JP3627079B2 - Radio wave visible light emission type color filter light emitting cable - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to parts or materials for lighting fixtures and display devices.
[0002]
[Prior art]
Conventionally, there has been a “radio-wave ultraviolet light-emitting fluorescent cable (application number: Japanese Patent Application No. 6-187686)”.
[0003]
[Problems to be solved by the invention]
Conventional products have the disadvantage of lack of mood and taste due to strong light. The present invention has been made to eliminate these drawbacks.
[0004]
[Means for Solving the Problems]
In the case of emitting light in color, there are a direct method in which light is emitted directly from a phosphor and an indirect method in which light is transmitted indirectly through a color filter. The conventional product corresponds to the former, but the present invention corresponds to the latter. An outline of the principle of the present invention is to excite a gas enclosed in a microcapsule or the like by radio waves emitted from a core wire, and to pass visible light emitted from this gas through a color filter to obtain light of a necessary color. Of course, it is also known that visible light is emitted from a certain type of gas, which is a radio wave, and that when the light passes through a color filter, it becomes its color. The structure is divided into two according to the frequency of the radio wave, and a strong function can be produced by combining a plurality of light emitting cables into one cable. The one with a relatively low frequency is called a conductor type, and the one with a higher frequency is called a magnetron type. This will be described in detail with reference to the drawings.
FIG. 1 is a conceptual diagram of a conductive wire type light emitting cable. A high-frequency current is passed from the high-frequency current generator (1) to the conductor (2). As a result, a radio wave is generated from the conductive wire (2), and the gas in the insulator (3) including the microcapsules containing gas is excited by this radio wave to generate visible light. This visible light passes through the color filter (4). The transparent conductive film and the coating film (5) are, of course, not to leak unnecessary radio waves to the outside and to prevent scratches from the outside, and allow only visible light to pass through. Neon is used as the gas.
FIG. 2 is a conceptual diagram of a magnetron type light emitting cable. A radio wave is passed from the magnetron (6) to the radio wave transmitting fiber (7). Thereby, a radio wave flows from the radio wave transmitting fiber (7). The following explanation is the same as that of the lead type, and gas excitation and visible light pass through the color filter.
FIG. 3 is a conceptual diagram of a flat cable in which three light emitting cables of different colors are combined into one. The R light emitting cable (8), G light emitting cable (9), and B light emitting cable (10) using the three primary colors of light are arranged to form a flat cable.
[0005]
[Form of the present invention]
The light is emitted indirectly by the color filter, so the light is weak and the light has a mood and taste.
[0006]
【Example】
(A) Light-emitting cable with different gas types.
(B) A light emitting cable in which a color filter is applied to an insulator including microcapsules.
(C) A light-emitting cable with a color filter of a different color on a single cable.
(D) Light emitting cable masked with light emitting cable with tape.
(E) A flexible light-emitting cable using a single wire or stranded wire for the conductor.
(F) A flat cable that bundles multiple light-emitting cables.
(G) Substitutes for lighting and display such as mood lamps and neon signs using flat cables.
(H) A movable lighting display device that uses the ease of bending of the light-emitting cable.
(Li) A digital lighting fixture compatible with multimedia with a personal computer.
(Nu) A digital lighting fixture with a wireless remote control.
(Le) Light bulb type, flat plate type and electric wire type digital lighting fixtures.
(E) Tasteful wall-mounted TV, wall-mounted wide TV, wall-mounted high-definition, thin computer display using digital lighting fixtures.
(W) Mood lamps for home use, stage studio displays, Christmas tree lighting.
[0007]
【The invention's effect】
Although common to conventional ones, combining a digital circuit that can efficiently and easily drive a light emitter using radio waves has the following effects. However, there are differences in mood and taste.
(A) Variable emission color, variable brightness, variable outer shape.
(B) Easy control with digital control.
(C) Consistent with PCs and compatible with multimedia.
(D) The wireless remote control is also consistent.
(E) Non-glare compatible and gentle to the eyes.
(F) The color is beautiful because it is a three-wavelength type.
(G) It does not flicker because the frequency is high.
(H) Quick response and good response.
(Li) Eliminates unpleasantness such as filament breakage of the bulb and darkening of both ends of the fluorescent lamp without electrodes.
(Nu) These effects appear in combination.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of a light-emitting cable of a conductive wire type.
FIG. 2 is a conceptual diagram of a magnetron type light emitting cable.
FIG. 3 is a conceptual diagram of a flat cable in which three light emitting cables of different colors are combined into one.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 High frequency current generator 2 Conductor 3 Insulator containing gas-containing microcapsule 4 Color filter 5 Transparent conductive film and coating film 6 Magnetron 7 Radio wave transmitting fiber 8 R light emitting cable 9 G light emitting cable 10 B light emitting cable

Claims (5)

A color filter that excites the gas in the gas- filled microcapsules placed around the core wire with radio waves emitted from the center wire, and places visible light emitted from the gas around the gas-filled microcapsules. Concentric triple structure with a core wire in the center, gas-filled microcapsules around it, and a color filter around it, or concentric without a color filter Cable with double structure cross section . The cable according to claim 1 , further comprising a conductor that emits radio waves by supplying a high-frequency current to the core wire. The cable according to claim 1 , further comprising a radio wave transmitting fiber that emits radio waves by supplying radio waves of a magnetron class frequency to the core wire. Cable according to claim 2 or claim 3 transparent conductor is disposed cable of claim 2 or claim 3 as wrapping on the section. A cable that uses a plurality of cables according to claim 4 in which the color of the color filter or the emission color is different, and is adapted for variable colors.

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