TOUCH DISPLAY APPARATUS AND DISPLAY UNIT FOR VEHICLE INCLUDING SAME

Hereinafter, the present invention specifically account for example embodiment is described, with reference to the accompanying drawing according to invention to aid in the detailed the on-sensors other. However, the present invention according to embodiment examples various other shape can be, limited to the embodiment examples of the present invention range downwardly intervening interpreted should not be disclosed. Examples of the present invention embodiment to the present invention average sugar industry knowledge with entire surface to account for which ball number are disclosed.

In the example embodiment description, of each component (element) "(on) or on (on or under) (below)" when described to be formed in, (on) or on (on or under) (below) is formed by two component (element) is directly together (directly) can be provided for one or more other component (element) is disposed between said two elements (element) (indirectly) comprising both the formation.

In addition "on (on)" or "(below) to (on or under)" represented as a reference when one component (element) can be also includes a rear surface as well as the meaning of the installment.

In addition, hereinafter "number 1" and "number 2," and "upper/on/on" used in "the lower/below/" the relationship such as the terms, such entity or any physical or logical relationship or order between the elements without containing not necessarily be desired or not, discriminate between either entity or another entity or element is reduced by disapproval.

Hereinafter, a touch display device embodiment example (100, 100A) implies, display panel (110) and touch panel (120) comprising, display panel (110) and touch panel (120) is light transmitting adhesive layer (130) can be all by an adhesive layer to the graphics device.

In addition, example embodiment a touch display device (100) is described using a Cartesian coordinate system but, also described using other coordinate the concave disclosed. In a Cartesian coordinate system, shown in each drawing x axis, y axis, z axis orthogonal to one another but, not limited to an example embodiment. X axis, y axis, z axes intersect one another at an innoculation.

Figure 1 shows a example embodiment also a touch display device (100) exhibits cross-section.

The reference also 1, example embodiment a touch display device (100) includes a display panel (Display Panel) (110), touch panel (Touch Panel) (120), light transmitting adhesive layer (130), substrate (140) and function plate (150) can be a.

Display panel (110) of the week number serves [...] is possible. For example, display panel (110) is LCD (Liquid Crystal Display) panel, OLED (Organic Light Emitting Diode) panel, PDP (Plasma Display Panel) panel, CRT (Cathode Ray Tube) EL (Electroluminescence) panel or panels but, embodiment examples display panel (110) of particular forms but not limited.

Hereinafter, 1 also shown in display panel (110) when the LCD panel, display panel (110) example of embodiment (110A) S. a heat as follows.

Figure 2 shows a 1 also also shown in display panel (110) example of embodiment (110A) exhibits cross-section.

The reference 2 also, display panel (110A) a backlight unit (BLU: Back Light Unit) (112) and liquid crystal panel (114) can be comprising.

Lamps (112) has a light source (not shown), light guide plate (not shown) (or, air gap), reflecting sheet (not shown), diffusion sheet (not shown) and prism sheet used therefor (not shown) can be like. The light guiding plate from a light assembly is ore source converter. Reflection seat has a back light unit (112) in a bottom part disposed under the light emitted from the upper reflecting substrate. The circumference of the base diffusion plate. Prism sheet for collecting the light 22a. specific angle. Liquid crystal panel (114) to be moved between own emitting, such as display panel 2 also shown (110A) the lamps (112) can be comprising.

Liquid crystal panel (114) the lamps (112) and a plurality of transparent adhesive layer (130) is arranged between the, lamps (112) are illuminated from for receiving the light from Image implementing could be bonded each other. Liquid crystal panel (114) is adjusted according to the electric field can display images using optical transmittance of liquid crystal cell.

For example, liquid crystal panel (114) is formed on the gate (TFTA: Thin Film Transistor Array) substrate (114 - 1), color filter array (CFA: Color Filter Array) substrate (114 - 2), a liquid crystal layer (114 - 3), lower polarizing portion (114 - 4) and an upper polarizing portion (114 - 5) can be a.

TFTA substrate (114 - 1) the lamps (BLU) (112) a lower, CFA substrate (114 - 2) is TFTA substrate (114 - 1) disposed thereon on. CFA substrate (114 - 2) and TFTA substrate (114 - 1) is can be disposed oppositely to each other. A liquid crystal layer (114 - 3) is TFTA substrate (114 - 1) and CFA substrate (114 - 2) loaded into the between.

Lower polarizing portion (114 - 4) comprises a bag light unit (BLU) (112) and TFTA substrate (114 - 1) disposed thereon between. Lower polarizing portion (114 - 4) comprises a bag light unit (BLU) (112) from the liquid crystal layer (114 - 3) incident light polarising could be bonded each other. Upper polarizing portion (114 - 5) is CFA substrate (114 - 2) and a plurality of transparent junction layer (130) is arranged between the, liquid crystal layer (114 - 3) polarising light transmitted outward from could be bonded each other.

Lower polarizing portion (114 - 4) and an upper polarizing portion (114 - 5) can now each (114 - 4, 114 - 5) into a light source is incident on the polarizer 2 orthogonal with, the same polarization axis direction and the other direction of light can be absorbing or dispersing by exposing the optical, vibration only in a particular direction are made light serves a plurality of hierarchies.

For example, lower polarizing and upper polarizing portion (114 - 4, 114 - 5) each is made may be Triacetylcellulose (TAC) but, not limited to an example embodiment.

Liquid crystal panel with the aforementioned structure (114) is TFTA substrate (114 - 1) via which color filters corresponding to the pixel (114 - 3) or the electric field applied, liquid crystal layer (114 - 3) according to the electric field suffering from lamps (BLU) (112) from transmission of the incident light by controlling an amount, can be passed. The liquid crystal panel (114) is TN (Twisted Nematic) mode or a liquid driven but, embodiment examples liquid crystal panel (114) in the form of but not limited.

On the other hand, 1 the reference also again, touch panel (120) contains the display panel (110) is disposed over the touch display device (100) touch the swashplate.

Citation two computer, personalized information processing device or other portable communication device such as a keyboard, mouse, digitizer (Digitizer) (Input Device) user interface with a variety of input device using configuration generally of the pipe. However, while an enlarged development of a mobile communication device, such as keyboard and mouse input device include number article surfaces is difficult to be used to cancel or height, portable input device simpler and can be lowered for reducing measures etc. need increased. Foot [mac weight to such request, the input data by a user's hand or pen or the like screen directly touch panel number was not.

This touch panel (120) sensing touch portion according, direct current voltage is applied in contact with the upper metal electrode and an electrode inserted state position voltage gradient decided and the resistor film (Resistive type) according to resistance, etc. dislocation implemented on dielectric layer formed according to contact position for capacitive sensing voltage change (Capacitive type), electronic pen contact conductive layer are derived according to the LC value is read sensing electronic induction typed (Electro Magnetic type) is inputted to a contact position but, embodiment examples touch panel (120) is not limited to a particular sensing scheme.

Also shown in Figure 3 shows a touch panel also 1 (120) example of embodiment (120A) section exhibits.

The reference also 3, touch panel (120A) the electrode pattern (122), diffraction oxide layer (124), insulating layer (126) and pattern cover layer (128) can be comprising.

Electrode pattern (122) is number 1 electrode pattern (122 - 1) and number 2 electrode pattern (122 - 2) can be comprising. Number 1 electrode pattern (122 - 1) is transversely spaced apart x axis can be electrode, electrode pattern number 2 (122 - 2) can be longitudinally spaced apart y axis electrode. The, number 1 electrode pattern (122 - 1) and number 2 electrode pattern (122 - 2) are formed such that they obtained from the, number 1 electrode pattern (122 - 1) and number 2 electrode pattern (122 - 2) alternating segments of in capacitance generated. The, touch panel (120A) by contact with a capacitance is varied by external to rotate, touch portion senses disclosed.

Number 1 and number 2 electrode pattern (122 - 1, 122 - 2) each having a light-transmitting material having electrical conductivity while can be implemented. For example, number 1 and number 2 electrode pattern (122 - 1, 122 - 2) achieved using the ITO (Indium Tin Oxide) but, example embodiment number 1 and number 2 electrode pattern (122 - 1, 122 - 2) is not limited to a particular material.

Number 1 and number 2 electrode pattern (122 - 1, 122 - 2) transmitting the adhesive layer (130) and the substrate (140) are arranged between the, electrically insulated from each other can be disclosed. The reference also 1 and also 3, number 1 and number 2 electrode pattern (122 - 1, 122 - 2) substrate (140) supported by but that illustrated, an example embodiment is not limited.

Or, alternatively 3 also shown, according to one other embodiment, number 1 and number 2 electrode pattern (122 - 1, 122 - 2) substrate (140) supported by a transparent base material (not shown) supported by separate instead of disapproval. For example, a gap of the glass central number 1 and number 2 electrode pattern (122 - 1, 122 - 2) may be are respectively arranged, transparent base on the same face of number 1 and number 2 of electrode pattern (122 - 1, 122 - 2) is arranged apart from each other may be disclosed. Or, number 1 electrode pattern (122 - 1) contains a support number 2 electrode pattern (122 - 2) may be provided with a support transparent base material separately disapproval.

The transparent substrate is transparent PI film, PEN (Polyethylene Naphthalate) film, PET film (Polyethylene Terephthalate) film, comprising at least one PC (Polycarbonate) film or PSS (Poly styrene Sulfonate) film may be, in addition to such as may be made of engineering plastic transparent film, synthetic resin material film enhancement coating using control device of disapproval.

Diffraction oxide layer (124) the number 1 and number 2 electrode pattern (122 - 1, 122 - 2) number 1 and number 2 electrode pattern is spaced apart space (122 - 1, 122 - 2) can be disposed beneath the. Diffraction oxide layer (124) the number 1 and number 2 electrode pattern (122 - 1, 122 - 2) is disposed in a space spaced each other by, these (122 - 1, 122 - 2) can be electrically spaced apart from each other (or, insulating). In addition, diffraction oxide layer (124) and to perform a function to lower the reflectance may be filled.

For example, diffraction oxide layer (124) is Al₂ O₃ , TiO₂ Or ZrO₂ It can be at least one, embodiment examples diffraction oxide layer (124) is not limited to a particular material.

If necessary, diffraction oxide layer (124) may be dispensed with, in this case, diffraction oxide layer (124) instead of insulative material is number 1 and number 2 electrode pattern (122 - 1, 122 - 2) mounted spaced each other these (122 - 1, 122 - 2) are made electrically isolating the disapproval.

In addition, insulating layer (126) the number 1 and number 2 electrode pattern (122:122 - 1, 122 - 2) and the substrate (140) can be disposed between. For example, insulating layer (126) insulating material e.g., SiO₂ But include, for example embodiment insulating layer (126) is not limited to a particular material. If necessary, insulating layer (126) opposite to the first may be filled.

Pattern cover layer (128) insulating layer (126) and the substrate (140) which is arranged between the, number 1 and number 2 electrode pattern (122 - 1, 122 - 2) from being exposed to the outside can be plays a role in hiding. Thus, pattern cover layer (128) optical permeability number 1 and number 2 electrode pattern (122 - 1, 122 - 2) by any material capable of only to prevent if implemented as can be. For example, pattern cover layer (128) is Nb₂ O₅ But include, for example embodiment pattern cover layer (128) is not limited to a particular material.

Number 1 and number 2 electrode pattern (122 - 1, 122 - 2) fine width e.g., 15 may be micro m hereinafter but, touch display device (100) is visible outside the disapproval. The, cover layer pattern (128) when placed in the, number 1 and number 2 electrode pattern (122 - 1, 122 - 2) without always can be hidden. In some cases, cover layer pattern (128) can be dispensed with.

On the other hand, 1 the reference also again, substrate (140) touch panel (120) a lower, display panel (110) can be generated in performing covers protect the screen. I.e., substrate (140) includes an outer collision of a touch panel (120) of the function be from being damaged. In addition, as aforementioned, substrate (140) the number 1 and number 2 electrode pattern (122 - 1, 122 - 2) can be supporting and to perform a function.

Substrate (140) glass, plastic or film can be embodied in the form of at least one.

For example, substrate (140) reinforced glass, enhancement coating film, comprising at least one flexible panel LCD glass or plastic substrate it can be, for example embodiment substrate (140) attempts to automatically but not limited.

For example, heated to a temperature near the softening point of the glass panes and, the quench cooling air compressed inside the threaded end modified glass surface portion compressive strain as substrate glass prepared by the number (140) can be implementing. The tempered glass is usually glass higher bending strength, impact resistance and and heat resistance.

In addition, hardness increase enhancement coating film surface of a base material layer on a substrate film enhancement coating prepared by the number (140) disapproval implement.

On the other hand, 1 also shown in light transmitting adhesive layer (130) contains the display panel (110) and touch panel (120) is arranged between the, display panel (110) and touch panel (120) bonding each other could be bonded each other.

According to one embodiment, light transmitting adhesive layer (130:130 - 1 to 130 a-k) may have different indices of refraction. Wherein, k 2 or more is a constant.

Light transmitting adhesive layer (130 - 1 to 130 a-k) 1 each. 3 To 1. 7 But there is between the refractive index, light transmitting adhesive layer embodiment examples (130 - 1 to 130 a-k) is not limited to a particular refractive index.

In addition, light transmitting adhesive layer (130) (T) is less than a total thickness of 300 micro m when display panel (110) and touch panel (120) that can be difficult to light transmitting adhesive layer by the adhesive layer (130 - 1 to 130 a-k) implementing difficult to express in stacked form may be filled. In addition, light transmitting adhesive layer (130) (T) is greater than a total thickness of 400 micro m order a plurality of transparent adhesive layer (130) may be the air is present it is thick, display panel (110) that is discharged from the provides a signal for outputting the light transmitting adhesive layer (130) absorbed in the disapproval. The, light transmitting adhesive layer (130) is 300 to 400 m (T) a total thickness of between 350 micro m but may be preferably micro micro m, an example embodiment light transmitting adhesive layer (130) is not limited to a particular total thickness (T).

In addition, light transmitting adhesive layer (130 - 1 to 130 a-k) and the number of transparent adhesive layer (130 - 1 to 130 a-k) regardless of the thickness of the light transmitting adhesive layer (130) is 300 m to 400 m may have a total thickness (T) between the micro micro.

In addition, light transmitting adhesive layer (130) may have the size of 330 mm x 140 mm but, example embodiment light transmitting adhesive layer (130) having a particular but not limited. Wherein, light transmitting adhesive layer (130) thickness of cancer, axial direction thickness z components, light transmitting adhesive layer (130) of cancer, size of x y axis can be planar axis means.

In addition, light transmitting adhesive layer (130:130 - 1 to 130 a-k) each adhesive (or, adhesive) properties of a material having a metal thin film layer can be implemented. For example, each light transmitting adhesive layer (130 - 1 to 130 a-k) silicone-based or acrylic-based material can be implemented, be 1 part or misfortune style one 2.

In addition, light transmitting adhesive layer (130:130 - 1 to 130 a-k) in the double-sided adhesive number each optically transparent resin (OCR: Optically Clear Resin)), optically transparent adhesive number (OCA: Optically Clear Adhesive) or liquid comprising at least one optically transparent adhesive number (LOCA: Liquid Optically Clear Adhesive) can.

In particular, light transmitting adhesive layer (130) to OCR, implemented OCA or LOCA when display panel (110) and touch panel (120) between the air gap can be reduced or not to be, can be liquid. In particular, according to one embodiment, OCR, OCA and LOCA 2 using at least two, different light transmitting adhesive layer having a refractive index in a multilayer structure (130) interface surface, inert and black improve the feeling may have a high visibility. Wherein, the means by which black feeling, touch display device (100) supplies power to voltages or does not exist at the degree can be black appears to change means.

Each light transmitting adhesive layer (130 - 1 to 130 a-k) with respect to the number of residual bath process as follows. However, an example embodiment each light transmitting adhesive layer (130 - 1 to 130 a-k) bath process is not limited to a particular number.

Transparent adhesive layer (130 - 1) display a formation (110) can be applied. Or, a transparent adhesive layer (130 a-k) formation touch panel (120) can be applied. The, as applying method, dispensing (dispensing), screen (screen) printing, or slit die (slit die) method can be performed using.

Then, applied cured material such as returning chemical formula 1. Curing or UV curing method method include thermal curing method may be, for example, curing lamp when data include pressure mercury lamp, metal lamp, gallium lamp, arc lamp, number non lamp, UV-a LED device such implementation being. The, lamp bar (bar) may be filled in the form. For example, included in a structure of a light curing resin material on the basis of UV curable adhesive layer (130 - 1 or 130 a-k) light can be formed when the adhesive layer (130 - 1 or 130 a-k) is 1. 3 To 1. 7 May have an index of refraction of between,

UV light curing method by adhesive layer (130 - 1 or 130 a-k) when forming, heating excellent life can be hydroxyl radicals.

The foregoing method such as other transparent adhesive layer (130 - 2 to 130 a-k) (or, 130 - 1 to 130 a-k-a 1) can be formed.

Or, not fully cured light transmitting adhesive layer (130 - 1 to 130 a-k) number like protect high pressure liquid coolant in vacuum after protective film, protective film peeling then display panel (110) (or, touch panel (120) can be applied. Then, display panel (110) which is applied to (or, touch panel (120)) light transmitting adhesive layer (130) after curing, touch panel (120) a valve (or, display panel (110)) light transmitting adhesive layer (130) is coated display panel (110) to be facing (or, touch panel (120)) within the vacuum chamber. The, light transmitting adhesive layer (130) eliminated bubble or voids can take various measures.

On the other hand, light transmitting adhesive layer (130 - 1 to 130 a-k) each refractive index, thickness, or light transmitting adhesive layer along at least one of factors number (k) light transmitting adhesive layer (130) in such a manner as to reflective s402. The encoded for the carry.

Also shown in Figure 4 shows a light transmitting adhesive layer also 1 (130) example of embodiment (130A) exhibits cross-section.

Also shown in light transmitting adhesive layer 4 (130A) number 1 and number 2 the transparent adhesive layer (132, 134) can be comprising.

A translucent adhesive layer number 1 (132) contains the display panel (110) to be placed over and, with a translucent adhesive layer number 2 (134) number 1 the transparent adhesive layer (132) to be placed over a be. A translucent adhesive layer number 1 (132) refractive index of transparent adhesive layer number 1 and number 2 (n1) (134) (n2) can be of different refractive index number 2.

One embodiment according to one, with a translucent adhesive layer number 1 (132) is 1. 51 (N1) having refractive index of number 1, number 1 of 100 micro m may have a thickness (T1). In this case, transparent adhesive layer number 2 (134) is 1. 41 Having refractive index (n2) of number 2, number 2 of 250 micro m may have a thickness (T2).

According to one other embodiment, a translucent adhesive layer number 1 (132) is 1. 57 Having refractive index (n1) of number 1, number 1 (T1) may have a thickness of 300 micro m. In this case, transparent adhesive layer number 2 (134) is 1. 47 Having refractive index (n1) of number 2, number 2 (T2) may have a thickness of 100 micro m.

Also shown in Figure 5 shows a light transmitting adhesive layer also 1 (130) other embodiment example (130B) exhibits cross-section.

The reference also 5, light transmitting adhesive layer (130B) is number 1, number 2 and number 3 transparent adhesive layer (132, 134, 136) can be comprising. Also shown in light transmitting adhesive layer 4 (130A:130 - 1 to 130 a-k) while two (i.e., k=2) in the number of 2, 5 also shown in light transmitting adhesive layer (130 - 1 to 130 a-k) 3 (i.e., k=3) the number of two are disclosed. I.e., 5 also shown in light transmitting adhesive layer (130B) 4 is also shown in light transmitting adhesive layer (130A) number 3 unlike transparent adhesive layer (136) results are.

In Figure 5, with a translucent adhesive layer number 3 (136) contains the display panel (110) and a translucent adhesive layer number 1 (132) disposed thereon between. A translucent adhesive layer number 1 (132) number 3 is transparent adhesive layer (136) and a translucent adhesive layer number 2 (134) disposed between, transparent adhesive layer number 2 (134) number 1 the transparent adhesive layer (132) and touch panel (120) can be disposed between.

For example, number 1 transparent adhesive layer (132) is 1. 51 (N1) having refractive index of number 1, number 2 transparent adhesive layer (134) is 1. 41 Having refractive index (n2) of number 2, number 3 transparent adhesive layer (136) is 1. 41 May have a refractive index of number 3 (n3). In this case, transparent adhesive layer number 1 to number 3 (132, 134, 136) thickness of the reflectivity s402. For example, transparent adhesive layer number 1 to number 3 (132, 134, 136) of number 1 to number 3 in the corresponding to the number 1 to number 3 (n1, n2, n3) refractive index transparent adhesive layer (132, 134, 136) of thickness (T1 to T3) can be various number 1 to number 3 is as follows.

One embodiment according to one, with a translucent adhesive layer number 1 (132) and thickness (T1) of 100 micro m is number 1, number 2 transparent adhesive layer (134) and thickness (T2) is number 2 of 50 micro m, transparent adhesive layer number 3 (136) of thickness (T3) is 200 micro m number 3 implementation being.

According to one other embodiment, a translucent adhesive layer number 1 (132) and thickness (T1) of 50 micro m is number 1, number 2 transparent adhesive layer (134) and thickness (T2) is number 2 of 50 micro m, transparent adhesive layer number 3 (136) of thickness (T3) is 300 micro m number 3 implementation being.

Also as shown in 4 and 5 also transmitting adhesive layer (130) encoded for the refractive index and thickness of reflectivity according to carry.

Also shown in Figure 6 shows a light transmitting adhesive layer also 1 (130) example another aspect of embodiment (130C) section exhibits.

6 Also reference surface, light transmitting adhesive layer (130C) is repeatedly stacked pair structure (138 - 1 to 138 provided M) may have a. Wherein, the amount of M 2 or more integer.

Pair structure (138 - 1 to 138 provided M) each bottom layer (138B-a 1 to 138B provided M) and tower layer (138T-a 1 to 138T provided M) can be comprising. I.e., number 1 pair structure (138 - 1) includes a bottom layer (138B-a 1) and tower layer (138T provided 1) and, number M pair structure (138 provided M) includes a bottom layer (138B provided M) and tower layer (138T provided M) can be comprising.

On the other hand, 1 the reference also again, function plate (150) substrate (140) disposed thereon, can be perform various functions.

For example, function plate (150) (AG: Anti-a Glare) has anti-glare layer, anti-reflective (AR: Anti-a Reflection) layer or fingers (AF: Anti-a Finger) comprising at least one layer can prevent.

(AG) layer is glare preventing glare (glare) and plays a role in preventing, anti-reflective (AR) layer plays a role in preventing and, preventing fingers such as fingers or stylus touch display device (AF) layer is (100) by touch on the elements touch display device (100) can be prevented from becoming contaminated plays a role.

Touch display device (100) function plate (150) when the functions necessarily does not contain a plate (150) may be omitted is disapproval.

Figure 7 shows a 1 also also shown in function plate (150) example of embodiment (150A) exhibits cross-section.

7 Also shown in substrate (140A) 1 also is shown in substrate (140) has the same example embodiment of play a role corresponding to a plurality of hierarchies.

The reference also 7, function plate (150A) is glare preventing layer (152), reflection preventing layer of (154) and finger preventing layer (156) can be a.

Inserted into the protective layer (152) substrate (140A) and a reflection preventing layer (154) can be disposed between. For example, inserted into the protective layer (152) substrate (140A) and a reflection preventing layer (154) implemented by separate layer disposed between but, not limited to an example embodiment. According to one other embodiment, as shown in fig. 7, inserted into the protective layer (152) substrate (140A) implemented by ridges on top of it is preferable that the disapproval.

As a reflection preventive layer (154) is glare preventing layer (152) to be placed over a be. As a reflection preventive layer (154) from the exterior touch display device (100) with a plurality of reflected light as much as possible the touch display device number billion (100) can be pixel height. As a reflection preventive layer (154) to prevent force exerted by reflecting light which has not been includes an antireflection layer (154) disposed below reflected back by members can be prevented.

7 Also reference surface, reflection preventing layer of (154) includes a plurality of pair structure (154 - 1 to 154 a-N) may have structure which is repeated. Wherein, the amount of N 2 or more integer. Each pair structure (154 - 1 to 154 a-N) includes a bottom layer (154B-a 1 to 154B provided N) and tower layer (154T-a 1 to 154T provided N) can be comprising. I.e., number 1 pair structure (154 - 1) includes a bottom layer (154B provided 1) and tower layer (154T provided 1) and, number N pair structure (154 a-N) includes a bottom layer (154B provided N) and tower layer (154T provided N) can be comprising.

For example, each pair structure (154 - 1 to 154 a-N) in bottom layer (154B-a 1 to 154B provided N) is tower layer (154T-a 1 to 154T provided N) index of refraction layer and relatively contrast, tower layer (154T-a 1 to 154T provided N) the bottom layer (154B-a 1 to 154B provided N) but it will be that refractive index layer relatively contrast, an example embodiment is not limited. To this end, bottom layer (154B-a 1 to 154B provided N) 2.40 as the ATO (antimony thus tin oxide film), ZrO₂ , TiO₂ At least one of ZnS or can, tower layer (154T-a 1 to 154T provided N) SiO as the high refractive index₂ Including but, not limited to an example embodiment.

7 Also shown in function plate (150A) is inserted into the protective layer (152), reflection preventing layer of (154) and finger preventing layer (156) is illustrated both including but, not limited to an example embodiment.

I.e., also by other embodiment example 1 shown in function plate (150) is inserted into the protective layer (152), reflection preventing layer of (154) or fingers preventing layer (156) may be only, inserted into the protective layer (152) and a reflection preventing layer (154) may be only, reflection preventing layer of (154) and finger preventing layer (156) may be only, inserted into the protective layer (152) and finger preventing layer (156) disapproval only.

In addition, the aforementioned light transmitting adhesive layer (130) contains the display panel (110) of a specific structure, touch panel (120) of a specific structure, substrate (140) or the absence or presence of a particular type and function plate (150) or the absence or presence of particular forms but not limited. I.e., also 2, 3 also, Figure 7 light transmitting adhesive layer (130) to aid in the understanding of one alternative only disclosed. The, display panel (110) and touch panel (120) any than in and a substrate (140) or function plate (150) regardless of the presence or absence of at least one light transmitting adhesive layer (130) may have characteristics if attention is, example embodiment a touch display device (100) is can be applied.

Hereinafter, a touch display device embodiment and example customer compared with reference to the attached drawing as follows reflection characteristics of heat substrate.

Also shown in Figure 8 shows a touch display device also 1 (100) example of embodiment (100A) section exhibits.

8 Also shown in display panel (110A), upper polarizing portion (114 a-5A), touch panel (120B), light transmitting adhesive layer (130), substrate (140A) and function plate (150A) also 1 and 2 is also shown in display panel (110), upper polarizing portion (114 - 5), touch panel (120), light transmitting adhesive layer (130), substrate (140) and function plate (150) in each embodiment corresponding to the substrate.

8 Also shown in each section of a user opens a refractive index structure material as follows.

Display panel (110A) of polarizing portion (114 a-5A) is 1. 5 Has a refractive index, light transmitting adhesive layer (130) each embodied as OCR, transparent adhesive layer (136) having a refractive index of 1. 48 And the other one (132) having a refractive index of 1. 41 And at least one other is (134) having a refractive index of 1. Wednesday 48 be.

In addition, diffraction oxide layer (124) Al implementing₂ O₃ A refractive index of 1. 57 And, number 1 and number 2 electrode pattern (122:122 - 1, 122 - 2) having a refractive index of 1 implementing ITO. 96 And, insulating layer (126) SiO implementing₂ A refractive index of 1. 47 And, pattern cover layer (128) Nb for implementing₂ O₅ A refractive index of 2. Wednesday 25 nanometer range.

In addition, substrate (140A) when the glass (glss) implemented, reflection preventing layer of (154) of number 1 and number 2 pair structure (154 - 1 and 154 - 2) each bottom layer (154B provided 1, 154B provided 2) TiO implementing₂ A refractive index of 2. 18 And, tower layer (154T provided 1, 154T provided 2) SiO implementing₂ A refractive index of 1. Wednesday 45 nanometer range.

As shown in 8 also implemented touch display device (100A) substrate (140A) number 1 on the reflectance (R1) 0. 6% May be, light transmitting adhesive layer (130) number 2 on reflectance (R2) is 0. 4% And, upper polarizing portion (114 a-5A) number 3 on the reflectance (R3) 1. Implementation being 1%.

On the other hand, alternative embodiment is shown in example 8 a touch display device also compares a touch display device (100A) attached to the adhesive layer (130) the plurality of number 1 to number 3 transparent adhesive layer (130 - 1 to 130 - 3) without 1 implemented. 41 Having a refractive index of the adhesive layer when implemented as single light are disclosed. The number 1 and number 2 (R1, R2) in the case of reflectance [...] touch display device embodiment example this comparison is a touch display device (100A) but the same, number 3 reflectance (R3) is 1. 0 As 3%. 2% Greater can be know. Thus, according to one embodiment, the light-transmitting adhesive layer (130) not a single layer having a refractive index different light transmitting adhesive layer (130 - 1 to 130 - 3) out, number 3 reflectance (R3) is 0. 2% Reduced can be know.

I.e., number 1 to number 3 (R1, R2, R3) the sum of the maximum total reflectivity of reflectance (RT) touch display device 2 is compared to the alternative embodiments. 3% Whereas that, example embodiment a touch display device (100A) is 2. 1% Compared as relatively small customer than can be know.

Number 1 number 2 layer cost slope is generally through the layer or layers, such as the reflectivity reflective layer then number 2 expressions can be representation 1.

Wherein, N1 represents the refractive index of the layer number 1, number 2 represents the refractive index of layer is N2, N1 and N2 the Δ N the difference by a goniophotometer.

The aforementioned reference angles 1, number 1 number 2 (Δ N) layer between layer (R) reduce reflectivity if know refractive index difference can be reduced.

By taking into account the aforementioned angles 1, a touch display device consisting of a single light compared alternative adhesive layer (130) (corresponding to layer number 1 of expressions 1) display panel and the light-receiving (110, 110A) (corresponding to layer number 2 of expressions 1) when moving, transparent adhesive layer (130) refractive index (N1 of expressions corresponding to 1) and the display panel (110, 110A) refractive index (N2 of expressions corresponding to 1) reduce the difference between the (Δ N) part is disclosed.

While, in the case of example embodiment a touch display device having a refractive index different light transmitting adhesive layer (130) and the display panel (110, 110A) a refractive index difference between (Δ N) by adjusting the refractive index of the light transmitting adhesive layer having different refractive indexes different customer than comparison can be reduce.

E.g., light transmitting adhesive layer (130 - 1 to 130 a-k) (wherein, 1 ≤ i ≤ k-a 1) in number i light refractive index and the display panel number i adhesive layer (110) of refractive index difference between the refractive index of the adhesive layer display panel light of number 1 number i (110) located further away from light refractive index number j of number j (where, 2 ≤ j ≤ k) adhesive layer and the display panel (110) of refractive index difference between the refractive index thereof can than of number 2.

As aforementioned, enhance light transmitting adhesive layer comprising the example embodiment having different refractive indexes since, customer compared than display panel (110, 110A) reflective (R3) in reflectivity can be further reduce.

As a result, a touch display device embodiment example (100, 100A) the display panel (110) and touch panel (120) comprises a transparent adhesive layer by the adhesive layer (130) rather than a single layer a plurality of layers having different refractive indexes different printed out, reflectance brightness index reducing substrate. The reflectance brightness index is reduced, for example embodiment a touch display device (100, 100A) is a touch display device contrast comparison alternative embodiments may have improved brightness and black feeling high visibility can be [...] number.

In addition, the aforementioned embodiment example a touch display device (100, 100A) includes a mobile phone, portable computer, portable game machine, handy terminal, PDA, portable audio player, an electronic display number notebook or navigation such as high field can be applied to article number [...] visibility.

Hereinafter, the aforementioned touch display device (100, 100A) process by using for example a display unit including embodiment as follows with reference to the attached drawing herein disclosed.

Figure 9 shows a also touch display device (100, 100A) process by using for example the appearance of a display unit of a representing illustratively including embodiment are disclosed.

The reference also 9, for example by the aforementioned embodiment example embodiment process by using the display unit a touch display device (100, 100A) can be a. For example, example embodiment process by using the display unit, head unit attached to the vehicle central interface display (CID: Center Interface Display) (200), inter [...] Infotainment (RSE: Rear Sheet Entertainment) display (300) or cluster (or, dashboard driver) (400) can be at least one. Wherein, CID (200), RSE display (300) and cluster (400) in the aforementioned embodiment each touch display device (100, 100A) can be a.

Figure 10 shows a example embodiment also process by using display unit (1000) exhibits the schematic diagram of the white balance.

10 Also shown in display unit for vehicle (1000) is CID (200), for reproducing device (500) and cable (600) can be comprising.

CID (200) is also shown in 9 CID (200) corresponding to, cable (300) condensed by using a device (500) can be electrically connected.

CID (200) includes a touch display device (100) and an operation button (210) can be comprising. Vehicle reproducing device (500) includes a DVD player as the video and audio reproducing device capable, an operation button (510) and recording medium port (520) can be a.

CID (200) the vehicle passenger condensed device (500) number is a number for a signal cable (600) device for vehicle through the condensed (500) from a specific, reproducing device for vehicle (500) by playing video and audio recording medium comprises a cable (600) CID through (200) can be sent. CID (200) as well as the condensed vehicle operation information to user number [...] device (500) for reproducing video and audio signal transmitted from a plurality of hierarchies monitor function.

CID (200) includes a touch display device (100) which, operating button (210) further comprise selectively may be filled. I.e., touch display device (100) or manipulated button (210) by operating at least one CID (200) to a user number 429 number for the structure reproducing device (500) for the user number 429 1308. ball number is a number.

Also shown in Figure 11 shows a CID also 10 (200) example of embodiment (200A) exhibits by block.

Also shown in example 11 embodiment by CID (200A) includes a touch display device (100), store (220), number control unit (230), interface (240), an audio output unit (250), speaker (260), GPS unit (270) and key input section (280) can be a.

The reference also 11, CID (200A) number of the user command touch display device (100) or manipulated button (210) connected to a key input section (280) thereof can receives a. Store (220) includes a navigation function is implemented map so it could be data and graphics data storing, reproducing device for vehicle (500) can be storing the number [...] a code number. For example, store (220) includes a flash memory, or hard disk can be a form of at least one SDRAM, an example embodiment is not limited.

Reproducing device for vehicle (500) the number [...] stores a number code, a plurality of number inquiry inventions for vehicle prepared by the number reproducing device (500) to identify each code number means a number [...] inquiry yarn can be. For example, for use in various Company code number is storing both if it, a user is condensed device (500) the number of start command [...], number control unit (230) includes a storage section (220) for use in a code number stored in various companies to the interface (240) the condensed vehicles through device (500) all components. The, any Company for vehicle prepared by the number reproducing device (500) for use in a code number whether other Company does not operation, operating only when its Company number for use in accord can be input.

In addition, GPS unit (270) extract information from the latitudes and longitudes, hardness, can be receiving positioning information such as highly. An audio output unit (250) includes a voice signal is reproduced voice signal and processing the speaker (260) components in the. Speaker (260) has a CID (200A) be a joined with the external speaker.

In addition, touch display device (100) display panel (110) navigation function is implemented map so it could be information and location information hereinafter condensed normal traveling vehicle device (500) can be input from the video signal is reproduced.

In addition, interface (240) the vehicle passenger condensed device (500) are connected to a reproducing device for vehicle (500) is a vehicle for the transmission of a code number to number the condensed device (500) can be transmitted from receiving video and audio.

In addition, number control unit (230) is navigation functions is performed to touch display device (100) all portions including the number so that the reproducing device for vehicle (500) for reproducing video and audio signal received from the other.

Figure 11 embodiment also to aid in the understanding of one alternative example 9 to display unit for vehicle with which only, not limited to an example embodiment.

Example embodiment a touch display device (100, 100A) including a display unit for vehicle visibility can be [...] number high field.

For example embodiment described above the present invention is but only about defining but is only an example, if the embodiment of the present invention example essentially flawless inputted from deviating from a person with skill in the art characteristics not illustrated or more deflection of the various applications may be know are disclosed. For example, each component can be incorporated within the example embodiment generally deformed embodiment are disclosed. Such distortion and applications and related appended in the claims of the present invention defining the differences range will be interpreted.