WO1988002459A1 - Light emitting apparatus - Google Patents

Abstract

A light emitting apparatus can be set without substantially any restrictions on the place of installation thereof because a multiple light emitting diode is used. As a result, the light emitting apparatus can now be used for purposes which could not have been thought of in the past, owing to the following advantages: 1) the dimensions of a light emitting portion of the apparatus are reduced greatly, and the mechanical strength thereof is increased, so that the lifetime of the apparatus becomes semipermanent; 2) the height of the light emitting apparatus is reduced; 3) the apparatus can be satisfactorily operated on an easy-to-carry and safe dry cell without using a commercial power source. Owing to these advantages, the light emitting apparatus can be used safely even when the apparatus is attached to a moving object or the clothes of a walker.

Description

 Details

Light emitting device

Industrial applications

 The present invention relates to a light-emitting device used for decorations inside or outside a building, or for display.

• Conventional technology

 Conventionally, there has been a light emitting device in which a light emitting element is mounted on a tape-shaped conductive wire as shown in FIG. In Fig. 10, 5 is a light emitting device. 3 is an insulator, 4 is a tape-shaped conductor, 6 is a light emitting tube, and 7 is a socket. The lamp used as the arc tube 6 is a light bulb or a white light bulb. FIG. 1 shows a circuit in the case of using a new runner. 8 is an external resistor, 9 is a lamp, and 9_1 is an electrode. A circuit in the case of using an incandescent light bulb is shown in FIG. 12 '. 1 〇 is a white light bulb, 10 — is a filament. ,

 When a power supply is connected to the tape-shaped conductor 4, a current is applied to an arc tube 6, which is a light bulb or a white light bulb, and emits light.

 This kind of light emitting device was used in a building or a Christmas tree.

* Problems that the idea is to solve

 In the previous term, the conventional light-emitting device had the following drawbacks, so the installation location was greatly restricted. For this reason, there is a problem in that it can be used only for an extremely narrow range of applications. The present invention overcomes this problem and provides a light emitting device used for a wide range of applications.

 The first disadvantage of the conventional light emitting device is that it is destroyed and its life is short. The light-emitting element of the light-emitting device 5 was broken by a glass bulb, and was easily broken, and the life was relatively short due to a poor discharge state or cut off of the filament. As a result, maintenance work, such as replacing tubes, was difficult.

The second disadvantage is that the length from the surface of the tape-shaped electric wire to the top of the arc tube 6 is large and bulky. Fig. 13 shows a side view of the light-emitting element mounting part. To mount the light-emitting bulb 6 as a light-emitting element, first attach the socket 7 to the tape-like electric wire, and then attach the light-emitting bulb to this socket 7. 6 was installed. The length with the arc tube 6 attached is It was even one centimeter long. In addition, in FIG. 13, 7-1 is a terminal of the socket 7.

 A third disadvantage is that batteries are used as power sources. When the luminous bulb was a Neon lamp, at least a voltage of 50 to 60 V was required to emit light, so that it could not be emitted with a dry cell. In addition, the electric current capacity of the incandescent lamp was large, and using a dry battery quickly consumed it, making it impractical. Therefore, it was operated with a large power supply such as a commercial power supply (voltage 100 V, 220 V).

 Due to the above disadvantages, the installation location was limited to a place where a large power supply such as a commercial power supply could be taken, causing a problem. In addition, since it is made of glass and is destroyed, it can be used in places where mechanical vibration and other extremes are available even in places where ± power is available. I couldn't do it and I had problems.

• Means to solve the problem

 In order to solve the above problems, in the light emitting device according to the present invention, a plurality of conductors arranged in parallel and one terminal of the conductor are connected to each other and the other is connected to the other. A plurality of multi-emitting diodes connected to the terminals and arranged at intervals in the longitudinal direction of the conductor; and a conductive portion of the multi-emitting diode and the conductor are completely covered and molded. And at least an insulator, and energize through the conductor to emit light from the multi-emitting diode. ,

•Example

 Fig. 1 shows an embodiment of the present invention. Fig. 1 (a) is a perspective view of the whole, Fig. 1 (b) No (e) shows the cross-sectional shape of the conductor, Fig. 1 is a light emitting device, and 2 is a multi light emitting diode , 3 are insulators, and 4 is a conductor As conductors, various cross-sections are conceivable. In addition to the simple tape-shaped conductor shown in Fig. 1 (b), for example, Fig. 1 ( (C) As shown in (e), the cross section may be circular, square or triangular, etc. It is naturally possible to make the conductor 4 thinner and thicker. The flexibility is a, and it is possible to arrange with various fine keys.

 Attach the multi-emitting diode 2 to the electrode consisting of the insulator 3 and the conductor 4 at intervals. The intervals can be large, small and almost intermittent.

The multi-emitting diode is formed by connecting a plurality of light-emitting diodes in series or parallel and molding them into a body. Originally, a light-emitting diode element, which is a solid-state element, is integrally molded, so that a multi-light-emitting diode is also strong. In addition, since they are made of semiconductors, their life is semi-permanent. FIG. 2 shows the circuit of FIG. 1, but here, a circuit in which four light emitting diode elements 2-1 are connected in series is shown. 2-2 is a light emitting diode when a reverse voltage is applied by mistake. Use a protective guard to protect your computer. Therefore, protective diode 2-2 is not always necessary for light emission, and is not necessary. The number of light emitting diodes connected in series is not limited to four, but may be five or six. Not only those connected in series, but also those in which series and parallel are combined as shown in Fig. 3 and those which are connected in parallel as shown in Fig. 4. In addition, the multi-light emitting diode has a much higher light quantity than the light emitting diode in which only the light emitting diode element is molded. There are various colors such as red, green and white.

 Two conductors 4 are arranged in parallel, and a multi-emitting diode 2 is connected between the two conductors 4. The number of the conductors 4 can be three. In this case, it is only necessary to connect the central line to the common line and connect the multi-light emitting diode between this common line and one of the remaining two lines. However, how to make them parallel is not limited to only straight lines. It can be curved in an arc, curved in an S-shape, or spiral. FIG. 5 is an enlarged front view of a portion where the multi-light emitting diode 2 is attached to a tape-shaped electrode. FIG. 6 is a side sectional view thereof. In the figure, 2-3 is a terminal, 3 is an insulator, and 4 is a tape-shaped conductor. The terminals 2-3 are connected to the tape-shaped conductor 4 by an appropriate known method. It is desirable that the material of the insulator 3 formed by covering the conductive portion with the insulator 3 be flexible. 'Also, it can be transparent or colored. When mounted in this way, the height h from the surface of the tape-like electric wire of the multi-light emitting device 2 is as low as only 2 to 3 mm. -FIG. 7 FIG. 9 shows various examples of the shape of the multi-emitting bed 2. Considering the decorative effect, it is possible to select any shape such as triangle, quadrangle, hexagon, etc.

 In order to cause the light emitting device 1 to emit light, a current is connected to the conductor 4 so that a current flows in the direction of the condyle of the light emitting diode 2-1. The light-emitting diode consumes very little power and operates at low voltage, so it can be used as a power source for dry cells. The power supply voltage can take various values such as 3 V, 6 V, 12 V, and 24 V depending on the arrangement of the light emitting diode elements. In some cases, a voltage of about 1 O O V may be used. · Effect of invention

 According to the above-described present invention, the installation location of the light-emitting device is hardly restricted. As a result, it has been used for applications that have never been considered before. This is the greatest effect of the present invention.

In other words, the light-emitting section has been made much smaller and mechanically stronger, and its life has become semi-permanent. Together with ぇ, it was also used for moving objects, people. For example, it can be attached to the body of a car or bicycle and used for decoration display. It can be attached to the helmet clothing of people working in the dark at night, and can be used as a security sign. Also, it can be attached to people's heads, necks, limbs, etc. at parties, disco or theater, etc. You can increase the drama effect. In addition, according to the present invention, it was possible to open up a way that the above-mentioned conventional light emitting device was not even considered. In addition, due to the mechanical strength, the service life is semi-permanent, and the height of the light emitting element has been reduced, so that the maintenance and management has become easier, and the compactness has been improved.ぁ

BRIEF DESCRIPTION OF THE FIGURES

 Fig. 2 shows an optical device according to an embodiment of the present invention. Fig. 2 is a circuit diagram of an embodiment of the present invention.

 Fig. 3 and Fig. 4 Other circuit diagrams of the multi-emitting diode used in the present invention

 Fig. 5 Enlarged front view of the mounting part of the multi-emitting diode Fig. 6 Cross-sectional side view of the mounting part of the multi-emitting diode Fig. 7, Fig. 8, Fig. 9 ... Multi-emitting diode used in the present invention Examples of other shapes

 Fig. 10 Perspective view of conventional light emitting device

 Fig. 11 Circuit when a light bulb is used as a light emitting element Fig. 12 Circuit when a mature white light bulb is used as a light emitting element Fig. 13 Side view of a light emitting element mounting portion in a conventional light emitting device

• Side view of the cliff

In the figure, the symbol indicates a light emitting device, 2 indicates a multi-emitting diode, 2-1 indicates a luminescent diode element, 2-2 indicates a protective diode, and 2-3. Is a terminal, 3 is an insulator, 4 is a conductor, 5 is a light emitting device, 6 is an arc tube, 7 is a socket, 7-1 is a terminal, 8 is an external resistor, and 9 is a lamp. 9-1 is an electrode, 10 is an incandescent lamp, and 10-1 is a filament.

Claims

β

 PCT / JP87 / 00697O 88/02459

*The scope of the claims

 A plurality of conductors arranged in parallel, and a plurality of conductors connected to one terminal of one of the conductors and connected to the other terminal of another and spaced apart in the longitudinal direction of the conductor A plurality of multi-emitting diodes, at least a conductive portion of the multi-emitting diode, and a body formed by insulatingly coating the conductor. A light-emitting device for which light emission is required.