally must be set.But the existence of light shield layer often makes contactor control device sacrifice viewing area, and therefore, contactor control device is trend of today at narrow frame.But in the prior art, the width reducing decorative layer will compress the width of cabling, the area of spacing, the especially overlapping regions of touch-control sensing electrode and decorative layer, width, the spacing of compression cabling will easily make the impedance of cabling increase, and affect turn-on effect; If reduce the area of the overlapping regions of touch-control sensing electrode and decorative layer, easily make the display edge touch-control of touch-control display panel insensitive.Now, how configuring the object that cabling and light shield layer reach narrow frame and edge touch-control is important subject under discussion.

Utility model content

In view of above problem, the utility model forms transparent cover plate by with glue-free bonding pattern in conjunction with two transparency carriers, makes transparent cover plate have the folding edge of wide-angle.Thus, above-mentioned cabling and light shield layer can be set on folding edge, because user only can observe the side of decorative layer or cabling, and the object of the frame that narrows can be reached.On the other hand, the touch-control sensing film of this case can extend on side, and at least the sensing film of part on side can not be subject to decorative layer covering, therefore can improve aforesaid touch control display device side cannot touch-control and the close insensitive problem of edge of display area touch-control.

An embodiment of the present utility model provides a kind of touch control display device to comprise transparent cover plate, touch-control sensing film, decorative layer and display panel.Transparent cover plate has flat, sweep and lateral section.Sweep connects flat and lateral section.Touch-control sensing film is arranged on the inside surface of transparent cover plate.At least one perimeter leads that touch-control sensing film comprises touch-control sensing array and is electrically connected with touch-control sensing array.Touch-control sensing array is arranged on flat and sweep, and perimeter leads is arranged on lateral section.Decorative layer, is at least arranged between this lateral section and this touch-control sensing film.Display panel is arranged at the side of touch-control sensing film relatively flat part.

In one or more embodiment of the present utility model, lateral section has the side end away from flat, and the width of side end is less than the width of flat.

In one or more embodiment of the present utility model, display panel has rigid substrates.

In one or more embodiment of the present utility model, sweep comprises curved inner surface and excurvation curved surface, and the radius-of-curvature of curved inner surface is less than the radius-of-curvature of excurvation curved surface.

In one or more embodiment of the present utility model, the radius-of-curvature of curved inner surface is about 0.2 millimeter to about 1 millimeter.

In one or more embodiment of the present utility model, at least part of touch-control sensing array is arranged on lateral section.

In one or more embodiment of the present utility model, decorative layer extends between sweep and touch-control sensing film, and perimeter leads is positioned at decorative layer within the projection of projection plane in the projection of projection plane, and wherein projection plane is parallel to flat.

In one or more embodiment of the present utility model, around sweep continued circling flat.

In one or more embodiment of the present utility model, flat is different from the material of lateral section.

In one or more embodiment of the present utility model, transparent cover plate obtains through glue-free bonding techniques.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of the method for making touch control display device according to an embodiment of the present utility model.

Fig. 2 A to Fig. 2 F is in the sectional view in multiple stage according to the method for the making touch control display device of the 1st figure.

Fig. 3 is the schematic diagram of the transparent cover plate of touch control display device according to an embodiment of the present utility model.

Fig. 4 is the schematic diagram of the touch-control sensing film of touch control display device according to an embodiment of the present utility model.

Fig. 5 is the sectional view of the touch control display device according to another embodiment of the present utility model.

100: method

102 ~ 112: step

200: touch control display device

210: transparent cover plate

210a: flat

210b: sweep

210c: lateral section

212: the first transparency carriers

212a: surface

214: the second transparency carriers

214a: end face

214b: end face

216: inside surface

218: outside surface

220: decorative layer

230: touch-control sensing film

232: touch-control sensing array

232a: the first electrode layer

232b: insulation course

232c: the second electrode lay

234: metal level

234a: perimeter leads

236: substrate

237: optical cement layer

238: passivation layer

240: display panel

242: bottom surface

244: side

300: warm table

A: angle

VA: visible area

NA: non-visible area

P1: projection plane

R1: radius-of-curvature

R2: radius-of-curvature

RE1: groove

E1: side end

CS1: curved inner surface

CS2: excurvation curved surface

Embodiment

Below will with graphic exposure multiple embodiment of the present utility model, as clearly stated, the details in many practices will be explained in the following description.But should be appreciated that, the details in these practices is not applied to limit the utility model.That is, in the utility model some embodiments, the details in these practices is non-essential.In addition, for the purpose of simplicity of illustration, some known usual structures and assembly are in the drawings by the mode simply illustrated for it.

When an assembly be called as " ... on " time, it can make a general reference this assembly directly on other assemblies, and also can be has other assemblies to be present among both.On the contrary, when an assembly be called as " directly exist ... on " time, it only refers to this assembly directly on other assemblies, can not have other assemblies be present in both in the middle of.As used herein, vocabulary " and/or " contain one or more any combination in the associated item listed.

Fig. 1 is the process flow diagram of the method 100 of making touch control display device according to an embodiment of the present utility model.Method 100 comprises multiple step 102 ~ 112.Fig. 2 A to Fig. 2 F is in the sectional view in multiple stage according to the method 100 of the making touch control display device of Fig. 1.Fig. 2 A to Fig. 2 F that below arranges in pairs or groups carrys out illustration method 100.

With reference to Fig. 1 and Fig. 2 A, first come step 102, the first transparency carrier 212 and the second transparency carrier 214 is provided.In this, the area of the first transparency carrier 212 should design the area being greater than the second transparency carrier 214.The thickness of the first transparency carrier 212 and the second transparency carrier 214 can be identical or different.For example, the thickness of the first transparency carrier 212 and the second transparency carrier 214 can be about 0.2 millimeter to about 0.7 millimeter.Second transparency carrier 214 has relative two end faces 214a, 214b, and in part embodiment, the area of end face 214a, 214b can be different, should not paint with institute in scheming and limit scope of the present utility model.For example, the area that can configure end face 214a is greater than the area of end face 214b, namely the second transparency carrier up and down two be not parallel to each other.The material of the first transparency carrier 212 and the second transparency carrier 214 can be identical or different.For example, the material of the first transparency carrier 212 and the second transparency carrier 214 can be undoped silicon glass (UndopedSilicaGlass; USG), aluminic acid glass or sapphire etc.

In some embodiments, first transparency carrier 212 and the second transparency carrier 214 can have suitable surface of contact respectively, the surperficial 212a of such as the first transparency carrier and the end face 214a of the second transparency carrier 214, but in practical application, surface of contact can be the inclined-plane cut especially, should not illustrate to scheme and limit scope of the present utility model.

At this, first effects on surface 212a, end face 214a surface treatment can be carried out.Make surperficial 212a, end face 214a has water wettability and with valence link.More clearly say, after carrying out surface treatment, the surperficial 212a of hydrophilic first the transparency carrier 212 and end face 214a of hydrophilic second transparency carrier 214 can adsorb hydroxyl (-OH), such as, hydroxyl can form silicon-hydroxide bonds (Si-OH) with the silicon in glass, and hydroxyl also can form alfol bond with the aluminium in sapphire.

With reference to Fig. 1 and Fig. 2 B, then, at step 104, the first transparency carrier 212 is discharged with included angle A with second substrate 214.In some embodiments, included angle A can between the scope of 85 degree to 160 degree, and preferred angle is 157 degree, 150 degree, 135 degree, 120 degree, 90 degree, when included angle A is 90 degree is, the first transparency carrier 212 and the second transparency carrier 214 roughly orthogonal.In this, the design of surface of contact should make the first transparency carrier 212 can offset with the second transparency carrier 214 and contact, and has included angle A when the first transparency carrier 212 and the second transparency carrier 214 are offseted.In one or more embodiment of the present utility model, included angle A can between the scope of 85 degree to 160 degree.

With reference to Fig. 1, Fig. 2 B and Fig. 2 C, in step 106, the first transparency carrier 212 and the second transparency carrier 214 is heated with warm table 300, impel the molecular linkage in first transparency carrier 212 and the second transparency carrier 214 of surface of contact (i.e. surperficial 212a, end face 214a), and form transparent cover plate 210.Specifically, the surperficial 212a of aforesaid first transparency carrier 212 at high temperature can be polymerized with alfol bond with the silicon-hydroxide bonds on the end face 214a of the second transparency carrier 214, formation has silicon, and----binding layer (not illustrating) of silicon bond or aluminium-oxygen-aluminium bond, order makes the first transparency carrier 212 and the second transparency carrier 214 reach stable compound to oxygen to oxygen for aluminium bond, silicon.The thickness of this binding layer is very thin, is about less than or equal to 10 how rice.Compared to the applying method of other chemistry, this bonding method does not need to arrange extra colloid, and is called glue-free bonding techniques, is also called diffusion interlinked (DiffusionBonding).

Should be appreciated that, can separately with other boards, the heated substrates such as such as baking oven, should not limit scope of the present utility model with the warm table 300 painted in scheming.

In addition, after this glue-free bonding steps, in some embodiments, computer numerical control (ComputerNumericalControl can also be carried out; CNC) lathe process, to cut or polishing lapping mode repairs this transparent cover plate 210, makes this transparent cover plate 210 have level and smooth inside surface 216 and outside surface 218.Thus, this transparent cover plate 210 formed can comprise flat 210a, sweep 210b, lateral section 210c and recess R E1.

Flat 210a by the first transparency carrier 212 develop, lateral section 210c by the second transparency carrier 214 develop.Sweep 210b then by the joining place of the first transparency carrier 212 and the second transparency carrier 214 through heating glue-free bonding, polishing and developing, to connect flat 210a and lateral section 210c.Lateral section 210c has the side end E1 away from this flat 210a, and the width of side end E1 can equal the width of flat 210a.

In present embodiment, have included angle A as between aforesaid first transparency carrier 212 and the second transparency carrier 214, also have included angle A between flat 210a and lateral section 210c, as previously mentioned, included angle A can between the scope of 80 degree to 160 degree.Sweep 210b comprises curved inner surface CS1 and excurvation curved surface CS2, and in some embodiments, the radius of curvature R 1 that can arrange curved inner surface CS1 is less than the radius of curvature R 2 of excurvation curved surface CS2.For example, the radius of curvature R 1 of curved inner surface CS1 can be about 0.2 millimeter to about 1 millimeter, is more preferably 0.2 millimeter, 0.6 millimeter.The radius of curvature R 2 of excurvation curved surface CS2 is by optical simulation, on the basis of reference radius of curvature R 1, the optimal value of selected radius of curvature R 2, the optics of sweep 210b is made to weaken better effects if, namely when light sends from display, through bent part, light generation deviation, when the radius-of-curvature of inside and outside flexure plane is different, reaches deflection of light by optical simulation and maximize, thus weaken the edge bright border of the viewing area of touch control display.Recess R E1 is by flat 210a, sweep 210b and lateral section 210c around formed, and wherein the degree of depth of recess R E1 can be about 0.3 millimeter to about 0.7 millimeter.

Compared to known hot bending mode, glue-free bonding pattern can provide transparent cover plate 210 to have larger curvature, makes near vertical between flat 210a and lateral section 210c.

In this, although only illustrate touch control display device 200 with cross-sectional representation, and only can observe the side that sweep 210b and lateral section 210c is arranged at flat 210a, scope of the present utility model should do not limited with this.In fact, with reference to Fig. 2 C and Fig. 3, Fig. 3 be simultaneously the schematic diagram of transparent cover plate 210 of touch control display device 200 according to an embodiment of the present utility model.In the transparent cover plate 210 that glue-free bonding pattern is formed, sweep 210b and lateral section 210c can around continued circling flat 210a, make sweep 210b and lateral section 210c be arranged at four sides of flat 210a.In comparison, the transparent cover plate 210 generally formed in hot bending mode only can form bending in one direction, and cannot form sweep 210b and the lateral section 210c of four sides of continued circling flat 210a.

With reference to Fig. 1 and Fig. 2 D, then, come step 108, formed decorative layer 220 at least partly on the inside surface of lateral section 210c on.In present embodiment, included angle A is approximately 90 degree, and part decorative layer 220 can be formed on sweep 210b, makes decorative layer 220 be positioned at sweep 210b and lateral section 210c within the projection of projection plane P1 in the projection of projection plane P1.In other embodiments, the flat 210a that can configure and the included angle A of lateral section 210c are obtuse angle, so just can not and decorative layer 220 is extended on bent part 210b.

Should be appreciated that, in one or more embodiment of the present utility model, for convenience of description, only define a certain virtual plane and be parallel to flat 210a as projection plane P1, in practical application, should by one of this projection plane P1 necessary assembly being considered as touch control display device 200.

Decorative layer 220 is in order to define the visible area VA of transparent cover plate 210 and non-visible area NA, and its material can be one in acryl, epoxy resin or silicon or its combination, wherein can dopant dye and have particular color.For example, the material of decorative layer 220 can be black ink or white ink.Through coating, printing or this material of sputter on transparent cover plate 210, then decorative layer 220 can be formed through overbaking.

Then, with reference to Fig. 1 and Fig. 2 E, in step 110, touch-control sensing film 230 is formed on the inside surface 216 of transparent cover plate 210.In this, can optical cement layer (not illustrating) be set between touch-control sensing film 230 and inside surface 216, to help this forming step.In some embodiments, at least one perimeter leads 234a that touch-control sensing film 230 can comprise touch-control sensing array 232 (illustrating with dotted line) and be electrically connected with touch-control sensing array 232.After formation touch-control sensing film 230, perimeter leads 234a should be made to be arranged on lateral section 210c.Touch-control sensing array 232 can be arranged on flat 210a and sweep 210b.

In some embodiments, touch-control sensing array 232 is extensible to be arranged on lateral section 210c.Thus, have effect of side touch-control compared to known touch control display device, improving aforesaid touch control display device side cannot the problem of touch-control.When touch-control sensing array 232 extends on the inside surface of side part 210c in addition, touch-control sensing array 232 obviously increases with the overlap joint area of decorative layer, the sensitive increase of touch-control of edge of display area.

In this, touch-control sensing film 230 can comprise individual layer touch control electrode or double-deck touch control electrode.It is simultaneously the schematic diagram of the touch-control sensing film 230 of touch control display device 200 according to an embodiment of the present utility model with reference to Fig. 2 E and Fig. 4, Fig. 4.For double-deck touch control electrode, although in this not shows in detail, touch-control sensing film 230 can comprise substrate 236, the first electrode layer 232a of sequentially storehouse, insulation course 232b, the second electrode lay 232c, metal level 234, optical cement layer 237 and passivation layer 238.First electrode layer 232a, insulation course 232b and the second electrode lay 232c form touch-control sensing array 232 jointly.Although in this not shows in detail, in practical application, the first electrode layer 232a and the second electrode lay 232c can comprise mutually perpendicular electrodes series respectively, user can pass through these staggered electrodes and lists in each point and carry out touch-control sensing.Metal level 234 comprises perimeter leads 234a, in order to be electrically connected with the first electrode layer 232a and the second electrode lay 232c, and touch information is passed to integrated circuit (IC) chip.

In this, substrate 236 can by polyethylene terephthalate (polyethyleneterephthalate; PET), epoxy resin, polyimide (polyimide; PI) or other materials formed.First electrode layer 232a and the second electrode lay 232c can be formed by transparent conductive material, such as tin indium oxide (IndiumTinOxide; Or indium zinc oxide (IndiumZincOxide ITO); IZO).Insulation course 232b can be made up of various insulating material, in order to isolated first electrode layer 232a and the second electrode lay 232c.Optical cement layer 237 can comprise urethane acrylate (polyurethane-acrylate; PUA), silica resin (silicone) or other there is the material of high light transmittance.The material of passivation layer 238 can be that silicon nitride, monox, silicon oxynitride, acrylic resin or other materials formed, in order to stop that aqueous vapor is invaded.

In other embodiments, touch-control sensing film 230 can comprise single-layer electrodes layer (not illustrating), and this single-layer electrodes layer has the electrodes series at staggered interval, carries out touch-control sensing for each point of user on transparent cover plate 210 direction.

Generally speaking, in order to maintain the conductive characteristic of perimeter leads 234a, perimeter leads 234a design has certain width and height, and the combination of such as many perimeter leads 234a can have the width of 1.1 millimeters and the thickness of 0.1 to 0.2 millimeter.In present embodiment, by design lateral section 210c and flat 210a there is included angle A, make perimeter leads 234a only with side projection on projection plane P1.In this, because included angle A is close to 90 degree, the side projection of perimeter leads 234a on projection plane P1, is equivalent to the thickness of perimeter leads 234a.Thus, the scope of perimeter leads 234a towards user's reflection ray can be reduced significantly.Configure decorative layer 220 according to the position of perimeter leads 234a, thus, the object of the frame that narrows can be reached.

With reference to Fig. 1 and Fig. 2 F, in step 112, display panel 240 is fitted in the side of touch-control sensing film 230 relatively flat part 210a, and then obtain touch control display device 200.In this, can optical cement layer (not illustrating) be set between display panel 240 and touch-control sensing film 230, to help this laminating step.Display panel 240 can be liquid crystal display, and its inside can have rigid substrates, liquid crystal layer, thin film transistor base plate etc.It is noted that display panel 240 can comprise bottom surface 242 and side 244, as common non-flexible display, bottom surface 242 is orthogonal haply with side 244.

In multiple embodiment of the present utility model, owing to adopting glue-free bonding techniques to make transparent cover plate 210, and make the flat 210a of transparent cover plate 210 can be substantially vertical with lateral section 210c.Thus, display bottom surface 242 can be made to be roughly parallel to flat 210a, and display side 244 is roughly parallel to lateral section 210c.Display panel 240 can just be arranged at by the flat 210a of transparent cover plate 210, sweep 210b and lateral section 210c around recess R E1 in.In other words, make transparent cover plate 210 by glue-free bonding techniques, the distance between the side 244 of display panel 240 and lateral section 210c can be drawn in, and then reduce non-display area NA.

In one or more embodiment of the present utility model, with reference to Fig. 2 F, according to aforesaid method for making 100, touch control display device 200 can be obtained.Touch control display device 200 comprises transparent cover plate 210, touch-control sensing film 230 and display panel 240.Transparent cover plate 210 has flat 210a, sweep 210b and lateral section 210c.One end of sweep 210b connects at least side of flat 210a.The other end of lateral section 210c connecting bending bent portions 210b.Touch-control sensing film 230 is arranged on the inside surface 216 of transparent cover plate 210.Touch-control sensing film 230 comprise touch-control sensing array 232 and with perimeter leads 234a.Touch-control sensing array 232 is arranged on flat 210a and sweep 210b, and perimeter leads 234a is arranged on lateral section 210c.Display panel 240 is arranged at the side of touch-control sensing film 230 relatively flat part 210a.In this, decorative layer 220 is arranged between lateral section 210c and touch-control sensing film 230 at least partly

In present embodiment, included angle A design is approximately 90 degree, and decorative layer 220 extends between sweep 210b and touch-control sensing film 230, makes perimeter leads 234a be positioned at decorative layer 220 within the projection of projection plane P1 in the projection of projection plane P1.Thus, decorative layer 220 can block the light from perimeter leads 234a, avoids interference the sight line of user.

In some embodiments, when included angle A is obtuse angle, decorative layer 220 can only be arranged between lateral section 210c and touch-control sensing film 230, and be not arranged between sweep 210b and touch-control sensing film 230, now perimeter leads 234a is positioned at decorative layer 220 within the projection of projection plane P1 in the projection of projection plane P1.Thus, decorative layer 220 can also block the light from perimeter leads 234a, avoids interference the sight line of user.

Should be appreciated that decorative layer 220 non-essential configuration, in some embodiments, can omit decorative layer 220.Other details of touch control display device 200 are introduced in aforesaid multiple step, do not repeat them here.

Fig. 5 is the sectional view of the touch control display device 200 according to another embodiment of the present utility model.Present embodiment is similar to the embodiment of aforesaid Fig. 2 F, and difference is: the width of the side end E1 of present embodiment can be less than the width of flat 210a.

Relatively, decorative layer 220 configuration of present embodiment can also adjust accordingly.For example, that can reduce that decorative layer 220 makes is not positioned on sweep 210b, but still is positioned on lateral section 210c, and the projection of perimeter leads 234a on projection plane P1 is still positioned within the projection of decorative layer 220 on projection plane P1.

Thus, decorative layer 220 still can reach effect of shield lights, and can also reduce the scope of decorative layer 220, to reach the object of narrow frame or Rimless.Other details of the touch control display device 200 of present embodiment are introduced in aforesaid multiple step, do not repeat them here.

In multiple embodiment of the present utility model, form transparent cover plate by with glue-free bonding pattern in conjunction with two transparency carriers, make transparent cover plate have the bending of wide-angle.Thus, above-mentioned cabling and decorative layer can be set on folding edge, because user only can observe the side of decorative layer or cabling, and the object of the frame that narrows can be reached.On the other hand, the touch-control sensing film of this case can extend on side, and at least the sensing film of part on side can not be subject to decorative layer covering, therefore can improve aforesaid touch control display device side cannot touch-control and the close insensitive problem of edge of display area touch-control.In addition, above-mentioned cover plate carries out the assembling stage after collocation display, directly can arrange a plane back shroud, and by engaging or the mode of gluing, whole touch control display device like this presents integration, and this cover plate not only can realize the effect of holding but also has touch controllable function.

Although the utility model discloses as above with numerous embodiments; so itself and be not used to limit the utility model; anyly have the knack of this those skilled in the art; not departing from spirit and scope of the present utility model; when being used for a variety of modifications and variations, therefore protection domain of the present utility model is when being as the criterion depending on the accompanying claim person of defining.

Claims (10)

1. a touch control display device, comprises:

One transparent cover plate, comprises:

One flat;

Lateral section; And

One sweep, connects this flat and this side part;

One touch-control sensing film, be arranged on an inside surface of this transparent cover plate, at least one perimeter leads comprising a touch-control sensing array and be electrically connected with this touch-control sensing array, wherein this touch-control sensing array is arranged on this flat and this sweep, and this perimeter leads is arranged on this side lateral section; One decorative layer, is arranged between this lateral section and this touch-control sensing film at least partly; And

One display panel, is arranged at the side of this touch-control sensing film this flat relative.

2. touch control display device as claimed in claim 1, wherein this lateral section has one away from a side end of this flat, and the width of this side end is less than the width of this flat.

3. touch control display device as claimed in claim 1, wherein this display panel has a rigid substrates.

4. touch control display device as claimed in claim 1, wherein this sweep comprises a curved inner surface and an excurvation curved surface, and the radius-of-curvature of this curved inner surface is less than the radius-of-curvature of this excurvation curved surface.

5. touch control display device as claimed in claim 4, wherein the radius-of-curvature of this curved inner surface is about 0.2 millimeter to about 1 millimeter.

6. touch control display device as claimed in claim 1, wherein this touch-control sensing array is arranged on this side lateral section at least partly.

7. touch control display device as claimed in claim 1, wherein this decorative layer extends between this sweep and this touch-control sensing film, and this perimeter leads is positioned at this decorative layer within the projection of this projection plane in the projection of a projection plane, wherein this projection plane is parallel to this flat.

8. touch control display device as claimed in claim 1, wherein around this this flat of sweep continued circling.

9. touch control display device as claimed in claim 1, wherein this flat is different from the material of this lateral section.

10. touch control display device as claimed in claim 1, wherein this transparent cover plate obtains through a glue-free bonding techniques.