KR200320721Y1 - Illuminator - Google Patents

Abstract

The present invention relates to a lighting device, the light fixture is mounted on the bottom of the lampshade, the light fixture provided with a reflecting plate on the bottom of the lampshade to reflect the light source of the light emitter, the reflecting plate has a light source when the light emitter emits air It is characterized in that the high illumination film containing a photocatalyst is attached to cause a redox effect. Therefore, according to the present invention, by coating the photocatalyst layer on the bottom plate of the lampshade, the reflector can be automatically cleaned by antibacterial and odor removal action by the photocatalyst when the light emitter emits light, and the indoor air can be purified. do.

Description

Lighting fixtures {ILLUMINATOR}

The present invention relates to a lighting fixture, and in particular to be able to purify the contaminants floating in the indoor space.

In general, in a lighting device such as a fluorescent lamp, a reflector made of a thin iron plate or a synthetic resin plate is installed at the rear of the light emitter in order to concentrate the light emitting light source in one place, diffuse it to the required range, or increase the illuminance. Paint it, coat a reflective material with high reflection efficiency, or attach a mirror to enhance the reflection effect.

However, since the reflector is exposed to the air and contaminants such as tar generated from cigarette smoke or dust floating in the air are attached, the reflection effect is reduced. There is a hassle that needs to be wiped, and the material coated on the reflector such as high gloss reflector or mirror absorbs light from itself, and the reflection efficiency is lowered. When the reflector absorbs light, heat is generated and the coated material is peeled off. There is a problem.

The present invention is to solve this problem, it is an object of the present invention to provide a luminaire that can clean the reflector plate by the action of a photocatalyst upon light emission of the luminaire, and also to clean the indoor air.

1 is a perspective view showing a light emitting device according to the present invention.

Figure 2 is an exploded perspective view showing a light emitting mechanism according to FIG.

3 is a cross-sectional view taken along the line "III-III" of FIG.

** Explanation of symbols for main parts of drawings **

10; Lampshade 11; Seating part

13; Isolation 14; socket

15; Locking piece 20; Reflector

21; Coupling hole 30; illuminant

40; Photocatalyst layer

The present invention for achieving the above object, the light emitting body is mounted on the bottom of the lampshade, the light fixture provided with a reflecting plate on the bottom of the lampshade to reflect the light source of the light emitter, the reflecting plate via the light source at the time of light emission of the light emitter It is characterized in that the high illumination film containing a photocatalyst is attached to cause a redox effect with air.

Hereinafter, the lighting device according to the present invention will be described according to the embodiment shown in the accompanying drawings.

1 is a perspective view showing a lighting device according to the present invention, Figure 2 is an exploded perspective view showing a lighting device according to the present invention, Figure 3 is a cross-sectional view showing a lighting device according to the present invention.

As shown, the lighting fixture according to the present invention is mounted on the upper shade of the lampshade 10, the reflecting plate 20 mounted on the inner bottom surface of the lampshade 10, and the upper surface of the reflecting plate 20 It includes a light emitter 30 for irradiating a light source.

The lampshade 10 is provided with a seating portion 11 on which the light emitter 30 is seated, and an inclined portion 12 downwardly formed at a predetermined angle on both sides of the seating portion 11 to irradiate the light source to a predetermined range. Done.

Meanwhile, in the present invention, the lampshade capable of mounting two light emitters at the same time is described as an example. The lampshade 10 has two seating parts 11 at both sides thereof by an isolation part 13 protruding a predetermined amount in the center thereof. Is formed. A pair of sockets 14 are provided on both sides of each seating portion 11 so that the light emitter 30 to be described later is mounted to supply power. In addition, the engaging piece 15 is provided at the boundary between the seating part 11 and the isolation part 13 so that the reflecting plate 20 is coupled.

The reflector 20 effectively reflects the light source generated from the light emitter 30, and is formed to correspond to the shape of the lampshade 10 provided with the isolation part 13 and the seating part 11. The coupling hole 21 is drilled at the corresponding position so as to be fixedly coupled to the locking piece 15.

The light emitter 30 is formed by painting a fluorescent material on an inner wall of a glass tube as usual, and putting a double or triple electrode of tungsten on both sides and filling an emitter emitting hot electrons therein. In the emitter, an oxide such as barium is used to energize the electron radiation. After the vacuum in the glass tube, a small amount of mercury and argon gas are sealed.

Meanwhile, referring to FIG. 2, in the present invention, a photocatalyst layer is coated on the reflective plate 20, or a high illuminance (low luminance) film 40 including the photocatalyst is attached to the reflective plate 20.

The high roughness film 40 is an anodizing treatment to 99.99% of the aluminum original material to block the defect such as discoloration.

The photocatalyst refers to a catalyst that causes a chemical reaction by the energy of light, and titanium oxide is used as the most efficient catalyst material in the present invention.

Such a photocatalyst generates active oxygen when it comes in contact with a light source, and the generated active oxygen has a decomposing ability, and thus functions to decompose organic matter, antibacterial, deodorize and remove harmful substances.

For reference, titanium oxide is represented by TiO ₂ in the chemical formula and is also referred to as titanic anhydride and titania. In nature, it exists as minerals, such as brookite, anatase, plate titanium stone, and ilmenite (titanium iron). Three variants with different structures are known, rutile type, which is stable at high temperatures, and a type that is stable at low temperatures.

Titanium oxide is used to remove the gloss of acid and alkali paints, highly concealable white pigments, artificial dogs, staple fibers, and chemical fibers, and is harmless to humans. Used for packaging paper

Such a photocatalyst may be coated on the high illuminance film 40 by using a physical coating method or a chemical vapor deposition method, which is a general coating method, and extracts the photopigments distributed and scattered in various gases in the air to obtain nano Nanotechnologies can be used to make ultra-size particles and absorb them into objects. The air-based nano process is cheaper in terms of raw materials, and unlike ordinary coatings, it absorbs into an object, so there is no discoloration, and heat treatment is performed together, so the strength is much higher.

On the other hand, in order to commercialize the photocatalyst, it is important to coat titanium oxide with a high thickness film at a suitable thickness. If the photocatalyst layer is thick, the photocatalytic effect is increased, but the refraction phenomenon by the reflecting plate 20 to which the high illuminance film 40 is attached is remarkably different.

As described above, the operation of the luminaire having the high illuminance film including the photocatalyst will be described.

When the photocatalyst is turned on and near-ultraviolet rays of 400 nm or less touch the material such as metal titanium oxide, the redox action occurs on the surface, which quickly removes odor particles and organic matter in the air, contamination, flame retardant, odor removal and sterilization. Remove In addition, the photocatalyst layer sterilizes harmful bacteria and infectious bacteria in the air in the shortest time using a strong ultraviolet wavelength (253.7 nm).

In other words, the photocatalyst is a technology in which 'oxidative decomposition' and 'hydrophilic effect' are properly mixed, and when titanium oxide is applied to the surface of the material and UV rays are applied, organic substances on the surface are decomposed into water and carbon dioxide (oxidative decomposition effect). If water gets in this state, water droplets do not form and spread lightly (hydrophilic effect).

Therefore, when the high illuminance film 40 including titanium oxide having high photoactivity is attached to the reflector 20 installed at the rear of the light emitter 30 to reflect the light emitted from the light emitter 30, the light source is irradiated ( When the photocatalytic action occurs, the photocatalytic action is generated to automatically decompose and remove the contaminants attached to the high illuminance film 40 by the redox reaction, thereby increasing the reflection efficiency of the light emitted from the light emitter 30.

In addition, in residential spaces such as houses and offices, sulfur compounds such as hydrogen sulfide and methyl mercaptan, nitrogen compounds such as ammonia, fatty acids, and other odorous substances are suspended. The photocatalyst is used to remove polluted air and odorous substances in the room. The treatment makes it possible to create a pleasant indoor space.

As described above, according to the present invention, by coating the photocatalyst layer on the bottom plate of the lampshade, the reflector can be automatically cleaned by antibacterial and odor removal action by the photocatalyst when the light emitter emits light. It can be purified.

Claims (2)

In the lighting fixture is mounted on the bottom of the lamp shade, the reflector is provided on the bottom of the lamp shade to reflect the light source of the light emitter, The reflecting plate is a luminaire, characterized in that the high illuminance film containing a photocatalyst is attached so as to cause a redox effect with the air through the light source when the light emitter. The luminaire according to claim 1, wherein the photocatalyst is made of titanium oxide.