CN103176637B - The manufacture method of display panel and decoration frame thereof and the touch control display system of application - Google Patents

Abstract

The present invention proposes a kind of display panel, comprise a display panel body, there is a penetrating region and a non-penetrating district, wherein, this display panel body be more provided with in this non-penetrating district have uneven surface one first surface and relatively this first surface arrange and have non-uneven surface one the 2nd surface; With a reflecting layer, be positioned at display panel body first the on the surface or two surface one of them.

Description

The manufacture method of display panel and decoration frame thereof and the touch control display system of application

Technical field

The invention relates to the manufacture method of a kind of display panel and display panel decoration frame and its application, and the decoration frame of the even reflectivity scattering of the visible ray all wave band relating to a kind of display panel especially and manufacture method thereof, with the touch control display system of application display panel.

Background technology

For 3C Product, nowadays consumers requires that inherent quality also focuses on the texture of outward appearance incessantly. The decorating film of 3C Product outward appearance, except covering inner mixed and disorderly electronic component, more can be the transparency carrier covered and decorates as frame, not only gives product fine and smooth beautiful outward appearance, also improves the value sense of product, for product brings brand-new life.

The white in finish film that current many 3C Products use as shown in Figure 1, is generally utilize wet process, such as modes such as wire mark, spraying, rotary coating, a transparency carrier S is coated with one layer of whitewash P, such as white ink, white color blocking or white light resistance, using as the product frame outside face. When outside light arrives whitewash P, whitewash P by transparency carrier S, to reflect light be look.

But, if the thicknesses of layers deficiency of coating, shielding is not good. For reaching enough shieldings (i.e. high light intensity O.D. value) and white saturation ratio, then thickness need to reach tens of more than um, but thickness crosses the thick difficulty easily causing subsequent film stack and the factor that must consider increases, and required cost promotes relatively. Moreover in the way of traditional wet processing procedure stacking rete, it is easy to producing thickness uneven, the problem that particularly during big area, homogeneity is not good is obvious especially.

Moreover, the ink of whitewash P or color blocking all utilize organic solvent mixed chemical colorant and become, and environment is a big harm and reclaims not easily by the waste material after processing procedure, waste liquid, need to consider how follow-up waste material waste liquid carries out its environmental protection subject under discussion that may derive of recycling. Also because whitewash P mostly is organic materials composition, to the comparatively responsive susceptible of temperature and acid-basicity, easily making whitewash produce the phenomenons such as yellow cracking, successive process selectivity is by restricted.

Summary of the invention

Because above-mentioned problem, the present invention provides the manufacture method of a kind of display panel and decoration frame thereof and the touch control display system of application, utilize the reflecting layer of the incident high-reflectivity of light to produce light diffusion phenomenon in uneven surface again, obtain near-white decoration property plated film using the decoration frame as display panel.

According to an aspect of the present invention, a kind of display panel is proposed, comprise a display panel body, there is a penetrating region and a non-penetrating district, wherein, this display panel body be more provided with in this non-penetrating district have uneven surface one first surface and relatively this first surface arrange and have non-uneven surface one the 2nd surface;With a reflecting layer, be positioned at display panel body first the on the surface or two surface one of them.

According to a further aspect in the invention, the manufacture method of a kind of display panel decoration frame is proposed, comprise: a display panel body is provided, this display panel body has a penetrating region and a non-penetrating district, wherein, non-penetrating district is located on penetrating region, and one first surface that the non-penetrating district of display panel body being provided with has a uneven surface and relative first surface and there is the 2nd surperficial of non-uneven surface, and the roughness on the first surface is at least more than or equal to 1 ��m; With formed a reflecting layer in first the on the surface or two surface one of them, wherein the reflectivity in this reflecting layer is more than or equal to 50%.

In accordance with a further aspect of the present invention, it is proposed to a kind of touch control display system, comprises a touch panel display, comprise display panel described above; And one input unit, be coupled to this touch panel display, in order to provide input signal to touch panel display, make touch panel display produce show image.

Accompanying drawing explanation

For the above-mentioned purpose of the present invention, feature and advantage can be become apparent, do to illustrate in detail to the specific embodiment of the present invention below in conjunction with accompanying drawing, wherein:

Fig. 1 is the rough schematic of tradition white in finish film.

Fig. 2 illustrates the schematic diagram of a kind of display panel according to the embodiment of the present invention.

The diagrammatic cross-section of a kind of decorating film assembly that Fig. 3 A illustrates along the section line A-A ' of Fig. 2.

The diagrammatic cross-section of another kind of decorating film assembly that Fig. 3 B illustrates along the section line A-A ' of Fig. 2.

Fig. 4 is the schematic diagram of a kind of substrate coarseization method of the decorating film assembly of the embodiment of the present invention.

Fig. 5 is the schematic diagram of another kind of substrate coarseization method of the decorating film assembly of the embodiment of the present invention.

Fig. 6 is the schematic diagram that a kind of formation of the decorating film assembly of the embodiment of the present invention has uneven surface substrate.

Fig. 7 A��7C is the schematic diagram of three kinds of vibrational power flow of the decorating film assembly of embodiment of the present invention tool antiglare film.

Fig. 8 is the schematic diagram of a touch control display system.

Fig. 9 is for there being glass baseplate surface carry out roughened and do not carry out roughened, and plates the diagram of high-reflectivity metal aluminium afterwards respectively.

Main element nomenclature:

2,2 ': decorating film assembly

10: display panel

11: display panel body

112: penetrating region

114: non-penetrating district

13,20,30,40,50,51: substrate

201,301,401: the first surface

202,302,402: the two surface

23,24,64a, 64b, 64c: reflecting layer

231: tabular surface

241: reflection uneven surface

47: frosting cream

48: acid-base solution

52: antiglare film

8: touch control display system

81: touch panel display

83: input unit

S: transparency carrier

P: whitewash

Embodiment

Embodiment proposes the manufacture method of a kind of display panel and decoration frame thereof and the touch control display system decorating film assembly of application, the collocation having the surface of uneven surface and the reflecting layer of high-reflectivity with one is applied to the non-penetrating district of display panel, light reflection form is presented with diffused light effect, and obtain concerning people's eye, present near-white decoration property plated film, using the decoration frame as display panel. Embodiment can be applicable to 3C Product decorative appearance, such as the big area or frame decoration etc. of the housing of display panel, contact panel, to provide the decorating film of even and high shielding.

Fig. 2 illustrates the schematic diagram of a kind of display panel according to the embodiment of the present invention. Display panel 10 comprises display panel body 11 and a reflecting layer.Display panel body 11 has penetrating region 112 and a non-penetrating district 114, and wherein non-penetrating district 114 is located on penetrating region 112. Wherein, display panel body 11 be more provided with in non-penetrating district 114 have uneven surface one first surface and relatively this first surface arrange and have non-uneven surface one the 2nd surface. And reflecting layer is positioned at the first of display panel body 11 and forms a reflection uneven surface on the surface, or it is formed at the 2nd surface. Wherein, the roughness on the first surface is at least more than or equal to 1 ��m, such as, between 1 ��m��20 ��m; The reflectivity in reflecting layer is more than or equal to 50%, and display panel can roughly show the decoration frame of near-white whereby in non-penetrating district 114 even presenting of light, to cover inner mixed and disorderly electronic component or to can be the frame decoration covering transparency carrier.

In one embodiment, display panel body 11 comprises a substrate 13, and forms this first surface in a surface of substrate 13. In another embodiment, display panel body 11 comprises a substrate 13 and an antiglare film (anti-glarefilm), one surface of antiglare film forms this first surface, and its haze value is such as 50��100%, to provide the roughness on the first surface to be at least more than or equal to 1 ��m. The diagrammatic cross-section illustrated using the section line A-A ' along Fig. 2 below illustrates wherein several enforcement aspects of the decorating film assembly decorating frame as display panel.

The diagrammatic cross-section of a kind of decorating film assembly that Fig. 3 A illustrates along the section line A-A ' of Fig. 2. Decorating film assembly 2 as shown in Figure 3A, is on the substrate 20 of display panel body and place of corresponding non-penetrating district forms a reflecting layer 23. Substrate 20 is such as a transparency carrier, has one first relative surface 201 and one the 2nd surface 202. Wherein substrate 20 included by display panel body at least has a uneven surface, and if the first surface 201 be uneven surface, and a roughness of uneven surface is at least greater than 1 ��m, and the 2nd 202, surface be a non-uneven surface of surperficial 201 settings relative to first. Reflecting layer 23 is high-reflectivity material, such as the metallic membrane of tool high-reflectivity, such as, is the aluminium film or silverskin etc. that reflectivity is more than or equal to 50%. In Fig. 3 A, reflecting layer 23 is formed on the 2nd surface 202 of substrate 20, and has a tabular surface 231.

The diagrammatic cross-section of another kind of decorating film assembly that Fig. 3 B illustrates along the section line A-A ' of Fig. 2. In Fig. 3 B, the reflecting layer 24 of decorating film assembly 2 ' also can be formed on the first surface 201 (i.e. the uneven surface of substrate 20) of substrate 20, and has a reflection uneven surface 241. Equally, the corresponding substrate 20 included by non-penetrating district of display panel body is such as a transparency carrier.

When an outside light enters the assembly 2 or 2 as shown in Fig. 3 A or Fig. 3 B by transparency carrier ', after reflecting, through reflecting layer 23 or 24, the uneven surface (the first surface 201) arriving substrate 20, then produce even scattering, make people's eye receive presenting for white.

The formation on first surface 201 with uneven surface of display panel body is such as the pre-treatment that substrate 20 surface carries out mechanical type or chemical, or is coated with one layer of coarse layer on a substrate to form the substrate that has uneven surface.

The multiple manufacture method of power below proposing the decorating film assembly as display panel decoration frame is the use illustrated with the associated components aspect that can implement, the thin bilge construction proposed in embodiment and fabrication steps.

Fig. 4 is the schematic diagram of a kind of substrate coarseization method of the decorating film assembly of the embodiment of the present invention. This method utilizes mechanical force (dry process) that substrate is done pre-treatment, such as sandblasting (blasting) or grinding (grinding) etc., so that substrate forms first surface 301 (first surface with uneven surface using as display panel body) with uneven surface.As shown in Figure 4, by the surface (such as the first surface 301) of transparency carrier 30 with sandblasting, different number number silicon carbide or glass sand can be used to be processed into roughness in various degree. Wherein, the roughness of uneven surface is at least greater than 1 ��m, the roughness (R on substrate 30 surface in an embodiment_a, center line average roughness) and it is between 1 ��m��20 ��m. Afterwards, high-reflectivity metal film such as aluminium film (Al), silverskin (Ag) isoreflectance are more than or equal to the material of 50%, can be formed on uneven surface (such as the first surface 301) the 2nd surface 302 that is upper or this uneven surface relatively of substrate 30, using as reflecting layer.

Fig. 5 is the schematic diagram of another kind of substrate coarseization method of the decorating film assembly of the embodiment of the present invention. This method utilizes chemical mode such as etching (etching) mode that substrate 40 surface is carried out pre-treatment, in substrate 40 surface or substrate 40 if you would be soaked in an acid-base solution 48 by sand cream 47 as etched material with wire mark mode coating chemical, so that substrate 40 surface forms uneven surface (first surface with uneven surface using as display panel body). Such as: concentration, the residence time can be coated with by frosting cream or soak acid & alkali liquid time and adjustment etching reagent composition (proportioning etc.) control degree of roughness. Cleaning base plate 40 afterwards. Wherein, the roughness of uneven surface is at least greater than 1 ��m, the roughness (R on substrate 40 surface in an embodiment_a, center line average roughness) and it is between 1 ��m��20 ��m. High-reflectivity metal film such as aluminium film (Al), silverskin (Ag) isoreflectance are more than or equal to the material of 50%, first surface 401 with uneven surface of substrate 40 can be formed at, or it is formed on the 2nd surface 402 of this uneven surface relatively, using as reflecting layer.

Fig. 6 is the schematic diagram that a kind of formation of the decorating film assembly of the embodiment of the present invention has uneven surface substrate. This method forms the material that has haze (haze) value, as sprayed last layer antiglare film (anti-glarefilm) 52, containing nanoparticle inside AG material, substrate 51 surface mist degree can be made to promote, and form the substrate 50 with uneven surface (i.e. antiglare film 52), to provide first surface with uneven surface of display panel body. In embodiment, antiglare film 52 has a haze value 50%��100%, to provide the roughness (R of uneven surface_pv, complete coarse height) at least it is greater than 1 ��m. High-reflectivity metal film is more than or equal to the material of 50% such as aluminium film (Al), silverskin (Ag) isoreflectance, can be formed at the side of substrate 51, using as reflecting layer.

Fig. 7 A��7C is the schematic diagram of three kinds of vibrational power flow of the decorating film assembly of embodiment of the present invention tool antiglare film.

As shown in Figure 7 A, reflecting layer 64a can be plated in the side of substrate 51, as high-reflectivity metal film as aluminium film (Al), silverskin (Ag) isoreflectance be more than or equal to 50% material, then spray antiglare film 52 on the 64a of reflecting layer. Now reflecting layer 64a is between substrate 51 and antiglare film 52.

As shown in Figure 7 B, also can spraying antiglare film 52 in the side of substrate 51, another side relative in substrate 51 plates reflecting layer 64b. Now reflecting layer 64b and antiglare film 52 lay respectively at the surface of the different side of substrate 51.

As seen in figure 7 c, also can spray antiglare film 52 in the side of substrate 51, then in antiglare film 52, form reflecting layer 64c. Now reflecting layer 64c and antiglare film 52 are the same sides being positioned at substrate 51.

According to the decorating film assembly made by above-mentioned processing procedure, utilize the reflecting layer of the incident high-reflectivity of light to produce light diffusion phenomenon in uneven surface again, near-white decoration property plated film can be obtained, to decorate frame as display panel.If with dry process preparation, the white plated film thickness of embodiment is about about 100nm can reach high shielding (high O.D. value, O.D.value > 4), and the problem such as subsequent film stack inequality and broken string is less. Use white ink or coating compared to tradition, embodiment not only effectively reduces film thickness, more promotes the accessibility of film uniformity and successive process.

The multiple decorating film assembly that above-described embodiment proposes can be applicable on many 3C Products (such as display panel, contact panel) the decoration frame as panel, to cover inner mixed and disorderly electronic component or to can be the frame decoration covering transparency carrier. For display panel, the decorating film assembly of embodiment is such as the non-active area being arranged at display panel so that it is even presenting of light and show near-white decoration frame. Referring to Fig. 2,3A-3B and 7A-7C. Display panel 10 as shown in Figure 2, its display panel body 11 can comprise the substrate 13 of the tool roughness of embodiment as previously (such as the substrate 20 of Fig. 3 A-3B in place of non-penetrating district 114, or the base material 51 of Fig. 7 A-7C and antiglare film 52, to provide first surface with uneven surface), reflecting layer (such as the reflecting layer 23,24 of Fig. 3 A-3B figure, or the reflecting layer 64a-64c of Fig. 7 A-7C). Wherein, a roughness on first surface with uneven surface is at least greater than 1 ��m, and reflecting layer can be positioned on uneven surface or non-uneven surface one of them, and reflecting layer is positioned at place of non-penetrating district 114 accordingly, and its reflectivity is more than or equal to 50%. Display panel can be roughly in white in non-penetrating district 114 whereby.

Moreover, first surface with uneven surface of display panel body 11 is such as directly processed by substrate surface with machinery or chemical mode, or to plate antiglare film on substrate. Referring to Fig. 7 A-7C and Fig. 2. For the decorating film assembly with antiglare film of embodiment, as shown in Figure 7 A-7C, reflecting layer 64a-64c is positioned at the side of substrate 51 and corresponding non-penetrating district 114; And antiglare film 52 is positioned on the 64a of reflecting layer (Fig. 7 A) or be positioned at substrate 51 different in reflecting layer another on the surface (the reflecting layer 64b such as Fig. 7 B) or be positioned between reflecting layer (the reflecting layer 64c such as Fig. 7 C) and substrate 51. Antiglare film 52 is such as corresponding non-penetrating district 114 and is located on the periphery of penetrating region 112. The reflectivity in reflecting layer is more than or equal to 50%, and the roughness of antiglare film is at least greater than 1 ��m; Whereby, display panel 10 is roughly in white in non-penetrating district 114. During practical application, antiglare film 52 is such as the periphery (Fig. 2) of the penetrating region 112 being located on display panel body 11.

Although as shown in the display panel 10 of Fig. 2, the non-penetrating district 114 of display panel body 11 is such as the periphery comprising and being located on penetrating region 112. But during practical application, the application pattern of the present invention is not as limit, but can do select and change depending on the position of application product required decoration frame.

In addition, the display panel of the decorating film assembly of application above-described embodiment, can be applicable to a touch control display system. Fig. 8 is the schematic diagram of a touch control display system. Wherein touch control display system 8 comprises touch panel display 81 and an input unit 83. Wherein, touch panel display 81 comprises above-mentioned display panel, inputs unit 83 and is then coupled to touch panel display 81, in order to provide input signal to this touch panel display 81, makes touch panel display 81 produce show image. Wherein, touch control display system 8 includes an electronic installation with touch panel display 81.Electronic installation is such as: panel computer, projector, e-book, notebook computer, mobile phone, digital camera, personal digital assistant, desktop computer, televisor, vehicle display or carry type DVD player etc.

Some related experiment and result are below proposed, so that the physical properties of the decorating film assembly of embodiment to be described.

<comparison of tradition white light resistance, aluminium plated film and embodiment decorating film assembly>

The embodiment decorating film assembly proposed in this experiment makes substrate surface coarseization with lapping mode, and on uneven surface and plate reflectance coating, structure (uneven surface and the same side of reflectance coating) as shown in Figure 3 B. Table 1 is the Lab color space of the white plated film that presents of decorating film assembly under SCI and SCE measurement pattern-comprise color dimension L of tradition white light resistance, metallic aluminium plated film and embodiment^*(representing brightness), and color opposition dimension degree a^*, b^*��

Table 1

Object color can change along with observation condition, inspection angle and illumination angle difference. Even if object is made up of identical material, but the difference due to surface gloss, color also can be made to seem to change to some extent. The content of specular light and diffused light is fixed according to body surface situation, but when material and color are certain, and the total amount of two kinds of light is always the same. The method of the measurement color getting rid of specular light is referred to as SCE (SpecularComponentExcluded). The method comprising the measurement color of specular light is referred to as SCI (SpecularComponentIncluded). In SCE measurement pattern, diffused light is only surveyed in the specular light face that is left out, and the object color that measured value and observation person look is suitable. When using SCI pattern, in measuring process specular light and diffused light can by together with comprise into, measured value is object overall objective color, and unrelated with body surface condition.

Can find out from the result of table 1: tradition white light resistance is comprising specular light mode (SCI) and do not comprising brightness value (L the measurement pattern of specular light mode (SCE)^*) very close. Metallic aluminium plated film (high-reflectivity material, specular reflection value height) does not comprise the measuring result of specular light mode (SCE) close to 0. And brightness value (the dimension degree L of the white plated film that the decorating film assembly of embodiment presents under SCI and SCE measurement pattern^*) also very close, people's eye can be judged as white material, a of its color dimension^*��b^*Value is also very close to 0, the 0 of white.

<glass surface roughened>

Using a transparent glass as the substrate of embodiment, after carrying out surface roughening process, collocation high-reflectivity metal material is such as aluminium (Al, reflectivity about 50%). Please refer to Fig. 9, have glass baseplate surface carry out roughened and do not carry out roughened, and plate the diagram of high-reflectivity metal aluminium afterwards respectively. Can knowing and find out have the upper high-reflectivity metal materials of aluminum of glass substrate collocation that surface roughening processes in accompanying drawing, visual effect can reach white and present. Experiment also use other kind of metal as used chromium (Cr) or titanium (Ti) metal (reflectivity about 45%) to test, estimating its color is present light gray (may make diffused light luminance shortage because reflectivity is too low, so presenting grey).

The decorating film assembly of table 2 letter row embodiment, the roughness R of its coarseization substrate_pv(complete coarse height, i.e. vertex and lower-most point difference) when 3.41 ��m��8.3 ��m, the average brightness value (L of the white plated film presented under SCI and SCE measurement pattern^*) and color (a^*��b^*) value.

Table 2

<substrate sample of the different AG haze value of tool carries out metal coating>

This experiment makes the AG sample of tool three kinds of different haze values (Haze)-60%, 15% and 1% respectively, namely spraying one layer of antiglare film on transparency carrier makes substrate surface mist degree promote, to form the substrate (first surface with uneven surface using as display panel body 11) with uneven surface, the another side at substrate then plates reflecting layer aluminium (structure please refer to Fig. 7 B). Table 3 is the Lab color space of described plated film sample under SCI and SCE measurement pattern-comprise color dimension L^*(representing brightness) and color opposition dimension degree a^*, b^*, and roughness (Rz). And visual described color sample finds, when sample surfaces roughness is greater than 1 ��m, people's eye is judged as white.

Table 3

The manufacture method of the display panel that above-described embodiment proposes and decoration frame thereof, decorating film assembly wherein only needs thin film layer can reach the effect of even and high depth of defilade (high O.D. value), and processing procedure simple and fast. Moreover, owing to not using traditional white ink or chemical coating, the pollution and harm that environment is caused by the generation of waste material waste liquid can be avoided; Also containing organic materials and because of temperature or acid-basicity sensitivity make whitewash produce yellow cracking phenomenon. Therefore, the manufacture method of the decoration frame that embodiment proposes is applicable to scale operation, good rate height, production efficiency height, and processing procedure low stain, and the successive process mode of application product is also unrestricted; Application product is also very extensive, and touch control display system is wherein a kind of application.

Although the present invention discloses as above with better embodiment; so itself and be not used to limit the present invention, any those skilled in the art, without departing from the spirit and scope of the present invention; when doing a little amendment and perfect, therefore protection scope of the present invention is when with being as the criterion that claim book defines.

Claims (23)

1. a display panel, comprising:

One display panel body, there is a penetrating region and a non-penetrating district, wherein, this display panel body be more provided with in this non-penetrating district have uneven surface one first surface and relatively this first surface arrange and have non-uneven surface one the 2nd surface, the roughness on this first surface is at least more than or equal to 1 ��m;

One reflecting layer, be positioned at this display panel body this first the on the surface or two surface one of them, the reflectivity in this reflecting layer is more than or equal to 50%.

2. display panel as claimed in claim 1, it is characterised in that, the roughness on this first surface is between 1 ��m��20 ��m.

3. display panel as claimed in claim 1, it is characterised in that, this reflecting layer is formed at this and first forms a reflection uneven surface on the surface.

4. display panel as claimed in claim 2, it is characterised in that, this reflecting layer is formed at the 2nd on the surface.

5. display panel as claimed in claim 1, it is characterised in that, this display panel body comprises a substrate, and forms this first surface in a surface of this substrate.

6. display panel as claimed in claim 1, it is characterised in that, this display panel body comprises a substrate and an antiglare film (anti-glarefilm).

7. display panel as claimed in claim 6, it is characterised in that, a surface of this antiglare film forms this first surface.

8. display panel as claimed in claim 6, it is characterised in that, the haze value of this antiglare film is 50��100%, to provide the roughness on this first surface to be at least more than or equal to 1 ��m.

9. display panel as claimed in claim 6, it is characterised in that, this reflecting layer and this antiglare film lay respectively at the surface of the different side of this substrate.

10. display panel as claimed in claim 6, it is characterised in that, this reflecting layer is formed in this antiglare film.

11. display panels as claimed in claim 1, it is characterised in that, this display panel is roughly in white in this non-penetrating district.

12. display panels as claimed in claim 1, it is characterised in that, this non-penetrating district is located on this penetrating region.

The manufacture method of 13. 1 kinds of display panel decoration frames, comprising:

One display panel body is provided, this display panel body has a penetrating region and a non-penetrating district, wherein, this non-penetrating district is located on this penetrating region, and one first surface that this non-penetrating district of this display panel body being provided with has a uneven surface is with relative this is first surperficial and have the 2nd surperficial of non-uneven surface, and the roughness on this first surface is at least more than or equal to 1 ��m; With

Formed a reflecting layer in this first the on the surface or two surface one of them, wherein the reflectivity in this reflecting layer is more than or equal to 50%.

14. manufacture method as claimed in claim 13, it is characterised in that, this first surface of this display panel body carries out a mechanical force pre-treatment to form this uneven surface.

15. manufacture method as claimed in claim 14, it is characterised in that, this mechanical force pre-treatment comprises sandblasting or grinding.

16. manufacture method as claimed in claim 13, it is characterised in that, this display panel body is that this first surface is carried out an etching pre-treatment to form this uneven surface.

17. manufacture method as claimed in claim 13, it is characterized in that, this display panel body is an applied chemical milling material in this first surface, is maybe soaked in an acid-base solution by this display panel body to form this first surface, cleans this display panel body afterwards.

18. manufacture method as claimed in claim 13, it is characterised in that, it is provided that the step of this display panel body with this first surface comprises:

One substrate is provided; With

Forming an antiglare film (anti-glarefilm) in the side of this substrate, this antiglare film has a haze value 50��100% to provide the roughness of this uneven surface as at least 1 ��m.

19. manufacture method as claimed in claim 18, it is characterised in that, it is spray this antiglare film in this substrate side, another side relative in this substrate plates this reflecting layer.

20. manufacture method as claimed in claim 18, it is characterised in that, it is spray this antiglare film in the side of this substrate, in this antiglare film, forms this reflecting layer.

21. 1 kinds of touch control display systems, comprising:

One touch panel display, comprises display panel as claimed in claim 1; And

One input unit, is coupled to this touch panel display, in order to provide input signal to this touch panel display, makes this touch panel display produce show image.

22. touch control display systems as claimed in claim 21, it is characterised in that, this touch control display system comprises the electronic installation that has this touch panel display.

23. touch control display systems as claimed in claim 22, it is characterized in that, this electronic installation comprises: a panel computer, a projector, an e-book, a notebook computer, a mobile phone, a digital camera, a personal digital assistant, a desktop computer, a televisor, a vehicle display or carry type DVD player.