KR20030069518A - Touch panel displayer - Google Patents

Abstract

The weight reduction, thinning, low cost, high reliability, and high performance required by the expansion of the demand of the touch panel device have been remarkably improved in comparison with the conventional one. Furthermore, the number of parts was reduced to reduce the weight, and the thickness of the member was reduced or coalesced to achieve thinness, and the cost was reduced by reducing the number of parts and the number of steps.

The present invention comprises a reflective liquid crystal display (LTD cell), a light guide plate provided on an upper surface thereof and having a light source at one end thereof, a spacer and an upper substrate having an electrode, wherein a transparent conductive film is disposed on at least a surface of the light guide plate. It was set as the lower electrode.

Description

Touch panel device {TOUCH PANEL DISPLAYER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch panel, and more particularly, to a touch panel device incorporating a front light.

With the recent expansion of demand for portable terminals (PDAs) and the like, the necessity of lightening, thinning, low cost, high reliability, high performance, and the like of devices is increasing. Background Art In conventional portable electronic devices, reflective liquid crystal displays are used to lower power consumption. Since the reflective liquid crystal display does not use a backlight, it is suitable for portable electronic devices in addition to low power consumption and excellent visibility under external light in outdoor use.

The structure of a typical example touch panel provided with the conventional front light type liquid crystal illuminating device is shown in FIG. In the drawings, 1 is an upper substrate of a touch panel, 2 is an upper electrode plate (ITO), 3 is a spacer (insulating member), 4 is a lower electrode plate (ITO), 5 is a touch panel lower substrate, 6 is a light guide plate, 7 is a reflection A type liquid crystal display (LTD cell), 8 is a reflecting plate, and 9 is a light source of a light guide plate.

In addition, 10 is a continuous acid-shaped light diffusion layer provided in the lower electrode plate 4 side of the said light guide plate 6 as an example, and this light diffusion layer 10 is a reflection type liquid crystal display 7. As shown in FIG. It does not interfere with visibility.

Light from the light source 9 is emitted through the light guide plate 6 to the reflective display 7 surface. Subsequently, the reflected light is emitted to the observation vehicle side through the upper substrate 1 of the touch panel. Based on the information, the observer presses the touch panel with a finger to press the upper electrode plate 2 to press the upper transparent electrode 2. It is common to generate a signal by contacting the lower transparent electrode 4.

In addition, although the illustration and its description are omitted in detail, in order to use the reflective liquid crystal display in an environment such as indoors or at night where sufficient external light is not obtained, it is necessary to illuminate the reflective liquid crystal display from the surface side. Front lights, which are lighting devices in which a light source is positioned above the liquid crystal display, are used.

However, these types of touch panel devices are in the midst of expanding demand, and have not yet reached the emergence of products capable of sufficiently coping with the demands of lightweight, thin, low cost, high reliability, and high performance required. to be.

After years of research and development and creative efforts, it is finally possible to offer products that meet these needs.

Specifically, an object of the present invention is to reduce the number of parts and to reduce the weight, and to reduce the thickness by integrating or reducing the thickness of the member, and to reduce the cost by reducing the number of parts and the number of steps. will be.

In addition, as described above, the simplification of manufacturing and the reduction of the number of parts lead to high reliability, while the transmittance is deteriorated as a fatal defect of liquid crystal, and there is a risk that the performance of a product such as a PDA using a touch panel is deteriorated. It is possible to provide a touch panel device capable of improving.

1 is a schematic cross-sectional view of a typical representative touch panel device,

2 is a schematic cross-sectional view of a touch panel device according to one embodiment of the present invention;

3 is a spectral characteristic diagram obtained in the touch panel device of one embodiment of the present invention;

4 is a schematic cross-sectional view of a conductive film of one embodiment of the present invention;

5 is a schematic cross-sectional view of a conductive film of another embodiment of the present invention;

6 is a spectroscopic characteristic diagram obtained in the touch panel device according to another embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

One … Upper substrate 2. Electrode Plate (ITO)

3…. Spacer (insulating member) 4. Lower Electrode Plate (ITO)

5... Touch panel lower substrate 6. Light guide plate

7. Reflective liquid crystal display (LTD cell) 8. Reflector

9. Light source 10. Light diffusion layer

11. Conductive film 12.. Board

13. First layer 14... 2nd layer

15... Third layer 16... 4th floor

A feature of the present invention is a reflective liquid crystal display (LTD cell), a light guide plate provided on an upper surface thereof and having a light source at one end, a spacer, and an upper substrate having an electrode, wherein the conductive film is transparent on at least the surface of the light guide plate. The lower electrode is arranged.

Another feature of the present invention is that the conductive film has a low reflection structure in which conductivity of the conductive plate is imparted.

Another feature of the present invention is that the conductive film is composed of a plurality of layers, and the surfaces of the plurality of layers are made conductive.

Moreover, another characteristic of this invention is that the material of the said light guide plate was made into the acryl plate, and the light-diffusion layer is provided in the reflection type liquid crystal display (LTD cell) side.

In addition, the transparent light diffusion layer has a substantially sawtooth-like shape projecting in the reflective liquid crystal display direction.

In addition, the present invention has other excellent constitutions, functions, and effects, but these are disclosed in the following examples.

Embodiment

Specifically, the light guide plate of the present invention has a flat upper portion as in the conventional light guide plate, and the light diffusion layer (grating) is formed on the lower portion, but the touch panel and the light guide plate are integrated. In other words, the electrode under the touch panel is provided on the light guide plate, and the touch panel and the light guide plate have an integrated structure by this means.

Since the light-diffusion layer of the light guide plate is fine, it is made by the shaping | molding method using a plastic material. Acrylic, polycarbonate, other cyclic polyethylene, etc. are used as a material. Moreover, in this invention, ITO which is a transparent electrode has a low reflection structure, and since it transmits light efficiently, bright display is attained.

In addition, in the low reflection film, a low refractive material such as SiO ₂ or MgF ₂ is theoretically used as the uppermost layer.

Thus, in the structure of the present invention, the conductive coating is composed of a plurality of layers, and the surfaces of the plurality of layers are shared with the lower electrode of the conductive low reflection function, and the upper portion is sandwiched with a spacer of about 100 microns therebetween. The above difficulty is overcome by providing an electrode.

Moreover, although a plastic and glass substrate are used for an upper electrode, one of the characteristics also used the acryl substrate here. Since this acrylic substrate was a low reflection film, it was excellent in transparency and became the structure which it was easy to see. In addition, since the touch panel and the light guide plate do not need to be combined in the process, cost reduction can be achieved, and scratches of the light guide plate and the touch panel during assembly, which are the causes of scratches, are eliminated at all. In addition, since the number of parts is reduced, the cost of the material cost can be reduced.

In addition, it has been found that the transparent light diffusion layer of the light guide plate has an effect of excellent in light diffusion when the transparent light diffusing layer has a substantially sawtooth shape projecting in the direction of the reflective liquid crystal display.

2 shows an embodiment of the present invention, in which parts that are substantially the same as in the prior art have the same reference numerals.

1 is an upper substrate of a touch panel, 2 is an electrode plate (ITO), 3 is a spacer (insulating member), 6 is a light guide plate, 7 is a reflective liquid crystal display (LTD cell), 8 is a reflector, and 9 is the light guide plate 6 It is a light source installed at one end of).

In addition, 10 denotes a light diffusion layer formed on the reflection type liquid crystal display 7 side of the light guide plate 6, and shown is a continuous substantially sawtooth shape, in which case the light diffusion layer 10 is formed of the reflection type liquid crystal display ( It should not hinder the visibility of 7).

In the present embodiment, a plurality of transparent conductive coatings 11 are arranged on the flat upper surface of the light guide plate 6, and details of the four layers are shown in FIG. That is, 12 is a substrate made of glass or plastic, the first layer 13 made of TiO ₂ , the second layer 14 made of SiO ₂ , the third layer 15 made of TiO ₂ , and the conductive layer. It is the low reflection structure which consists of 4th layer 16 which is phosphorus. At this time, even if the second layer 14 made of SiO ₂ is replaced with MgF ₂ , the same effect is obtained.

(Example 1)

Next, this invention was implemented by manufacture of the touchscreen used for the reflective liquid crystal display (LTD cell) 7. This touch panel has a front light guide plate 6 for illuminating the reflective liquid crystal display 7, and an observer presses the touch panel with a guide rod or a finger or the like based on the information on the reflective liquid crystal display 7. The upper electrode plate 1 and the fourth layer 16, which is the uppermost layer of the conductive film 11, are brought into contact with each other to generate a signal.

In addition, the electroconductive film 11 formed in the flat part of the upper surface of this light guide plate 6 was made into the low reflection electroconductive film. The reflection characteristics at this time were as shown in Fig. 4, and the resistance thereof was about 500? / ?.

In addition, the upper electrode 1 was provided above the conductive film 11 with a spacer 3 of about 100 microns interposed therebetween. The upper electrode 1 is made of a plastic or glass substrate, but an acrylic substrate is used here. That is, since an acrylic substrate is a low reflection film, it was able to make it the structure especially excellent in transparency and easy to see.

Moreover, in this invention, since the touch panel and the light guide plate 6 do not need to be combined in the process, cost reduction is aimed at, and the scratches of the light guide plate 6 and the touch panel after assembly which are the cause of a flaw are eliminated at all, and a part score Since the cost was reduced, the cost of the material cost was reduced.

(Example 2)

A light guide plate-integrated touch panel having the same configuration as in Example 1 was fabricated, and at the same time, the upper surface portion of the light guide plate 6 formed the same low reflection conductive coating 11 as in Example 1, and the reflective liquid crystal display 7 The same low reflection conductive film 11 as Example 1 was formed also in the light-diffusion layer (grating) 10 of the side.

As a result, the transmittance | permeability rose by the low reflection effect by forming such an electroconductive film 11, and it became a touch panel which an observer can see easily. In this case, the cost is slightly higher than that of the first embodiment, but the characteristics are much better than those of the conventional touch panel structure, and the cost can be sufficiently reduced.

(Example 3)

Except for the structure of Example 1 and the low reflection electroconductive film, the touch panel of the same structure was produced. The low reflection structure of this Example is a three-layer structure, and aimed at cost reduction. 5 to 12 are substrates made of glass or plastic, comprising a first layer 13 made of TiO ₂ , a second layer 14 made of SiO ₂ , and a fourth layer 16 serving as a conductive layer. It is a low reflection structure.

The low reflection characteristics in this structure were almost the same as those used in Example 1, further reducing the cost, and as shown in Fig. 6, the same effects as in the above Example were obtained. In this structure, the fourth layer 16 naturally becomes the uppermost layer of the conductive film 11. In this case, the second layer 14 made of SiO ₂ may be replaced with MgF ₂ .

The effect of the present invention is that the assembly process is reduced by the integration of the light guide plate and the touch panel, the incorporation of dust at the time of assembly is reduced, and the scratches generated at the time of assembling the reflective liquid crystal display, adhesion of the glove fingerprint, etc. It is prevented.

Moreover, as a result, the material cost was reduced by reducing the number of parts, and by adopting a low reflection conductive coating, the panel could be made brighter and easier to see than the conventional touch panel type liquid crystal panel.

Claims (6)

Reflective liquid crystal display (LTD cell), A light guide plate provided on the upper surface and having a light source at one end; With a spacer, Consisting of an upper substrate with electrodes, A transparent conductive film is disposed on at least a surface of the light guide plate to form a lower electrode. The touch panel device according to claim 1, wherein the conductive film has a low reflection structure in which conductivity of the conductive plate is imparted. The touch panel device according to claim 1 or 2, wherein the conductive film is composed of a plurality of layers. The touch panel device according to any one of claims 1 to 3, wherein the conductive film is composed of a plurality of layers, and the surfaces of the plurality of layers are made conductive. The touch panel device according to any one of claims 1 to 4, wherein the light guide plate is formed of an acrylic plate. The touch panel device according to any one of claims 1 to 5, wherein a light diffusion layer is provided on the reflection type liquid crystal display (LTD cell) side of the light guide plate.