KR100906323B1 - Touch screen panel - Google Patents

Abstract

A touch screen panel is provided to improve light transmittance from an LCD, thereby reducing power consumption for increasing light intensity. An upper film(100) is installed at an image display device. A lower film(200) is arranged in a lower part of the upper film. An ITO layer is evaporated in the lower film. An optical adhesive layer(300) bonds the upper film with the lower film. The upper film is made of PET. The lower film is made of acryl. In four edge parts of the lower film, a metal electrode(210) is installed through printing. The optical adhesive layer is UV epoxy of liquid. An electrode film is additionally interposed among the upper film, the optical adhesive layer and the lower film.

Description

Touch screen panel {Touch Screen Panel}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch screen panel, and more particularly, to a touch screen panel capable of reducing power consumption for increasing light quantity by improving light transmittance from an LCD.

In general, a touch screen panel (Touch Screen Panel) can detect the position by touching a finger or a pen on the display screen of the image display device, mainly applied to a computer or a portable information terminal.

In addition, when the type of touch screen panel is classified according to the method, there are resistive, capacitive, ultrasonic, optical (infrared) sensor, and electromagnetic induction.

The touch screen panel is characterized in that the problem of signal amplification, the difference in resolution, the difficulty of design and processing technology is different.

Therefore, in consideration of optical characteristics, electrical characteristics, mechanical characteristics, input characteristics, etc., a suitable touch screen panel is selected in consideration of durability and economical efficiency.

The capacitive type is an input device of an image display device (electronic organizer, PDA, portable PC, etc.) combined with an LCD. The panel is simple in structure, which makes it possible to slim the finished product and is advantageous in mass production over other methods. .

Hereinafter, a configuration of a capacitive touch screen panel 1 according to the related art will be described with reference to FIG. 1.

As shown, the capacitive touch screen panel 1 is formed of an upper film 10 made of a polycarbonate (PC) material and an indium-tin-oxide (ITO), which is disposed under the upper film 10 and is a transparent conductive material. : ITO electrode film 20 on which Indium-Tin-Oxide material is deposited, and an optical clear film (OCA: 30) interposed between the upper film 10 and the ITO electrode film 20. It is composed.

The operating principle of the capacitive touch screen panel 1 is when a finger or a conductive pen contacts the upper film 10 while a voltage is applied to generate an electric field on the ITO electrode film 20. At the contact point, a drop (VOLTAGE DROP) is generated and a current sensor (not shown) senses the position value.

However, since the upper film of the capacitive touch screen panel of the prior art is made of a PC, the surface itself is weak to scratches, so that the surface is easily damaged by the fingernail during the touch process.

Therefore, the user has a inconvenience to attach a separate protective film as a method for protecting the surface of the upper film.

Moreover, the upper film of the PC material has a limit in light transmittance depending on the characteristics of the material.

That is, when the surroundings are bright and the light irradiated from the LCD has a predetermined amount of light, it is inconvenient for the user to see the image. In this case, the user sets the brightness of the LCD to the maximum. As a result, as the power consumption for the LCD brightness increases, the usage time of the image display device is shortened.

The present invention has been made to solve the above problems, an object of the present invention is to provide a touch screen panel that can further improve the transmittance by adopting the configuration of the touch screen panel as a material having high transmittance.

In order to achieve the above object, the touch screen panel according to the present invention is an upper film installed in the image display device, a lower film disposed below the upper film and the ITO layer is deposited and the metal electrode is installed, the upper film and the lower film It comprises an optical adhesive layer for bonding, wherein the upper film is made of PET or acrylic, the lower film is characterized in that made of acrylic.

Here, the optical adhesive layer is characterized in that the optical adhesive film.

In addition, the optical adhesive layer is characterized in that the liquid UV epoxy.

According to the present invention having the configuration described above, the configuration of the touch screen panel, as the upper film and the lower film is made of PET or acrylic material, the upper film can not only prevent the surface damage to the scratch, but also the light transmittance It is possible to further improve, and consequently to save power consumption of the image display apparatus.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

As shown in FIG. 2, the touch screen panel 1000 according to the present invention includes an upper film 100 installed in an image display device and a lower film disposed under the upper film 100 and having an ITO layer deposited thereon. 200 and an optical adhesive layer 300 for bonding the upper film 100 and the lower film 200 together.

First, the upper film 100 is made of a transparent acrylic or PET material, the lower film 400 to be described later is made of a transparent acrylic material.

Here, the PET is a thin film of polyethylene terephthalate (Polyethylene-Terephthalate) material has excellent properties in surface gloss, heat resistance, oil resistance and solvent resistance.

In addition, the characteristic of the acrylic is MMA (Methyl Methacrylate) is the main raw material, the thermoplastic temperature is 70 ~ 110 ℃, when molding processing within 150 ~ 200 ℃ does not occur crazing (crazing) phenomenon.

Moreover, the acrylic is not only easier to machine, such as cutting, cutting, drilling, etc. than conventional PC materials, but also can easily perform processes such as adhesion, painting, and printing metal deposition.

In particular, the acrylic is excellent in transparency enough to be able to completely see the object within the thickness of about 2mm without refraction of light.

On the other hand, the lower film 200 is deposited on the film layer made of transparent acrylic ITO (Indium-Tin-Oxide) layer for recognizing the position on the X-axis or Y-axis by the electric field is deposited.

In addition, conductive metal electrodes 210 having low resistivity may be printed on four corners of the lower film 200.

The resistance network is formed around the metal electrode 210. The resistance network is formed in a linearization pattern in order to transmit a control signal evenly over the entire surface of the lower film 200.

In detail, a voltage is applied to each metal electrode 210 positioned at four corners of the lower film 200, and at the same time, an electric field is spread on the front surface of the lower film. In this case, when the upper film 100 is contacted with a finger or a conductive pen, a voltage drop is generated at the contact point and the current sensor (not shown) detects the position value and calculates a coordinate value thereof to display an image. Enable output of device information.

On the other hand, as shown in Figure 3, the optical adhesive layer 300 serves to bond the upper film 100 and the lower film 200 described above.

Here, the optical adhesive layer 300 is a liquid UV epoxy that is excellent in heat resistance, chemical resistance, adhesiveness and electrical (electromagnetic wave) characteristics at the same time blocking the ultraviolet light to the external light, or the upper film 100 and the electrode film An optical adhesive film having a transparent film layer corresponding to the size of 200 and coated with a liquid synthetic resin material on the front and rear surfaces of the transparent film layer may be used.

On the other hand, Table 1 compared the transmittance of the configuration of the touch screen panel 1000 of the present invention using PET or acrylic and the configuration of the prior art.

Conventional construction  Configuration of the present invention  Capacitive touch screen panel Top Film (PC) Top Film (PET) Top Film (PET) Top Film (MMA) Optical adhesive film Optical adhesive layer Optical adhesive layer Optical adhesive layer ITO Electrode Film (PET) Bottom film (ITO MMA) Bottom film (ITO MMA) Bottom film (ITO MMA) Transmittance 88% to 92% 91% to 95% 91% to 95% 94% to 98%

As a result, the configuration of the touch screen panel 1000 according to the present invention provides an improved transmittance as the upper film 100 is made of PET and acrylic or acrylic and the lower film 200 is made of acrylic only.

Here, the transmittance measuring apparatus used a transmittance measuring instrument (spectrochromometer, model name: CM-3500D) of "Konica Minolta Sensing".

Although not shown in the drawings, an electrode film may be additionally interposed between the upper film, the optical adhesive layer, and the lower film.

Here, the electrode film is deposited on the film layer made of a transparent PET or acrylic ITO layer for recognizing the position on the X-axis or Y-axis.

In this case, the electrode film is formed of a plurality of different patterns of the ITO layer.

The electrode film plays a role of greatly improving the contact recognition rate with respect to the micro motion of the finger or the conductive pen.

Similarly, the electrode film is bonded to each other through the above-described optical adhesive layer, and then bonded to the upper film and the lower film.

1 is an exploded perspective view and a cross-sectional view showing the configuration of a capacitive touch screen panel according to the prior art.

2 is an exploded perspective view showing the configuration of a touch screen panel according to the present invention.

3 is a cross-sectional view illustrating a state in which the configuration of FIG. 2 is bonded.

<Description of Signs of Major Reference Symbols>

100 ... upper film 200 ... lower film

210 ... metal electrode 300 ... optical adhesive layer

Claims (4)

delete delete delete Upper film installed on the image display device, A lower film disposed under the upper film and having an ITO layer deposited thereon; An optical adhesive layer for bonding the upper film and the lower film, The upper film is made of PET, the lower film is made of acrylic, Four corners of the lower film are provided with a metal electrode by printing, The optical adhesive layer is a liquid UV epoxy, An electrode film is additionally interposed between the upper film, the optical adhesive layer, and the lower film. The electrode film is a touch screen panel, characterized in that the ITO layer for recognizing the position on the X-axis or Y-axis is deposited on a film layer made of a transparent PET or acrylic.

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