KR20060134627A - Front filter of display panel - Google Patents

Abstract

A front filter of a display panel is provided to offer a point screen function, and increase convenience of a customer and raise a brand value by realizing the point screen function included in the front filter. The front filter includes a pointing screen generating a coordinate signal for a point pointed by a user. The pointing screen prevents leakage of electromagnetic wave inputted from the display panel by blocking the electromagnetic wave. The point film comprises an upper film(220), the first electrode lines(230) formed to a lower side of the upper film, a lower film(260), the second electrode lines(250) formed to an upper side of the lower film and crossing the first electrode lines, and a dot spacer(240) placed between the first and second electrode lines, and separating the first and second electrode lines at a specific interval.

Description

Front Filter of Display Panel

1 is a front filter of a display panel having a touch screen function according to the prior art.

Figure 2 is a view showing a front filter of a display panel having a pointing screen function according to the present invention.

<Explanation of symbols for the main parts of the drawings>

110: upper film 120: lower film

130: first conductive layer 140: second conductive layer

150: PVA film 160: TAC film

170: silver line layer

200: anti-reflective film 210: optical characteristic film

220: upper film 230: first electrode line

240: dot spacer 250: second electrode line

260: lower film 270: near infrared shielding film

The present invention relates to a display panel, and more particularly to a front filter of the display panel.

With the advent of the multimedia era, various display technologies such as PDP, LCD, PDA, and Projection are developing. Recently, the front filter of the display panel with the addition of a touch screen function has been widely used.

The touch screen function displays the shape as the pointer moves along the path when the user writes or draws a character or symbol with a hand or pen on the front panel of the display screen, and touches the icon displayed on the screen in a certain mode. As the function is executed, a screen according to the execution of the function is displayed.

In other words. The touch screen functions as a conventional display screen and has a user interface function.

Referring to FIG. 1, a front filter of a display panel including a conventional touch screen function will be described below.

The upper film 110 and the lower film 120 are positioned side by side, and the first and second conductive layers 130 and 140 are positioned on the lower surface of the upper film 110 and the upper surface of the lower film 120, respectively.

The upper film 110 and the lower film 120 should be a transparent film using polyethylene terephthalate (hereinafter referred to as PET).

The first and second conductive layers 130 and 140 should be transparent conductive layers, and either one of Indium-Tin-Oxide (ITO), Indium-Zine-Oxide (IZO), or Indium-Tin-Zine-Oxide (ITZO). It is okay if.

A polyvinylalcohol (PVA) film 150 is positioned on the lower surface of the lower film 120, and the PVA film 150 serves to polarize light.

A triacetyl cellulose (TAC) film 160 is disposed on the lower surface of the PVA film 150, and the TAC film 160 serves to protect the PVA film 150 from humidity.

A silver line layer 170 (A / G) is formed on the upper surface of the upper film 110.

The first conductive layer 130 and the second conductive layer 140 are spaced apart at predetermined intervals 180, and a spacer material may be injected or a sealing material may be applied.

Hereinafter, the operation of the front filter of the display panel having the touch screen function will be described.

In the front filter, since the voltage is applied in the X-axis direction to the conductive layer formed on one film and the voltage is applied in the Y-axis direction to the conductive layer formed on the other film, the signal must be read twice to detect the position.

The controller recognizes the position value on the touch panel through the values of the X-axis and the Y-axis to which the voltage is applied, and outputs it on the display.

Therefore, when one of the upper substrates is in contact with a pen, a finger, or the like, the transparent electrodes are in contact with each other to output a voltage value changed by the resistance value at that position.

Since the voltage value changed by the resistance value of the contacted position should be read as described above, an electrode for applying a voltage to the transparent electrode to the front filter of the display panel and reading the voltage value changed according to an arbitrary contacted position. And wiring will have to be formed.

In the past, the front filter of the display panel was applied only to electromagnetic shielding, color control, and near infrared absorption. However, as described above, the touch screen function is added to the front filter of the display panel. It is applied to various functions.

However, the front filter of the conventional display panel described above has the following problems.

In the case of a large-screen display that requires a viewing distance of 1m or more, such as a PDP and a projection, the user may not be able to properly view the displayed screen when the user directly touches the screen.

That is, it is difficult to use the Turkish screen function in the state of securing a visible distance of 1m or more.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a front filter of a display panel that provides a pointing screen function.

In other words, it is provided with a pointing screen function, to provide a front filter of the display panel that can increase consumer convenience and increase the brand value.

In order to achieve the above object, the present invention provides a front filter of a display panel including a pointing screen for generating a coordinate signal for a point pointed by a user. To provide.

The pointing screen shields electromagnetic waves and prevents electromagnetic waves incident from the display panel from being emitted to the outside. The pointing screens include a plurality of first electrode lines and a lower surface formed on the upper film and the lower surface of the upper film. It is formed on the upper surface of the film and the lower film, and is located between the plurality of second electrode lines and the first electrode line and the second electrode line intersecting the first electrode line, the first electrode line and the first electrode line It comprises a spacer so that the two electrode lines are spaced at a predetermined interval.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

The same components as in the prior art are given the same names and the same reference numerals for convenience of description, and detailed description thereof will be omitted.

Referring to Figure 1, an embodiment of a front filter of a display panel according to the present invention will be described.

The front filter of the display panel according to the present invention includes an antireflection film 200, an optical characteristic film 210, pointing screens 220 to 260, and an NIR shielding film 270.

The pointing screen includes an upper film 220, a lower film 260, a first electrode line 230, a second electrode line 250, and a dot spacer 240.

The antireflection coating (Antireflection Coating, 200) is located on the surface of the front filter of about 10 ~ 300㎛ thickness, and prevents the light incident from the outside is reflected back to the outside to improve the contrast of the display panel, It may be further formed on the back of the front filter.

The optical characteristic film 210 is positioned at a thickness of about 10 to 300 μm on the lower surface of the anti-reflective film 200, and lowers the luminance of red and green light of the light incident from the front of the display panel and increases the luminance of blue. To improve the optical characteristics of the display panel.

The optical characteristic film 210 is generally formed by inserting a specific material into an adhesive layer formed between the antireflective film 200 and the pointing screen.

On the lower surface of the optical film 210, the upper film 220 is located 5 ~ 200㎛ thickness, it should be a transparent material using PET.

The first electrode line is located on the lower surface of the upper film 210 to a thickness of 0.1 ~ 50㎛, it is composed of a conductive metal (Ag, Cu, Au, etc.) or ITO (Indium-Tin-Oxide).

On the lower surface of the upper film 220 having the first electrode line 210 on the lower surface, the lower film 260 having the second electrode line 250 on the upper surface of the upper film 220 is 5 ~ 200㎛ Located in thickness.

The second electrode line 250 should be positioned in the direction crossing the first electrode line 230 with a thickness of 0.1 to 50 μm, and the first electrode line and the second electrode line have a fine size and thus have an image quality. It should not affect.

The lower film 260 should be a transparent film using PET in the same way as the upper film, and the second electrode line 250 is a conductive metal (Ag, Cu, Au, etc.) like the first electrode line 230. Or ITO (Indium-Tin-Oxide).

A plurality of dot spacers 240 are positioned between the first electrode line 230 and the second electrode line 250, and the first electrode line 230 and the second electrode line 250 are predetermined. Spaced apart.

Specifically, the structure of the pointing screen is bonded by a sealing material applied along an outer portion of the upper film 220 and the lower film 260 serving as a support, the non-touch area, the first touch in the non-touch area Dot spacers are positioned between the electrode line 230 and the second electrode line 250 so as to be spaced apart from each other by 0.01 to 500 μm.

In this case, the plurality of dot spacers 240 are in contact with the first electrode line 230 and the second electrode line 250, and serve as a resistance material or a charge storage material.

In addition, the plurality of dot spacers 240 may be made of a material that emits free electrons by a laser light source or changes electrical characteristics (resistance value or capacitance value) according to energy level change.

The NIR shielding layer 270 shields NIR (Near Infrared Rays) near a reference value emitted from a display panel, and devices that transmit signals using IR (Infrared Rays) such as a remote controller may normally transmit signals. Make sure

In addition, the pointing screen shields electromagnetic interference (EMI) to prevent the EMI incident from the display panel to be emitted to the outside.

Referring to the operation of the front filter of the display panel according to the present invention described above are as follows.

When a laser pointer attached to a remote control for a display device points to a specific position of a display area, laser energy is transmitted to the front filter of the display panel in the form of IR or the like.

Subsequently, electrical properties of the plurality of dot spacers 240 contacted between the first electrode line 230 and the second electrode line 250 are changed by laser energy, thereby changing the resistance value or the capacitance value.

In addition, since the current or voltage changes according to the variable resistance value or capacitance value, the X and Y coordinates of the contact point are not illustrated in the first electrode line 230 and the second electrode line 250. Output through

Therefore, the display panel shows a graphic required to perform or perform a function selected by the user, and thus the user can maintain a visible distance and use a specific function of the display panel, so that the front panel filter of the display panel performs the user interface function. Done.

The present invention is not limited to the above-described embodiments, and modifications are included within the scope of the present invention, although modifications may be made by those skilled in the art as can be seen from the appended claims. .

The effects of the PDP according to the present invention described above are as follows.

First, in a large-screen display that requires a viewing distance of 1m or more, such as a PDP and a projection, a user may generate a coordinate signal of a specific portion of a screen displayed by using a remote controller without directly touching the screen.

Second, by providing a pointing screen function, it is possible to promote the convenience of consumers and increase the brand value.

Claims (8)

In the front filter of the display panel installed on the front of the display panel, And a pointing screen for generating a coordinate signal for a point pointed by the user. The method of claim 1, The pointing screen shields electromagnetic waves and prevents electromagnetic waves incident from the display panel from being emitted to the outside. The method of claim 1, The pointing screen is a top film; A plurality of first electrode lines formed on a lower surface of the upper film; Bottom film; A plurality of second electrode lines formed on an upper surface of the lower film and intersecting the first electrode lines; And a spacer positioned between the first electrode line and the second electrode line and spaced apart from the first electrode line and the second electrode line by a predetermined interval. The method of claim 3, The first filter line and the second electrode line of the front panel filter, characterized in that made of a conductive metal. The method of claim 3, The first filter line and the second electrode line of the front panel filter, characterized in that made of indium-tin-oxide (ITO). The method of claim 3, The upper film and the lower film is a front filter of the display panel, characterized in that made of polyethylene terephthalate (PET). The method of claim 3, The spacer is a front filter of the display panel, characterized in that the electrical characteristics change according to the change in energy level. The method of claim 1, The front filter of the display panel includes an anti-reflective film to prevent the reflection of light incident from the outside; An optical characteristic film for lowering luminance of red and green and increasing luminance of blue among light incident from the display panel; And a near-infrared shielding film which prevents the near-infrared radiation above the reference value emitted from the panel from being emitted to the outside so that a signal can be normally transmitted.

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