JPWO2008010350A1 - Display device - Google Patents

Abstract

As a dedicated light source for activating the photocatalyst layer (2) between the liquid crystal display part (5) and the touch panel part (3) in the liquid crystal display (1) with a touch panel provided with the photocatalyst layer (2) on the surface An organic EL part (4) is provided. Since the organic EL part (4) can output light having a wavelength that activates the photocatalyst, the photocatalyst layer (2) can be activated efficiently, and is a self-luminous thin film. There is almost no influence by addition of the organic EL part (4) to 1).

Description

  The present invention relates to a display device that displays characters, images, and the like that are provided with a photocatalytic coating on the outer surface.

  2. Description of the Related Art Conventionally, a photocatalyst has been provided to remove dirt and the like attached to a display surface of a liquid crystal display or a liquid crystal display provided with a touch panel.

  Photocatalysts are activated by irradiation with ultraviolet light or visible light, and have the property of decomposing organic substances into water and carbon dioxide gas. However, photocatalysts cannot be activated unless they are irradiated with light. A light source for activation is required, and even in the case of visible light, only a substance that reacts to visible light with a blue wavelength has been put into practical use, and is limited to the type of light (wavelength) for activation. There was a problem that there was.

  For the above-described problem, a display system described in Patent Document 1 and a display device described in Patent Document 2 have been proposed.

  Patent Document 1 describes a display system in which an illumination device for a photocatalyst is provided around a touch panel to activate a photocatalyst together with a backlight of a display device to remove dirt.

Patent Document 2 describes a display device in which stain removal is performed by ultraviolet rays in a light beam irradiated from a backlight being transmitted through a liquid crystal panel and activating a photocatalyst layer.
JP 2004-118747 A JP 2000-10491 A

  However, when the backlight light source is used for the activation of the photocatalyst, the aperture ratio of the display element, and each pixel has a red color that does not activate the photocatalyst because the color filters of the three primary colors R, G, and B emit light. Since there is an area such as green, or the image display light is directly used as a light source for photocatalyst activation, the stain removal effect varies depending on the location of the screen because it depends on the content of the image. Furthermore, since the backlight source is adjusted for display, it is not possible to freely select a wavelength of light that has a large effect on activation of the photocatalyst.

  Further, when the backlight light source is directly applied to the photocatalyst layer from both sides as in Patent Document 1, it is difficult to uniformly irradiate the entire display surface, and a special optical element is required.

  Furthermore, when a touch panel is formed on the display surface, the dirty location of the touch panel is not uniform and is often specified in a certain area (for example, only near the periphery). In such a case, when a display backlight is used, the area cannot be selected, so that waste is great.

  Therefore, an object of the present invention is to provide a display device that can efficiently activate a photocatalyst without unevenness in a display device provided with a photocatalyst film on a display surface, for example.

  In order to solve the above-mentioned problem, the invention according to claim 1 is a display device in which a photocatalyst film is provided on a display surface of a display means for displaying characters, images, etc., between the display means and the photocatalyst film. And a light source for activating the photocatalytic coating.

It is sectional drawing of the liquid crystal display with a touchscreen concerning one Example of this invention. It is sectional drawing of the modification of the liquid crystal display with a touchscreen shown by FIG. It is sectional drawing of the other modification of the liquid crystal display with a touchscreen shown by FIG. It is a top view of the liquid crystal display with a touchscreen in which the touchscreen was formed in a part of display surface.

Explanation of symbols

1 Liquid crystal display with touch panel (display device)
2 Photocatalyst layer (photocatalyst film)
3 Touch panel section 4 Organic EL section (light source)
5 Liquid crystal display (display means)

  Hereinafter, a display device according to an embodiment of the present invention will be described. The display device according to one embodiment of the present invention includes a light source for activating the photocatalytic film between the display means and the photocatalytic film. In this way, a dedicated light source for activating the photocatalyst can be provided, so that the location of the screen can be compared with activating the photocatalyst using light generated during display of the display means. Therefore, the wavelength of light having a large effect on activation of the photocatalyst can be freely selected.

  Moreover, you may provide the touchscreen for operating on a display surface. By doing in this way, the stain | pollution | contamination adhering to the display surface in the display apparatus provided with the touch panel can be removed efficiently.

  Moreover, you may equip the touchscreen with the light source for activating a photocatalyst film. By doing in this way, since a light source can be manufactured integrally with a touch panel, the efficiency of a manufacturing process and the number of parts can be reduced.

  In addition, the light source may be a thin film that transmits light from the outside of the light source when it is self-luminous and does not emit light. By doing so, it is possible to efficiently activate the photocatalyst without adding parts for emitting light and the like and hardly affecting the size of the display device due to the provision of the light source. .

  The light source may be an organic EL element. By doing in this way, an organic EL element can be utilized as a light source which activates a photocatalyst, and the characteristic of organic EL elements, such as self-light emission, thinness, and low power consumption, can be provided.

  A liquid crystal display 1 with a touch panel as a display device according to an embodiment of the present invention will be described with reference to FIG. The liquid crystal display 1 with a touch panel is used in, for example, a car navigation system, and a touch panel is formed on the display surface of the liquid crystal display, and various operations can be performed by touching the display screen with a finger or the like along with displaying images and characters This is a device. As shown in FIG. 1, the liquid crystal display 1 with a touch panel includes a photocatalyst layer 2, a touch panel portion 3, an organic EL (electroluminescence) portion 4, a liquid crystal display portion 5, and a backlight 6.

  The photocatalyst layer 2 is a photocatalyst film provided on the surface of the display surface of the liquid crystal display 1 with a touch panel, and the effect of decomposing organic matter when dirt attached when touched with a finger or the like is activated by the light of the photocatalyst. Remove with. Titanium dioxide is well known as a photocatalyst material. Further, although titanium dioxide is activated by ultraviolet light, nitrogen-doped / carbon-doped / sulfur-doped / fluorine-doped titanium dioxide is well known as a photocatalyst activated by visible light.

  The touch panel part 3 is in the lower layer of the photocatalyst layer 2, and is composed of a PET film 3a, a transparent conductive film 3b, a double-sided adhesive part 3c, a flexible connector 3d, a dot spacer 3e, and a glass substrate 3f. .

  The PET film 3 a becomes a lower layer of the photocatalyst layer 2 and the surface of the touch panel portion 3, and is a transparent film made of a PET (polyethylene terephthalate) resin and covers the touch panel portion 3.

  The transparent conductive films 3b1 and 3b2 are made of ITO (indium-tin oxide), the transparent conductive film 3b1 is formed in the lower layer of the PET film 3a, and the transparent conductive film 3b2 is spaced from the double-sided adhesive portion 3c. It is provided free of charge.

  The double-sided adhesive portion 3c has an insulating property, and bonds the transparent conductive films 3b1 and 3b2 at the respective peripheral portions.

  The flexible connector 3d is a connector having a flexible portion, is connected to the end portions of the transparent conductive films 3b1 and 3b2, and supplies power to the transparent conductive film 3b1 or 3b2 from a control means (not shown).

  The dot spacers 3e are formed of an insulator such as a resin, and a plurality of dot spacers 3e are arranged at predetermined intervals on the transparent conductive film 3b2. The dot spacer 3e prevents the transparent conductive films 3b1 and 3b2 other than the touched portion from touching when the touch panel unit 3 is touched.

  The glass substrate 3f serves as a substrate for the touch panel unit 3 and is formed under the transparent conductive film 3b2.

  That is, when the touch panel unit 3 is touched, the touched portion of the transparent conductive film 3b1 detects a change in resistance caused by contact with the transparent conductive film 3b2, thereby detecting the touched position coordinates. It is performed by a control means (not shown) connected through 3d, and an operation corresponding to the touched position is performed in a device or the like equipped with the liquid crystal display 1 with a touch panel.

  The organic EL unit 4 as a light source is provided in the lower layer of the touch panel unit 3 and includes an anode 4a, a light emitting layer 4b, and a cathode 4c, and serves as a light source for activating the photocatalytic layer 2. That is, the organic EL unit 4 outputs light having a wavelength that can activate the photocatalytic layer 2.

  The anode 4 a is a transparent electrode made of ITO and is formed in the lower layer of the touch panel portion 3.

  The light emitting layer 4b is an organic EL element composed of an organic EL compound such as a high molecular material or a low molecular material, and is formed under the anode 4a.

  The cathode 4c is a metal electrode formed of aluminum or the like, and is formed below the light emitting layer 4b.

  In the organic EL unit 4, when a voltage is applied between the anode 4a and the cathode 4c, the organic EL element of the light emitting layer 4b emits light, and this light activates the photocatalytic layer 2. That is, the organic EL unit 4 serves as a self-luminous light source.

  The liquid crystal display unit 5 as a display means is a well-known TFT type active matrix liquid crystal display in which a polarizing filter, a glass substrate, a color filter, a transparent electrode, a liquid crystal, a TFT transparent electrode and the like (not shown) are laminated. The liquid crystal display unit 5 displays video and the like from an input terminal (not shown).

  The backlight 6 is a backlight for the liquid crystal display unit 5 and includes a cathode fluorescent lamp or a cathode fluorescent lamp and a light guide plate.

  Next, the operation | movement at the time of removing the stain | pollution | contamination adhering to the display surface in the liquid crystal display 1 with a touchscreen which consists of the structure mentioned above is demonstrated.

  The removal of dirt adhering to the display surface of the liquid crystal display 1 with a touch panel is performed when no image is displayed on the liquid crystal display unit 5, that is, when the liquid crystal display 1 with a touch panel is not used.

  When the liquid crystal display 1 with a touch panel is not used, the organic EL unit 4 is supplied with power to cause the organic EL unit 4 to emit light. The light emitted from the organic EL unit 4 passes through the touch panel unit 3 and is irradiated to the photocatalyst layer 2. Since the light emitted from the organic EL unit 4 is light having a wavelength capable of activating the photocatalyst layer 2, the photocatalyst layer 2 is activated, and dirt attached to the surface of the liquid crystal display 1 with a touch panel is removed. The

  During normal use of the liquid crystal display 1 with a touch panel, the organic EL unit 4 is turned off without supplying power. By doing in this way, the image | video etc. which are displayed on the liquid crystal display part 5 at the time of normal use can permeate | transmit the organic EL part 4, and can be visually recognized from the surface of the liquid crystal display 1 with a touch panel.

  According to the present embodiment, in the liquid crystal display 1 with a touch panel provided with the photocatalyst layer 2 on the surface, the organic EL unit 4 is provided between the touch panel unit 3 and the liquid crystal display unit 5, and the light emitted from the organic EL unit 4 is used. By activating the photocatalyst layer 2, dirt attached to the liquid crystal display 1 with a touch panel can be removed. In addition, since the organic EL unit 4 can be a monochromatic light source by using the photocatalyst layer 2 as an activation light source, the aperture ratio can be set to 100% and is not affected by the aperture ratio. Moreover, it can adjust to the wavelength for activating the photocatalyst layer 2, and can use the efficiency of activation at maximum. Furthermore, since it is not related to the video display, it is not affected by the video, so the dirt removal effect is not uneven.

  In the above-described embodiment, the organic EL unit 4 is provided between the touch panel unit 3 and the liquid crystal display unit 5, but as shown in FIG. 2, between the transparent conductive film 3b2 of the touch panel unit 3 and the glass substrate 3f. Or you may provide between the photocatalyst layer 2 and the touch-panel part 3 as shown in FIG. By doing so, all can be formed on one side of the glass substrate 3f (can be provided on the touch panel), so that the manufacture is easier than providing the organic EL portion 4 between the glass substrate 3f and the liquid crystal display portion 5. Become.

  Further, as shown in the plan view of the liquid crystal display 1 with a touch panel in FIG. 4, when the touch panel portion 3 is formed not only on the entire surface but on a part of the liquid crystal display 1 with a touch panel, only the region where the touch panel portion 3 is formed. Alternatively, the organic EL portion 4 may be formed. Since the organic EL part is a self-luminous element, the light emitting area can be arbitrarily selected. Therefore, the organic EL part 4 can be formed only in the region where the touch panel part 3 is formed.

  In the above-described embodiments, the organic EL element is used as a light source for activating the photocatalyst. However, the organic EL element is not limited to this, and is formed on a thin film that transmits light from the outside of the light source, such as an inorganic EL element. Any element can be used.

  In the above-described embodiments, the TFT type active matrix liquid crystal display is used as the display means. However, the touch panel may not be provided, the display device may be a liquid crystal display of another type such as a simple matrix, a cathode ray tube or a plasma display. In addition, any display device that displays characters or images input from the outside, such as an organic EL display, is applicable.

  According to the embodiment described above, the following liquid crystal display 1 with a touch panel is obtained.

(Supplementary note 1) In the liquid crystal display 1 with a touch panel in which the photocatalyst layer 2 is provided on the display surface of the liquid crystal display unit 5 on which characters, images, and the like are displayed,
A liquid crystal display 1 with a touch panel, comprising an organic EL unit 4 for activating the photocatalyst layer 2 between the liquid crystal display unit 5 and the photocatalyst layer 2.

  According to the liquid crystal display 1 with a touch panel described above, since the organic EL unit 4 as a dedicated light source for activating the photocatalytic layer 2 can be provided, the light generated when the liquid crystal display unit 5 is displayed is used. Compared with activating the photocatalyst layer 2, the stain removal effect does not vary depending on the location of the screen, and the wavelength of light having a large effect on the activation of the photocatalyst layer 2 can be freely selected.

  In addition, the Example mentioned above only showed the typical form of this invention, and this invention is not limited to an Example. That is, various modifications can be made without departing from the scope of the present invention.

[0003]
3 Touch panel part 4 Organic EL part (light source)
5 Liquid crystal display (display means)
BEST MODE FOR CARRYING OUT THE INVENTION [0014]
Hereinafter, a display device according to an embodiment of the present invention will be described. The display device according to one embodiment of the present invention includes a second light source for activating the photocatalytic film between the display means and the photocatalytic film, and the second light source is self-luminous and non-luminous. The second light source is composed of a thin film that transmits light from the outside. In this way, a dedicated light source for activating the photocatalyst can be provided, so that the location of the screen can be compared with activating the photocatalyst using light generated during display of the display means. The non-uniformity of the dirt removal effect due to the photocatalyst does not occur, the wavelength of the light having a large effect on the activation of the photocatalyst can be freely selected, and there is no addition of a component for emitting light, and the second light source is provided. The photocatalyst can be efficiently activated with almost no effect on the thickness of the display device.
[0015]
Further, a touch panel for operating on the display surface may be provided. By doing in this way, the stain | pollution | contamination adhering to the display surface in the display apparatus provided with the touch panel can be removed efficiently.
[0016]
Moreover, you may provide the 2nd light source for activating a photocatalyst film in a touchscreen. By doing in this way, since the 2nd light source can be manufactured integrally with a touch panel, the efficiency of a manufacturing process and the reduction of a number of parts can be performed.
[0017]
Further, the second light source may be an organic EL element. By doing in this way, an organic EL element can be utilized as a light source which activates a photocatalyst, and the characteristic of organic EL elements, such as self-light emission, thinness, and low power consumption, can be provided.
[0018]
Further, the second light source may select and irradiate a light-emitting area in an operable area of the touch panel. By doing so, the photocatalyst can be activated only in the light emitting area where the touch panel can be operated.
Example [0019]
A liquid crystal display 1 with a touch panel as a display device according to an embodiment of the present invention will be described with reference to FIG. The liquid crystal display 1 with a touch panel is used for, for example, a car navigation system, and a touch panel is formed on the display surface of the liquid crystal display.

[0005]
It is.
[0028]
That is, when the touch panel unit 3 is touched, the touched portion of the transparent conductive film 3b1 is in contact with the transparent conductive film 3b2, thereby detecting a change in resistance. It is performed by a control means (not shown) connected through 3d, and an operation corresponding to the touched position is performed in a device or the like equipped with the liquid crystal display 1 with a touch panel.
[0029]
The organic EL unit 4 as a second light source is provided in the lower layer of the touch panel unit 3, and includes an anode 4 a, a light emitting layer 4 b, and a cathode 4 c, and serves as a light source for activating the photocatalytic layer 2. That is, the organic EL unit 4 outputs light having a wavelength that can activate the photocatalytic layer 2.
[0030]
The anode 4 a is a transparent electrode made of ITO and is formed in the lower layer of the touch panel portion 3.
[0031]
The light emitting layer 4b is an organic EL element composed of an organic EL compound such as a polymer material or a low molecular material, and is formed under the anode 4a.
[0032]
The cathode 4c is a metal electrode formed of aluminum or the like, and is formed below the light emitting layer 4b.
[0033]
In the organic EL unit 4, when a voltage is applied between the anode 4a and the cathode 4c, the organic EL element of the light emitting layer 4b emits light, and this light activates the photocatalytic layer 2. That is, the organic EL unit 4 serves as a self-luminous light source.
[0034]
The liquid crystal display unit 5 as a display means is a well-known TFT type active matrix liquid crystal display in which a polarization filter, a glass substrate, a color filter, a transparent electrode, a liquid crystal, a TFT transparent electrode and the like (not shown) are laminated. The liquid crystal display unit 5 displays video and the like from an input terminal (not shown).
[0035]
The backlight 6 is a backlight for the liquid crystal display unit 5 and includes a cathode fluorescent lamp or a cathode fluorescent lamp and a light guide plate.
[0036]
Next, the operation | movement at the time of removing the stain | pollution | contamination adhering to the display surface in the liquid crystal display 1 with a touchscreen which consists of the structure mentioned above is demonstrated.
[0037]
The removal of dirt adhering to the display surface of the liquid crystal display 1 with a touch panel can be

Claims (5)

In a display device in which a photocatalyst film is provided on the display surface of a display means for displaying characters or images,
A display device comprising a light source for activating the photocatalytic film between the display means and the photocatalytic film.   The display device according to claim 1, further comprising a touch panel for operating on the display surface.   The display device according to claim 2, wherein the touch panel includes the light source.   The display device according to claim 1, wherein the light source is a thin film that emits light from the outside of the light source when the light source emits light and does not emit light.   The display device according to claim 1, wherein the light source is an organic EL element.

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