JPH0233889A - Electroluminescence - Google Patents

Abstract

PURPOSE:To make the masking shadow working unnecessary by providing electrically conductive paste laminated in an arbitrary shape on an electroluminescence member through screen printing so that the electroluminescence member emits light in accordance with the laminated shape of the electrically conductive paste. CONSTITUTION:A first transparent electrically conductive layer 2 is provided on one side of a transparent support 1 consisting of a plastic film, etc., and an electroluminescence member 3, formed from zinc sulfide or the like, is bonded to the other side of the electrically conductive layer 2. Then, first electrically conductive paste 4 laminated in an arbitrary shape is provided on the member 3 by screen printing, etc., and an electrically conductive sheet 5 is provided in contact with the paste 4. An AC voltage is supplied between the electrically conductive layer 2 and the electrically conductive sheet 5. According to this method, the electrically conductive paste 4 with a predetermined shape is used so that the masking shadow working for determining a patterned electroluminescence region is made unnecessary.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to electroluminescence in which light is emitted by applying an alternating current voltage between a pair of electrodes that sandwich an electroluminescent layer.

[Conventional technology]

Conventionally, electroluminescence has been utilized as a planar light emitting device, and when a patterned light emitting region is required, masking shadow processing is performed outside the patterned light emitting region. Furthermore, when the electroluminescent body emits light, a switch such as a transparent type provided in front of the power source or the electroluminescent device is operated.

[Problem to be solved by the invention]

Since the above-mentioned conventional electroluminescence is a planar light emitting device, if a patterned light emitting region is required, it is necessary to perform masking shadow processing on the surface of the transparent support, which is often touched by people's hands. Therefore, scratches that occur on the masking shadow applied to the surface of the transparent support,
The boundaries of the patterned light emitting area became unclear due to dirt, and light often leaked due to deterioration of the masking shadow processing area. Furthermore, when masking, electronic luminescence was treated as a single plate, and the situation behind it could not be confirmed. On the other hand, the light emitting operation of the light emitting element is left to the switching operation of the power supply section, etc., and the range of application is also limited from the design point of view.

The present invention solves such drawbacks by using a conductive paste of a predetermined shape laminated on an electroluminescent layer.
The purpose of the present invention is to provide an electroluminescent device that allows the light emitting region of the electroluminescent layer to be selected without masking and shadow processing, and also has a built-in function.

[Means to solve the problem]

To achieve the above object, in the present invention, in order to determine the patterned light emitting area of the electroluminescent body, a conductive paste is laminated on the electroluminescent body, and an alternating current voltage is applied to the conductive paste from a conductive sheet.

That is, the first transparent conductive layer 2 is formed on one side of a transparent support 1 made of a plastic film or the like, and the other side of the first transparent conductive layer 2 is made of zinc sulfide or the like. It is composed of an electroluminescent body 6, a first conductive paste 4 laminated in an arbitrary shape by screen printing or the like on the electroluminescent body 6, and a conductive sheet adhered to the first i4 conductive paste 4. There are many things. In this case, it is also possible to use Ag paste instead of the conductive sheet.

Alternatively, the electroluminescent body 3 and the first conductive paste 4 may be laminated in the same arbitrary shape by screen printing or the like, and the periphery of the electroluminescent body 3 may be used as the light transmitting portion 22. This case has the advantage of being able to grasp the situation behind electroluminescence. It is also good to arrange an insulating material between the first transparent conductive layer 2 and the conductive sheet to prevent electrical short circuit between the first transparent conductive layer 2 and the conductive sheet. In this case, it is also possible to perform an etching treatment on a part of the first transparent conductive layer 2 to prevent electrical short-circuiting between the first transparent conductive layer 2 and the conductive sheet, Ag paste sheet, etc. . Furthermore, an insulating elastic material such as silicone rubber or U (ultra violet) type ink 10 is applied around the first conductive paste 4 so that the first transparent conductive layer 2 and the conductive sheet are elastically separated from each other. the first
It is also good to configure the transparent conductive layer 2 and the conductive sheet to move toward and away from each other depending on the pressing force on the transparent support 1, so that the electroluminescent body 6 blinks.

[Effect]

The electroluminescent body 6 used in the electroluminescence of the present invention is a pair of conductive sheets consisting of a first transparent conductive layer 2 and a second transparent conductive layer 7 formed on the upper surface of a conductive foil 5 or a back support 6. By applying an alternating current voltage between the electrodes, the light is excited and recombined with electrons, emitting light. The first conductive paste 4, which is uniformly laminated on the electroluminescent body 3, is adhered to a conductive sheet that becomes one electrode, but even if it is not uniformly adhered, the first conductive paste 4 The paste 4 has a uniform potential, and the electroluminescent body 30 and the light emitting portion 20 are formed in a laminated shape of the 4'll type paste 4 so as to uniformly emit light.

Naturally, the portion of the first four-layer paste 4 that is not laminated does not emit light even if the electroluminescent body 6 is present. Further, the first conductive paste 4 and the conductive sheet are elastically separated by an insulating elastic material 13, and the first conductive paste 4 and the conductive sheet are elastically separated by an insulating elastic material 13. The conductive paste 4 and the conductive sheet are pressed together to form an electroluminescent body 3.
't-Can emit light.

〔Example〕

The present invention will be described in detail below based on the drawings.

FIGS. 1a and 1b are explanatory diagrams of an embodiment of electroluminescence using a sheet-like electroluminescent material. FIG. 1a is a plan view and FIG. 1 is a side sectional view.

In the figure, 1 is a transparent support made of a transparent material such as polyester (PET) or glass, and has indium oxide on the bottom surface.
A first transparent conductive layer is formed by depositing or baking tin oxide or the like. Reference numeral 6 denotes an electroluminescent material, which is applied to the entire surface of the transparent conductive layer 2 by printing, coating, etc., and is made of zinc sulfide or the like. Reference numeral 4 denotes a first conductive paste made of silver paste or the like, which is laminated onto the sheet-shaped electroluminescent body 6 in an arbitrary shape by printing or coating. Reference numeral 5 denotes a conductive foil serving as a conductive sheet, which is provided on the upper surface of a back support 6 made of a plastic plate, a glass plate, etc., and is arranged so as to be adhered to the first conductive paste 4. An AC voltage is applied between the first transparent isoelectric layer 2 and the conductive foil 5, and the AC voltage is applied to the electroluminescent body 3 via the first conductive paste 4 that adheres to the conductive foil 5. is applied, and the light-emitting portion 20 of the electroluminescent body 6 emits light according to the laminated shape of the first conductive paste 4.

The emitted electroluminescent body 3 is connected to the first transparent conductive layer 21. Light is emitted to the outside through the transparent support 1 as shown in FIG. 1a. Of course, when no alternating current voltage is applied to the electroluminescent body 6, there is no light-emitting portion in the sheet-like electroluminescent body 3, and the base of the electroluminescent body 6, which is uniform over the entire surface, can be seen. Reference numeral 8 indicates an insulating material formed by applying epoxy or UV-based ink, and prevents short-circuit accidents caused by contact between the first transparent conductive layer 2 and the conductive foil 5 at the portions where they directly face each other. Of course, it is also effective to apply the insulating material 8 to the portion of the electroluminescent body 3 on which the first conductive paste 4 is not laminated, which will become the non-light-emitting portion 21, since it will prevent erroneous light emission.

Incidentally, instead of applying the insulating material 8 between the first transparent conductive layer 2 and the conductive foil as shown in FIGS. 1a and b, a part of the first transparent conductive layer 2 is etched and the 1. It is also possible to process and use the transparent conductive layer 2 and the conductive sheet, Ag paste sheet, etc. so that there is no electrical short circuit between them.

Figures 2a and 2b show the electroluminescent body 3 and the first conductive paste 4.
FIG. 2 is an explanatory diagram of an example of electroluminescence in which the materials are laminated in an arbitrary shape by screen printing or the like.

In this explanatory drawing, the same symbols as in Fig. 1 have the same names.
The same parts are shown. The electroluminescent body 6 is deposited under the first transparent conductive layer 2 in an arbitrary shape by screen printing or the like. A first conductive paste 4 is laminated on the entire lower surface of the electroluminescent body 6), and the other portion forms a light transmitting portion 22 through which light is transmitted from the outside. Reference numeral 7 designates a second transparent conductive layer, which becomes a conductive sheet, by depositing or baking indium oxide, tin oxide, etc. on the upper surface of the back support 6. Reference numeral 8 indicates an insulating material that prevents a short circuit between the first transparent conductive layer 1@2 and the second transparent conductive layer 7.

Note that instead of applying the insulating material 8 between the first transparent conductive layer 2 and the conductive foil as shown in FIGS. 2a and 2b, as shown in FIG. A part of the layer 2 is etched to form the first transparent conductive layer 2 and the conductive sheet 5 or A.
It is also possible to use a paste sheet etc. processed so that there is no electrical short circuit between the parts 5'.

FIG. 2a shows a plan view, and FIG. 2a shows a side sectional view.

Here, if the insulating material 8 provided corresponding to the light transmitting part 22 is an opaque colored material, or if a colored material is used for the back support 6, even if the electroluminescent body 6 does not emit light, characters and It is possible to create designs with innovative shapes, colors, etc. In addition, by using transparent materials for both the insulating material 8 and the back support 6, it is possible to see through to the back of the electroluminescence, so a wide range of innovations can be applied, whether it is a design for only the electroluminescent body 6 or a comprehensive design that devises the back of the electroluminescence. becomes possible.

In the embodiments shown in FIGS. 1 and 2 above, a conductive sheet adhered to the first conductive paste 4 was used.
It is also possible to form and use an application circuit by routing it as shown in Figures c and d. In this case, there is an advantage of simultaneous printing.

FIGS. 3a and 3b show an application example of the electroluminescence of the present invention, and are diagrams of an embodiment of the electroluminescence with a built-in switch.

Also in Fig. 3 a%b, Fig. 1 a, b.

The same symbols as in FIGS. 2a and 2b indicate the same names and members. Further, FIG. 3a shows a plan view, and FIG. 3a shows a side sectional view.

Reference numeral 10 is an insulating elastic material such as silicone rubber or UV-based ink, and the first conductive paste 4 and the second conductive paste 9 are separated from each other in the vicinity of the light emitting part 20.
The transparent conductive layer 2 , the conductive foil 5 , and the second transparent conductive layer 7 are sandwiched between a conductive sheet. Therefore, transparent support 1
The first conductive paste 4 and the second conductive paste 9 laminated on the conductive sheet are brought into electrical contact by applying a pressing force to the surface and compressing the insulating elastic material 101. . The AC voltage is applied between the first transparent conductor 7@2 and the conductive sheet, and the electroluminescent body 6 is applied through contact between the first conductive paste 4 and the second conductive paste 9.
An alternating current voltage is applied to it and it emits light. In addition, Figure 3 a゛, b
Although the second conductive paste 9 is laminated on the conductive sheet, the first conductive paste 4 may be brought into direct contact with and separated from the conductive sheet to provide a switch function.

In addition, in Figure 1 a, b, Figure 2 a, b, and Figure 3 a1b, the first transparent conductive layer 2, electroluminescent material 3, first conductive paste 4, conductive sheet, etc. were printed and coated. Although the explanation is based on a material, there is no problem in using an etching treatment after lamination.

〔Effect of the invention〕

According to the present invention, even in electroluminescence that requires a patterned light emitting region, by laminating the first conductive paste 4 on the lower surface of the electroluminescent body B, the laminated shape of the first isoelectric paste 4 can be adjusted. An alternating current voltage is applied to the corresponding "field luminous body" to emit light, and the border of the buttering light emitting area may become unclear due to external dirt or scratches, or the light may be emitted due to poor masking shadow processing, etc. No more problems like leaking.

In addition, by removing unnecessary electroluminescent material 6, insulating material 8
By making the insulating material 8 and the back support 6 transparent, it is possible to create a variety of designs by changing the color of the back support 6 and the back support 6. This has the effect of making more diverse designs possible, such as by making the patterns on the back of the support 6 replaceable.

Furthermore, by attaching and separating the first conductive paste 4 to a conductive sheet serving as a power source, there is an effect that a cisinch function can be incorporated.

[Brief explanation of the drawing]

The drawings show embodiments of the present invention. Fig. 1 is an explanatory diagram of an embodiment of electroluminescence using a sheet-shaped electroluminescent material, and Fig. 2 shows an example of electroluminescence using a sheet-shaped electroluminescent material. FIG. 3 is an explanatory diagram of an electroluminescent device laminated in an arbitrary shape using, for example, an electroluminescent device with a built-in switch. DESCRIPTION OF SYMBOLS 1... Transparent support 2... First transparent conductive layer 6... Electroluminescent body 4... First conductive paste 5... Conductive foil 6... Back support 7. ...Second transparent conductive layer 8...Insulating material 9...Second conductive paste 0...Insulating elastic material 0...Light emitting part...Non light emitting part 2...Light Transparent part patent applicant Midori Mark Manufacturing Co., Ltd.

Claims (6)

[Claims] (1) A first transparent conductive layer formed on one side of a transparent support made of a plastic film or the like; an electroluminescent material made of zinc sulfide or the like adhered to the first transparent conductive layer; The first transparent conductive layer is composed of a first conductive paste laminated in an arbitrary shape by screen printing or the like on the electroluminescent body, and a conductive sheet that adheres to the first conductive paste. An electroluminescent device characterized in that by applying an alternating current voltage between the conductive sheets, the electroluminescent body emits light according to the laminated shape of the first conductive paste. (2) a first transparent conductive layer formed on one side of a transparent support made of a plastic film or the like; an electroluminescent material made of zinc sulfide or the like adhered to the first transparent conductive layer; By applying an alternating current voltage between the first conductive paste laminated in an arbitrary shape by screen printing or the like on the electroluminescent body, the first transparent conductive layer described above, and the conductive sheet, the electroluminescent body can be formed. An electroluminescent device characterized in that it emits light according to the laminated shape of the first conductive paste. (3) The electroluminescent material according to item 1, wherein the electroluminescent material and the first conductive paste are laminated in the same arbitrary shape by screen printing or the like, and the periphery of the electroluminescent material is a light transmitting part. Luminetsu sense. (4) An insulating material is provided between the first transparent conductive layer and the conductive sheet to prevent electrical short circuit between the first transparent conductive layer and the conductive sheet or Ag paste sheet. The electroluminescence according to item 1, characterized in that: (5) Item 1, characterized in that a part of the first transparent conductive layer is etched to prevent electrical short-circuiting between the first transparent conductive layer and a conductive sheet, an Ag paste sheet, etc. electroluminescent sense. (6) An insulating elastic material such as silicone rubber or a UV type ink is disposed around the first conductive paste so that the first transparent conductive layer and the conductive sheet are elastically separated from each other. An electroluminescence device characterized in that the transparent conductive layer of No. 1 and the conductive sheet come into contact with each other in response to pressure applied to the transparent support, causing the electroluminescent material to blink.