KR20030049646A - Electro-optics display device integrated touch paenl and bingding method thereof - Google Patents

Abstract

PURPOSE: An electro-optical display device and a touch panel attachment method are provided to attach a touch panel on a display panel by applying a tension to the touch panel with an elastic wire without using adhesives so that it can repair the touch panel or the display panel individually. CONSTITUTION: The device comprises a display panel, a touch panel(30), a fixing member(42), and a buffer(40). The display panel displays image signals or other signals, and includes an upper glass plate(36b), a liquid crystal layer(38) and a lower glass plate(36a). The touch panel(40), attached over the upper glass plate(36b), senses a position pushed by a stylus pen or a finger. The fixing member(42) is formed at either end of the two panels for fixing the two panels. The buffer(40), formed between the touch panel(30) and the fixing member(42), protects the electrodes installed in the touch panel(30).

Description

ELECTRO-OPTICS DISPLAY DEVICE INTEGRATED TOUCH PAENL AND BINGDING METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch panel, and more particularly, to a touch panel integrated with an electro-optical display device for attaching a touch panel mounted on an electro-optic display device to a display panel of the electro-optical display device using tension of the touch panel. It is about a method.

Electro-optic displays include liquid crystal displays ("LCD"), field emission displays ("FED"), plasma display panels ("PDP") And electroluminescent devices (hereinafter referred to as "ELD"). Herein, the touch panel integrated with the liquid crystal panel in the liquid crystal display will mainly be described.

A typical liquid crystal panel displays an image by controlling light transmittance of a liquid crystal cell or the like injected between two glass substrates. Each of the liquid crystal cells adjusts the amount of light transmitted in response to the video signal, that is, the corresponding pixel signal. Such liquid crystal panels may also include a touch panel used as an input device. The touch panel generates a voltage or current signal corresponding to the position at which the stylus pen or finger is pressed to input a user-specified command or graphic information.

1 illustrates a liquid crystal panel on which a resistive touch panel is mounted.

Referring to FIG. 1, the liquid crystal panel 1 is positioned between the upper polarizing sheet 4a and the lower polarizing sheet 4b, and the touch panel 2 is disposed on the upper polarizing sheet 4a and the lower polarizing sheet 4b. Will be placed. The liquid crystal panel 1 has a liquid crystal material 14 and a ball spacer 5 injected between the lower glass substrate 3a and the upper glass substrate 3b. The gate line 6, the insulating film 8, the pixel electrode 10a, and the first alignment layer 12a are sequentially formed on the lower glass substrate 3a. The upper glass substrate 3b has a black matrix 16, a color filter 18, a common electrode 10b, and a second alignment layer 12b sequentially formed on its lower surface. The ball spacer 5 is sprayed onto the first alignment layer 12a before the upper and lower glass substrates 20a and 20b of the above structure are bonded. The upper and lower glass substrates 3a and 3b are spaced apart from each other by the ball spacer 5 so as to be maintained at regular intervals. In other words, the ball spacer 5 allows the liquid crystal material 14 to have a uniform thickness by keeping the gap between the upper and lower glass substrates 3a and 3b uniform. The touch panel 2 has a spacer 35 spread between the lower glass substrate 20 and the upper glass substrate 24 made of polyethylene terephthalate (hereinafter referred to as "PET") film. The first electrode layer 26a is formed on the surface of the lower glass substrate 20, and the second electrode layer 26b is formed on the bottom surface of the upper glass substrate 24. The second electrode layer 26b is shorted with the first electrode layer 26a when the upper glass substrate 24 is pressed by a stylus pen or finger so that a signal having a current amount or voltage level that varies depending on the pressed position is generated. In this case, the first and second electrode layers 26a and 26b include indium tin oxide (hereinafter referred to as "ITO") and indium zinc oxide (Indium-Zinc-Oxide); Formed by printing silver on one of the following: " IZO ") and indium-tin-zinc-oxide (hereinafter referred to as " ITZO ").

FIG. 2 is a view schematically illustrating a form when the touch panel in FIG. 1 is formed, and FIG. 3 is a view illustrating a method of attaching the touch panel in FIG. 2 to the liquid crystal panel.

Referring to FIGS. 2 and 3, the film / film type resistive touch panel 2 is coated with an ITO film between an upper glass substrate 24a and a lower glass substrate 24b, and a silver (Ag) electrode is used. When printed and bonded together with the spacers 26 interposed therebetween, they are convex as shown in FIG. 2. In order to attach it on the upper substrate 3b of the liquid crystal panel 1, the front surface is attached to the lower glass substrate 20 of the touch panel 2 using an adhesive.

After the adhesive is applied to the entire surface of the lower glass substrate 20 of the touch panel 2, the fixing is easy when the upper glass substrate 3B of the liquid crystal panel 1 is bonded. However, when the touch panel 2 needs to be repaired due to an abnormality in the touch panel 2, the touch panel 2 is separated from the liquid crystal panel 1. However, due to the adhesive force of the touch panel 2, the touch panel 2 is unreasonable to the liquid crystal panel 1. There is a problem that goes or breaks.

Accordingly, an object of the present invention is to provide a touch panel integrated electro-optical display device and a method of coupling the touch panel to be attached by using a tension and a mechanism when the touch panel is attached on the upper glass substrate of the liquid crystal panel.

1 is a view showing a liquid crystal panel on which a resistive touch panel is mounted.

FIG. 2 is a diagram schematically illustrating a form when the touch panel of FIG. 1 is formed. FIG.

3 is a view for explaining a method of attaching the touch panel in FIG. 2 to a liquid crystal panel.

4 is a schematic view of a touch panel integrated with an electro-optical display device according to a first embodiment of the present invention;

FIG. 5 is a diagram illustrating the touch panel shown in FIG. 4. FIG.

FIG. 6 is a view for explaining a state in which only one side of the touch panel of FIG. 4 is fixed to the display element; FIG.

7 illustrates a touch panel integrated in an electro-optical display device according to a second embodiment of the present invention.

FIG. 8 is a cross-sectional view of the touch panel shown in FIG. 7. FIG.

<Description of Symbols for Main Parts of Drawings>

1: liquid crystal panel 2,30: touch panel

3a, 20, 34, 36a: lower substrate 3b, 24, 32, 36b: upper substrate

23,33: electrode layer signal line 38: liquid crystal cell

40: buffer 42: fixed part

44: elastic wire

In order to achieve the above object, the touch panel integrated electro-optical device according to an exemplary embodiment of the present invention is a display panel of a display device for displaying an image signal by applying an electrical signal, and a display attached and projected on the display panel. A concave touch panel in which position input is performed by pressure of a finger or a pen according to the panel instruction, and a "c" shaped high formed at both ends of the two panels for bonding the display panel and the touch panel together. And a buffer formed between the government and the touch panel and the fixing part to protect the electrode formed on the touch panel.

The display panel may be any one of a liquid crystal display, a field emission display, a plasma display panel, and a display panel constituted by electroluminescent devices.

The fixing part is characterized in that any one of stainless and aluminum.

In order to apply tension to the touch panel is characterized in that it further comprises an elastic wire inserted between two or more upper and lower substrates of the touch panel.

In a method of coupling an electro-optical display device integrated with a touch panel according to the present invention, in the electro-optical display device integrated with a touch panel, forming a display panel of a display device for displaying an image signal by applying an electrical signal And forming a concave touch panel in which position input is performed by a pressure of a finger, a pen, or the like, according to the indication of the display panel attached and projected on the display panel, and both ends of the display panel and the touch panel. Fixing the step of forming a buffer at both ends to protect the electrodes formed on the touch panel, and fixing the aligned display panel, the touch panel, and the buffer by a “c” shaped fixing part. Characterized in that it comprises a.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 4 to 7.

4 is a view schematically showing a touch panel integrated with an electro-optical display device according to a first embodiment of the present invention, in which the touch panel is schematically shown with a liquid crystal panel.

Referring to FIG. 4, the touch panel integrated liquid crystal panel includes a liquid crystal panel 36, a touch panel 30, an electrode protective buffer 40, and a fixing part 42.

The liquid crystal panel 30 is injected between the lower glass substrate 36a and the upper glass substrate 36b to have a liquid crystal material 38 and a spacer (not shown). As shown in FIG. 1, the gate line 6, the insulating film 8, the pixel electrode 10a, and the first alignment layer 12a are sequentially formed on the lower glass substrate 36a. The upper glass substrate 36b also has a black matrix 16, a color filter 18, a common electrode 10b, and a second alignment layer 12b, which are sequentially formed on their lower surface as shown in FIG. The spacer is sprayed onto the first alignment layer 12a before the upper and lower glass substrates 36a and 36b of the above structure are bonded. The upper and lower glass substrates 36a and 36b are spaced apart from each other to be maintained at regular intervals by a spacer. In other words, the spacer allows the liquid crystal material 38 to have a uniform thickness by keeping the gap between the upper and lower glass substrates 36a and 36b uniform.

The touch panel 30 has a spacer which is spread between the lower glass substrate 32 and the upper glass substrate 34 formed of PET film. The first electrode layer is formed on the surface of the lower glass substrate 32, and the second electrode layer is formed on the bottom surface of the upper glass substrate 34. The second electrode layer is shorted with the first electrode layer when the upper glass substrate 34 is pressed by a stylus pen or finger, thereby causing a signal having a current amount or voltage level that varies depending on the pressed position. In this case, the first and second electrode layers are formed by printing silver (Ag) electrodes on the upper and lower substrates on which one of ITO, IZO, and ITZO, which are transparent conductive materials, is coated.

In the touch panel 30 made by bonding PET films on the upper and lower glass substrates 32 and 34 to which the transparent electrode material is coated, the lower glass substrate 32 is larger than the size of the upper glass substrate 34. When the size of S is slightly reduced and bonded by the spacer, as shown in FIG. 5, the touch panel 30 exhibits a concave shape.

The fixing part 42 is a mechanism for fixing the two panels to the liquid crystal panel and the touch panel 30 without using an adhesive, and is formed in a “c” shape. At this time, the fixing part 42 is stainless (stainless) or aluminum (Al) is used.

The electrode protection buffer 40 is inserted between the fixing part 42 and the upper glass substrate 34 of the touch panel 30 to protect the electrodes of the touch panel. The buffer used at this time is mainly used a silicon pad (Silicon pad).

The method of attaching the touch panel through the above-described components will be described briefly. The concave touch panel 30 formed by bonding the upper glass substrate 34 in the touch panel 30 to be smaller than the lower glass substrate 32 is bonded. Is attached to the upper glass substrate 36b of the liquid crystal panel, one end of the touch panel 30 and one end of the liquid crystal panel are fixed using the fixing part 42, as shown in FIG. At this time, the buffer formed between the fixing unit and the touch panel is used to protect the electrodes formed on the touch panel 30.

When one end is fixed through the fixing, the other end is also fixed through the same method.

FIG. 7 is a diagram illustrating a touch panel integrated with an electro-optical display device according to a second exemplary embodiment of the present invention, and FIG. 8 is a cross-sectional view of the touch panel illustrated in FIG. 7.

7 and 8, the touch panel integrated with the electro-optical display device includes an upper glass substrate 34, a lower glass substrate 32, and an elastic wire 44.

The upper and lower glass substrates 34 and 32 are formed of PET, and are bonded to each other by spacers spread between the two substrates 34 and 32.

In addition, a first electrode layer is formed on a surface of the lower glass substrate 32, and a second electrode layer is formed on a bottom surface of the upper glass substrate 34. The second electrode layer is shorted with the first electrode layer when the upper glass substrate 34 is pressed by a stylus pen or finger, thereby causing a signal having a current amount or voltage level that varies depending on the pressed position. In this case, the first and second electrode layers are formed by printing silver (Ag) electrodes on the upper and lower substrates on which one of ITO, IZO, and ITZO, which are transparent conductive materials, is coated.

The elastic wire 44 is formed between the upper glass substrate 34 and the lower glass substrate 32 to provide tension to the touch panel 30. In addition, the elastic wire 44 is formed slightly longer than the upper and lower glass substrates 34 and 32 constituting the touch panel 30 so that two or more are inserted between the two substrates.

The method of attaching the touch panel 30 formed as above on the liquid crystal panel will be described briefly. The ends of the liquid crystal panel in which the elastic wires 44 disposed between the touch panels 30 and longer than the touch panel 30 are aligned. When fixed at, the touch panel 30 may be attached to the upper substrate 36b of the liquid crystal panel without shaking.

In addition, as in the previous embodiment, the buffer panel 40 and the fixing part 42 may be added to form the touch panel 30 to be firmly fixed on the upper substrate 36b of the liquid crystal panel.

Here, the display panel to which the touch panel 30 is attached may be applied to the display panel constituting the PDP, FED, and ELD in addition to the liquid crystal panel of the liquid crystal display device described above.

As described above, the touch panel integrated in the electro-optical display device according to the present invention does not use an adhesive when attaching the touch panel to the display panel, and applies a tension agent to the touch panel by bonding and elastic wires, and then a buffer and By attaching the touch panel on the display panel by the fixing unit, any one of the touch panel and the display panel can be easily repaired when the display panel is fixed.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (11)

A display panel of the display device for displaying an image signal by applying an electrical signal; A concave touch panel mounted on the display panel and subjected to positional input by pressure such as a finger or a pen according to the indication of the transparent display panel; A “c” shaped fixing part formed at both ends of the two panels for bonding the display panel and the touch panel together; And a buffer formed between the touch panel and the fixing part to protect an electrode formed on the touch panel. The method of claim 1, The display panel is an electro-optical display device with a touch panel, characterized in that any one of a liquid crystal display device, a field emission display device, a plasma display panel and a display panel composed of electroluminescent elements. The method of claim 1, The concave touch panel may include a lower substrate formed on the display panel; An upper substrate corresponding to the lower substrate and smaller in size than the lower substrate; An electrode layer formed on each substrate between the lower and upper substrates; And a spacer which is spread between the lower and upper substrates so that the two substrates have a predetermined space and are bonded to each other. The method of claim 3, wherein The upper and lower substrates are electro-optic display devices incorporating a touch panel, characterized in that consisting of polyethylene telephthalate (PET) film. The method of claim 1, The fixing unit is an electro-optical display device with a touch panel, characterized in that any one of stainless and aluminum. The method of claim 1, And wherein the buffer is formed of a silicon pad. The method of claim 3, wherein And an elastic wire inserted between two upper and lower substrates of the touch panel to apply tension to the touch panel. The method of claim 7, wherein And the elastic wire has a length longer than that of the upper and lower substrates constituting the touch panel. In the electro-optical display device with a touch panel, Forming a display panel of a display device for displaying an image signal by applying an electrical signal; Forming a concave touch panel on which the position input is performed by a pressure such as a finger or a pen according to the display panel attached to the display panel and viewed; Fixing both ends of the display panel and the touch panel; Forming buffers at both ends to protect the electrodes formed on the touch panel; And fixing the aligned display panel, the touch panel, and the buffer by a “c” shaped fixing part. The method of claim 9, Forming the concave touch panel comprises the steps of forming a lower substrate consisting of polyethylene terephthalate (PET), Forming an upper substrate corresponding to the lower substrate and formed of the same material and having a smaller size than the lower substrate; Forming an electrode layer formed on each substrate between the lower and upper substrates to generate an electrical signal; The method of coupling a touch panel integrated electro-optical device comprising the step of bonding two substrates together with a predetermined space by a spacer spread between the lower and upper substrates. The method of claim 10, And a step of inserting elastic wires between the two substrates before bonding the upper and lower substrates by the spacers.