KR200221491Y1 - lighting apparatus with optical fiber - Google Patents

Abstract

The present invention relates to a lighting device using an optical fiber, and more particularly to a lighting device that can significantly reduce the electrical energy and maintenance costs of the facility.

According to the present invention, in a lighting device installed in a tunnel, underground construction site, etc., a light collecting part 2 installed outside to receive sunlight and one end thereof is connected to the light collecting part 2 and the other end thereof is a tunnel or underground A first optical fiber bundle 4 which is installed to extend into the construction site and has a cutout part 3 of a predetermined length formed on the circumferential surface thereof so that light incident from the light collecting part 2 is emitted through the cutout part 3; And a solar cell (6) installed outside and generating electricity by receiving sunlight, a storage battery (8) storing electricity generated by being connected to the solar cell (6), and supplying power from the storage battery (8). A light emitter 10 that receives and emits light, a switching unit 12 installed between the light emitter 10 and the storage battery 8 to turn on and off the power of the storage battery 8, and one end thereof is connected to the light emitter 10. The other end is installed inside the tunnel or underground construction site, and the length of the section There is provided an illumination device using an optical fiber, comprising a second optical fiber bundle 14 in which a portion 13 is formed so that light incident from the light emitter 10 through the cutout 13 is emitted. .

Description

Lighting apparatus with optical fiber

The present invention relates to a lighting device using an optical fiber, and more particularly to a lighting device that can significantly reduce the electrical energy and maintenance costs of the facility.

The lighting device installed in a conventional tunnel or underground construction site is configured such that power generated from a power plant is supplied to a lamp through a wire to be turned on. By the way, the lighting device installed in such a tunnel or underground construction site has a problem that consumes a lot of electrical energy because the lighting should be illuminated day and night. In addition, the wires connected to such lighting devices have a lot of power loss and short lifespan, and if the coating is peeled off, there is a problem such as a short circuit or damage to the circuit, resulting in a costly maintenance of the facility. have.

The present invention is to solve the problems as described above, the purpose of the present invention is to save the electrical energy by using sunlight as an energy source, but can not be easily damaged in the long-term use can significantly reduce the maintenance cost It is to provide a lighting device using an optical fiber.

1 is a block diagram according to an embodiment of the present invention

Figure 2 is a schematic diagram of the installation state according to the embodiment

<Explanation of symbols for main parts of the drawings>

2. Light collecting plate 4. First optical fiber bundle

6. Solar cell 8. Storage battery

10. Light Emitter 12. Switching part

14. Second Fiber Bundle

According to the present invention, in a lighting device installed in a tunnel, underground construction site, etc., a light collecting part 2 installed outside to receive sunlight and one end thereof is connected to the light collecting part 2 and the other end thereof is a tunnel or underground A first optical fiber bundle 4 which is installed to extend into the construction site and has a cutout part 3 of a predetermined length formed on the circumferential surface thereof so that light incident from the light collecting part 2 is emitted through the cutout part 3; And a solar cell (6) installed outside and generating electricity by receiving sunlight, a storage battery (8) storing electricity generated by being connected to the solar cell (6), and supplying power from the storage battery (8). A light emitter 10 that receives and emits light, a switching unit 12 installed between the light emitter 10 and the storage battery 8 to turn on and off the power of the storage battery 8, and one end thereof is connected to the light emitter 10. The other end is installed inside the tunnel or underground construction site, and the length of the section There is provided an illumination device using an optical fiber, comprising a second optical fiber bundle 14 in which a portion 13 is formed so that light incident from the light emitter 10 through the cutout 13 is emitted. .

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows. 1 is a block diagram according to an embodiment of the present invention, Figure 2 is a schematic diagram of the installation state according to the embodiment. Referring to this, the lighting apparatus using the optical fiber is the first condenser 2, the first light connected to the condenser 2, extending into the tunnel or underground construction, and emits light incident through the condenser 2 An optical fiber bundle 4, a solar cell 6, a storage battery 8 for storing electricity generated by being connected to the solar cell 6, a light emitting body 10 emitted by the storage battery 8, The second optical fiber bundle 14 for emitting light incident from the light emitter 10 is configured.

The light collecting unit 2 is composed of a lens assembly composed of a plurality of lenses for collecting the sunlight, and is installed in a place where the light is easily collected in consideration of the top of the mountain or the topographical conditions. In some cases, a solar tracking device such as a gear and a motor may be added to the lens assembly to effectively collect the light.

One end of the first optical fiber bundle 4 is connected to the light collecting part 2, and the other end of the first optical fiber bundle 4 includes a plurality of optical fiber bundles extending into a tunnel or an underground construction site. At this time, the cladding layer and the core layer are damaged at predetermined intervals in accordance with the internal lighting position of the tunnel or the underground construction site so that the light incident from the light collecting part 2 is emitted.

The solar cell 6 is installed at the top of a mountain or at a place where sunlight shines well, similarly to the light collecting part 2, and when solar light is irradiated, the solar cell 6 generates a current by the photovoltaic effect. At this time, the solar cell 6 is connected to the required unit capacity and a solar cell module capable of withstanding the climate is used.

The storage battery 8 is configured to be connected to the solar cell 6 so as to store electricity generated from the solar cell 6 and to supply the light emitter 10 when necessary.

The light emitter 10 receives power from the battery 8 and emits light, and is used as a light source of the second optical fiber bundle 14. At this time, between the storage battery 8 and the light emitting body 10 is provided with a switching unit 12 for turning on and off the power of the storage battery 8, the switching unit 12 is an illumination sensor 15 for sensing the external illuminance. When the brightness of the outside is bright, the power line connecting the battery 8 and the light emitter 10 is turned off so that electricity is charged, and the battery 8 is discharged from the dark at night or on a cloudy day. By connecting to 10 to supply power, the second optical fiber bundle 14 to illuminate the interior of the tunnel or underground construction site, etc. In addition, the switching unit 12 receives an automatic lighting on / off signal from a remote site. The light emitter 10 may be turned on and off in response to the received signal.

One end of the second optical fiber bundle 14 is connected to the light emitting body 10, and the other end of the second optical fiber bundle 14 includes a plurality of optical fiber bundles installed into a tunnel or an underground construction site. At this time, the optical fiber bundle installed inwardly damages the cladding layer and the core layer at predetermined intervals in accordance with the illumination position so that the light incident from the light-emitting body 10 is emitted.

Therefore, the lighting apparatus using the optical fiber is illuminated by the first optical fiber bundle 4 connected to the light collecting plate during the day, and by the power stored in the storage battery 8 through the solar cell 6 at night or cloudy day. 2 Since the optical fiber bundle 14 emits light, it does not use a separate power source or merges with an electric lighting device to reduce the electricity consumption, and there is no problem such as electric leakage occurring in a conventional coaxial cable. The cost is significantly reduced.

As described above, according to the present invention, the lighting device using the optical fiber can significantly reduce the consumption of electrical energy because it uses the solar energy, and since the optical fiber is used, no short circuit occurs due to aging like conventional coaxial cables. As a result, maintenance costs are significantly reduced, and there is an advantage that it can be used safely for a long time.

Claims (1)

In a lighting device installed in a tunnel or underground construction site, a light collecting part 2 installed outside and receiving solar light, one end thereof is connected to the light collecting part 2, and the other end thereof is extended to the inside of the tunnel or underground construction site. The first optical fiber bundle 4 is formed on the circumferential surface of the cutout part 3 having a predetermined length so that light incident from the light collecting part 2 is emitted through the cutout part 3, and is provided outside. A solar cell 6 that receives electricity to generate electricity, a storage battery 8 that stores electricity generated by being connected to the solar cell 6, and a light emitting body that receives power from the storage battery 8 and emits light ( 10), a switching unit 12 provided between the light emitter 10 and the battery 8 to turn on and off the power of the battery 8, and one end thereof is connected to the light emitter 10, and the other end thereof is a tunnel. It is installed extending into the underground construction site and the periphery of the cut portion 13 of a predetermined length is formed Illumination apparatus using an optical fiber, characterized in that it comprises a second optical fiber bundle (14) to be emitted from the light emitter 10 through the cutout (13).