JP2000331557A - Light emitting display device with touch panel sensor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thin image display device with a touch panel sensor facilitating changing and modifying information displayed on the image display device. SOLUTION: A sheet like organic electroluminescence light emitter 11 constituted by arranging multiple orgaric electroluminescence light emitting elements 8 having a transparent positive electrode layer 5, an organic light emitting material layer 6, and a transparent negative electrode layer 7 laminated in this order in two dimensioned directions, and having terminals for an electric connection with an external power supply is airtightly contained inside a flat box like container 13 having low moisture permeable transparent plates on both sides to form an organic electroluminescence light emitting display 1. A touch panel 2 is placed on a part of or an entire part of at least either surface of the organic electroluminescence light emitting display 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image display device with a touch panel sensor used for an information input terminal or the like.

[0002]

2. Description of the Related Art An image display device with a touch panel sensor in which a touch panel sensor is superimposed on a display screen of an image display device is an information input terminal such as an automatic teller machine (ATM) or a ticket vending machine, or information such as traffic information. Show,
It is widely used as an information display device for guiding. Conventionally, in this type of image display device with a touch panel sensor, the image display device is a CR tube type display device such as CR.
T and a liquid crystal display device are generally used.

[0003]

The above-mentioned image display device with a touch panel sensor is desired to be thin so that it can be installed in various places. However, a CRT is larger in volume and weight than a liquid crystal display device.
There is a problem that it is difficult to form a thin shape in an image display device with a touch panel sensor using an RT. on the other hand,
Even with an image display device with a touch panel sensor using a liquid crystal display device as the image display device, the liquid crystal display device requires a light source (backlight), so there is a limit to the reduction in thickness. There is a problem that the image is difficult to see depending on the viewing angle because the angle is narrow. For the above reasons, the installation location of the conventional image display device with a touch panel sensor is limited.

Further, in the above-described image display device with a touch panel sensor, it is necessary to convert all information to be displayed on the image display device into an electric signal and record it in a memory or the like. There is also the problem that it takes time to create, change or modify.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide an image display device with a touch panel sensor which is thin and easy to create, change or correct information to be displayed on the image display device. is there.

[0006]

Means for Solving the Problems The present inventors have made intensive studies to solve the above problems, and as a result, a transmissive organic electroluminescence (hereinafter abbreviated as EL) light emission which has been actively studied in recent years. Since the transmissive organic EL light-emitting display device composed of elements can transmit information visible from the back of the image display device because it is transparent to visible light, the image display device with a touch panel sensor using the same can be used as an image display device. It has been found that the information to be displayed can be greatly reduced.

Accordingly, the present invention comprises a plurality of organic electroluminescent light emitting elements in which a transparent positive electrode layer, an organic light emitting material layer, and a transparent negative electrode layer are laminated in this order, arranged in a two-dimensional direction. An organic electroluminescent device in which a sheet-shaped organic electroluminescent luminous body having terminals for electrical connection with an external power supply is hermetically sealed inside a flat box-shaped container having low-moisture-permeable transparent plates on both sides. An organic electroluminescent light emitting display device with a touch panel sensor, wherein a touch panel sensor is arranged on at least a part or all of one surface of the luminescent light emitting display device.

In the above-mentioned organic electroluminescent light emitting display device with a touch panel sensor, when the touch panel sensor is brought into contact with the surface thereof, a position signal for specifying the touched position is output, and the organic electroluminescent light emitting display device is provided. However, even if the touch panel sensor is to display specific information predetermined in relation to the position information, an output signal is output by touching the surface of the touch panel sensor, and the organic electroluminescent light emitting display device However, specific information may be displayed.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, an organic EL device used in an organic EL light-emitting display device with a touch panel sensor according to the present invention will be described.
The L light emitting display will be described. The organic EL light-emitting display device can be made thinner, lighter, and lower in power consumption than a CRT, which is a CRT image display device, and is used as a display device of a portable personal computer or the like. Compared to a liquid crystal display device, it is self-luminous and does not require a backlight, has advantages such as a high response speed and a wide viewing angle, and is expected to be a next-generation display device. .

The organic EL device used in the above-mentioned organic EL display device generally includes a positive electrode layer, an organic light-emitting material layer containing an organic light-emitting material and a fluorescent dye (dopant), and a negative electrode. The layers are stacked in this order, and holes (holes) are injected from the positive electrode layer, electrons are injected from the negative electrode layer, and the electrons and holes are re-injected into the organic light emitting material layer. An element that emits light by emitting light (fluorescence, phosphorescence) when the exciton is deactivated by generating an exciton (exciton) by coupling. Therefore, the organic EL light emitting device using the visible light transmissive electrode material for the positive electrode layer and the negative electrode layer can emit or emit light from the organic light emitting material layer from both sides of the positive electrode layer and the negative electrode layer. It can transmit visible light when the organic EL light emitting element does not emit light. A transmission type organic EL device using such a transparent positive electrode layer and a transparent negative electrode layer is already known, and its configuration is described in, for example, JP-A-10-125469.

FIG. 1 shows an organic E with a touch panel according to the present invention.
2 and 3 are cross-sectional views of an example of the L light emitting display device, and perspective views of the example are shown in FIGS. The organic EL display device 1 with a touch panel includes a touch panel sensor 2 that outputs a position signal or an output signal by contacting the surface thereof, and a transmission type organic EL display device 3. In use, the organic EL light-emitting display device with a touch panel sensor 1 converts an information signal stored in a memory or the like into electric energy based on a position signal or an output signal output from the touch panel sensor 3. Then, an external power supply 4 to be supplied to the organic EL light emitting display device 2 is connected.

The location of the touch panel sensor 2 is not particularly limited as long as it is located on at least one surface of the organic EL light emitting display. As shown in FIG. 2, when the touch panel sensor is disposed on the entire surface of the organic EL light emitting display device, the touch panel sensor is transparent or translucent so that the image displayed on the organic EL light emitting display device can be seen. Is essential, and it is more preferable that the touch panel sensor outputs a position signal that specifies a position where a human hand, an input device, or the like has touched. On the other hand, when the touch panel sensor is arranged in a part of the organic EL light emitting display device as shown in FIG. 3, depending on the size,
The touch panel sensor need not be transparent or translucent. The method for fixing the touch panel sensor and the transmissive organic EL light-emitting display device is not particularly limited, and may be fixed using, for example, an adhesive or an adhesive tape.

The structure of the touch panel sensor 2 is not particularly limited, and a known one can be used. For example, as an example of a touch panel sensor that outputs a position signal specifying a position touched by a human hand, a touch panel sensor of various types such as an analog capacitive coupling type, a resistive type, an ultrasonic type, and an infrared type may be used. Can be.

Next, the organic EL display will be described in detail. The organic EL light-emitting display device 3 includes a plurality of transmissive organic EL light-emitting elements 8 in which a transparent positive electrode layer 5, an organic light-emitting material layer 6, and a transparent negative electrode layer 7 are laminated in this order. A sheet-shaped organic EL luminous body 11 having a terminal 10 for electrical connection with the external power supply 4 is arranged on a substrate 9, and a transparent or translucent plate 12 a having low moisture permeability on both sides, Flat box-shaped container 1 made of 12b
3 is housed in an airtight state. This organic E
The visible light transmittance of the L light emitting display device is preferably 70% or more, more preferably 80% or more.

As the material of the transparent positive electrode layer 5, SnO ₂ , indium oxide (IZO) doped with zinc, polypyrrole doped with a dopant, etc. can be used in addition to indium oxide (ITO) doped with tin.
The thickness of the transparent positive electrode varies depending on its material, but is generally 5 to 500 nm.

The transparent cathode layer 7 is made of the above-mentioned JP-A-10-1.
As described in Japanese Patent No. 25469, it may be composed of a conductive layer that transmits visible light and a transparent electrode layer, and the conductive layer is disposed so as to be located on the organic light emitting material layer side. Preferably, between the conductor layer and the transparent electrode layer,
It is more preferable to provide a buffer layer having a function of preventing oxidation of the conductor layer. As the material of the conductor layer, Mg.
Alloys based on alkali metals or alkaline earth metals such as Ag and Mg.In, and intermetallic compounds such as Al.Ca and Al.Li can be used. It is necessary to reduce the thickness of this conductive layer until it transmits visible light. The thinner the thickness, the higher the visible light transmittance, but if the thickness is too small, the strength and the like decrease. Generally, the thickness of the conductor layer is 3 to 10 nm. As a material for the transparent electrode layer, gold such as ITO and IZO can be used. In particular, IZO or gold is preferable because the electrical resistance is low even without performing a heat treatment after the formation. The thickness of the transparent negative electrode layer is generally 50 to 50 when ITO or IZO is used.
500 nm, and 8 to 10 nm when gold is used.
It is. And, as the material of the buffer layer, Ti, C
Metals such as r and Ta, and nitrides thereof are exemplified. The thickness of this buffer layer is generally 5 to 20 nm.

The types of the organic light emitting material and the fluorescent dye contained in the organic light emitting material layer 6 are not particularly limited, and known materials can be used. The organic light-emitting material, tris (8-quinolinolato) aluminum (Alq ₃₎ aluminum quinolinol complexes such as are generally used. Examples of the fluorescent dye include coumarin, a DCM derivative,
Quinacridone, perylene, rubrene and the like.
A desired emission color can be obtained by selecting these fluorescent dye materials. In addition, a hole injection / transport layer for facilitating injection of holes into the organic light emitting material layer is provided on the transparent light emitting layer side of the organic light emitting material layer, and an organic light emitting material layer is similarly provided on the transparent negative electrode layer side. May be provided with an electron injection / transport layer for facilitating electron injection. The layer constitution of these organic light emitting material layers is described, for example, in “Polymer” Vol. 47, July issue (199).
8 years) 457-460, etc., and are publicly known.

The hole injection / transport layer may be a single layer or a laminate of two or more layers. The material is not particularly limited, and a known material can be used. Specific examples include a tetraarylbendicine compound, an aromatic amine, a pyrazoline derivative, and a triphenylene derivative. A preferred example is tetraphenyldiamine (TPD). The thickness of the hole injection transport layer is preferably from 2 to 200 nm.

The electron injecting and transporting layer may be a single layer or a laminate of two or more layers. The material is not particularly limited, and a known material can be used. Specific examples include organometallic complexes, oxadiazole derivatives,
And stilbene derivatives. The thickness of the electron injection transport layer is preferably from 5 to 300 nm.

The organic EL light emitting element 8 is formed by sequentially forming a transparent positive electrode layer (or transparent negative electrode layer), a luminescent material layer, and a transparent negative electrode layer (or transparent positive electrode layer) on a transparent substrate 15. By first forming a transparent positive electrode layer on a transparent substrate, then a luminescent material layer,
It is common to form a transparent negative electrode layer. The method for forming the transparent anode layer, the transparent cathode layer, and the light emitting material layer is not particularly limited, and a known method can be used. In general, the transparent anode layer and the transparent cathode layer are formed by vacuum deposition, direct current (DC) sputtering, radio frequency (RF) sputtering, or the like. Method, a casting method, an LB method and the like are used. Further, also when forming the hole injection transport layer and the electron injection transport layer, there is no particular limitation on the formation method, vacuum evaporation method,
A spin coating method, a casting method, an LB method, or the like is used. The transparent substrate 15 preferably has a visible light transmittance of 80% or more, more preferably 90% or more, and examples of the material include plastic and glass.

In order to obtain a desired image using the organic EL element, it is necessary to pattern the transparent positive electrode layer and the transparent negative electrode layer according to the image. As a method of patterning the transparent anode layer and the transparent cathode layer, a method in which a transparent anode layer or a transparent cathode layer is formed on a transparent substrate in advance and etching is performed, or a method in which the transparent substrate is masked, And a method of forming a transparent negative electrode layer. In addition, a thin film transistor (TFT) element is provided on a transparent substrate according to an application such as obtaining a full-color image by arranging three primary color organic EL elements in a light emitting display device, and a transparent positive electrode layer and a transparent The cathode layer may be patterned.

The organic EL light-emitting display device comprises a sheet-like organic EL light-emitting device 11 in which a terminal 10 is connected to a transparent positive electrode layer and a transparent negative electrode layer of an organic EL light-emitting element formed on a transparent substrate.
Then, the sheet-shaped organic EL light-emitting body 11 can be manufactured by being housed in a flat box-shaped container 13 composed of two transparent or translucent plates 12a and 12b in an airtight state. There is no particular limitation on the method of accommodating the sheet-shaped organic EL luminous body in a flat box-shaped container composed of two plates.
The sheet-like organic EL luminous body may be sandwiched between two plates, and the periphery thereof may be fixed with an adhesive to bond the plates. One of the two plates 12a and 12b forming the flat box-shaped container forms a recess in accordance with the shape of the sheet-shaped organic EL luminous body 11, and accommodates the sheet-shaped organic EL luminous body in the recess. Is preferred. When the two plates are bonded with an adhesive, it is preferable that the adhesive is applied so as to cover the entire periphery of the organic EL element. By covering the organic EL light emitting element with the adhesive, the organic light emitting layer or the electrode layer of the organic EL light emitting element is hardly deteriorated by oxidation or moisture.

The materials of the two plates 12a and 12b are not particularly limited, and the materials may be different from each other. However, the visible light transmittance is preferably 80% (more preferably 90%) or more. Specific examples of the material of such a plate include plastic and glass, and glass is generally used. The type of the adhesive is not particularly limited, and examples thereof include an adhesive such as an epoxy adhesive, a silicone adhesive, and an ethylene-vinyl acetate adhesive.

Organic EL with Touch Panel Sensor of the Present Invention
The light emitting display device transmits visible light when the organic EL light emitting display device is not displaying information. The organic EL light-emitting display device with a touch panel sensor of the present invention having such characteristics can be used for various uses other than the information input terminal. Hereinafter, application examples of the organic EL light emitting display device with a touch panel according to the present invention will be described with reference to the drawings.

FIG. 4 shows an organic EL with a touch panel sensor.
It is a figure which shows the state in which the light emitting display device was installed in the box-shaped storage case which accommodated articles (apples). As shown in the figure, the article (apple) 15 stored in the storage case 14 can be viewed from outside through the organic EL light emitting display device 1 with a touch panel. Then, by touching the touch panel sensor 2 corresponding to the article (apple), specific information (for example, the place of production and price of the apple) on the article (apple) 15 is displayed on the organic EL light emitting display device 3.
The storage case having such a configuration can be used as a display case of a store or the like. Further, by touching a touch panel sensor located corresponding to a product stored in the display case, the product may be ordered.

FIG. 5 shows an organic EL with a touch panel sensor.
It is a figure which shows the state which arrange | positioned the light emitting display on the sheet | seat with which the picture (Japan) was attached. Similarly to the above storage case, the picture (Japan) 17 attached to the sheet 16 can be viewed from outside through the organic EL light emitting display device with the touch panel. Then, by touching the touch panel sensor 2 corresponding to a part of the picture (Japan), the organic EL light emitting display 3
Then, specific information related to the position information (for example, a local specialty product) is displayed. In the information display device having such a configuration, only the specific information needs to be stored in the memory in the external power supply (there is no need to store a Japanese picture). Less. In particular, by storing specific information to be displayed by the organic EL display device on the sheet and connecting a reader for reading the information stored on the sheet and a memory for storing the read information to an external power supply, Different specific information can be displayed.

Sheet 16 includes pictures (including photographs), characters,
The shape and the like are not particularly limited as long as predetermined information is transmitted by at least one of the symbol and the symbol, or a combination thereof. In addition, C
A display device such as an RT or a liquid crystal display device may be used. Further, a sheet provided with a picture of an animal, a plant, or the like can be used as an educational tool for educating its name or character. Alternatively, the present invention can be used as an electronic musical instrument that outputs a predetermined sound in accordance with position information output from a touch panel sensor using a sheet with a picture such as a piano keyboard.

The application range of the organic EL light-emitting display device with a touch panel according to the present invention is not limited to the above example, and it can be used as a display / display keyboard of a small computer such as a wristwatch with a computer. Further, it can be used as a key or button with a light emitting element such as a mobile phone or a keyboard.

[0029]

The organic E with a touch panel sensor of the present invention
The L light-emitting display device has a thinner shape and a wider viewing angle than a conventional image display device with a touch panel sensor, and can be installed in various places. Furthermore, the organic EL light-emitting display device with a touch panel sensor of the present invention,
Since it has visible light transmittance, information that can be viewed from the back of the organic EL light emitting display device can be used, so that information displayed on the image display device can be reduced. Therefore, it is easy to create, change, or modify information to be displayed on the image display device. Furthermore, by using the information viewed from the back, the information displayed on the organic EL light emitting display device can be seen three-dimensionally.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of an example of an organic electroluminescence light emitting display device with a touch panel sensor according to the present invention.

FIG. 2 is a perspective view of an example of an organic electroluminescence light emitting display device with a touch panel sensor according to the present invention.

FIG. 3 is a perspective view of another example of the organic electroluminescence light emitting display device with a touch panel sensor of the present invention.

FIG. 4 is a perspective view of an example of a storage case using the organic electroluminescent light emitting display device with a touch panel sensor according to the present invention.

FIG. 5 is an example of an information display device using the organic electroluminescence light emitting display device with a touch panel sensor of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 Organic EL light-emitting display device with touch panel sensor 2 Touch panel sensor 3 Organic EL light-emitting display device 4 External power supply 5 Transparent positive electrode layer 6 Organic light-emitting material layer 7 Transparent negative electrode layer 8 Organic EL light-emitting element 9 Transparent substrate 10 Terminal 11 Sheet-shaped organic EL luminous body 12a, 12b plate 13 flat box-shaped container 14 storage case 15 article (apple) 16 sheet 17 picture (Japan)

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Hideki Yanagisawa 1382-1, Shino Oto, Tobu-cho, Oguni-gun, Nagano Prefecture Inside Mimaki Electronic Components Co., Ltd. 1382 No. 1 F-term in Mimaki Electronic Components Co., Ltd. (reference) 5G435 AA18 BB05 BB15 CC02 DD00 DD16 EE02 EE12 FF11 GG25 GG26 HH02 HH18

Claims (5)

[Claims] 1. A plurality of organic electroluminescent light emitting elements in which a transparent positive electrode layer, an organic light emitting material layer, and a transparent negative electrode layer are stacked in this order, are arranged in a two-dimensional direction, and are configured with an external power supply. Organic electroluminescent light-emitting display device in which a sheet-shaped organic electroluminescent light-emitting device having terminals for electrical connection of the above is housed in a hermetically sealed state inside a flat box-shaped container having both surfaces made of a transparent plate having low moisture permeability. An organic electroluminescent light-emitting display device with a touch panel sensor, wherein a touch panel sensor is arranged on at least a part or all of one of the surfaces. 2. A touch panel sensor outputs a position signal for specifying a touched position when the touch panel sensor is touched on the surface thereof, and the organic electroluminescent light emitting display device is determined in advance in relation to the position information. The organic electroluminescent light emitting display device with a touch panel sensor according to claim 1, wherein the specified information is displayed. 3. The touch panel according to claim 1, wherein an output signal is output when the touch panel sensor is brought into contact with a surface of the touch panel sensor, and the organic electroluminescence display device displays specific information. Organic electroluminescent display with sensor. 4. The organic electroluminescent light-emitting display device with a touch panel sensor according to claim 1, wherein the organic light-emitting display device is provided on at least one surface of a box-shaped storage case, and is mounted on the case. An organic electroluminescence light-emitting display device with a touch panel sensor, wherein the organic electroluminescence light-emitting display device displays specific information on the article by contacting a corresponding touch panel sensor. 5. The organic electroluminescence light-emitting display device with a touch panel sensor according to claim 1, wherein at least one of a picture, a character, and a symbol, or a combination thereof. The organic electroluminescence display device is installed on a display device or a sheet for transmitting predetermined information, and by touching a touch panel sensor corresponding to the predetermined information, the organic electroluminescent display device displays specific information on the predetermined information. Organic electroluminescent display with touch panel sensor.