KR200184966Y1 - A lamp having an anti-fouling layer - Google Patents

Abstract

The present invention relates to direct and indirect lighting luminaires, and the ordinary fluorescent lamp is composed of a reflector, a luminaire body, and a fluorescent lamp.If the luminaire is used for a long time, foreign substances adhere to it, resulting in poor illumination and aesthetic appearance. The lighting fixtures that need work and especially installed in dusty workplaces are not only inconvenient to clean, but also a lot of time and maintenance cost because air and water cleaning do not clean the contaminants adhered to the lighting fixtures. There was a problem.

The present invention can solve such a conventional problem, to protect the base coating layer (reflective layer) 200 of the reflecting plate 100a and the luminaire body 100b having a reflection function of various lighting fixtures 100 and have adhesiveness a silicon (SiO ₂₎ layer 300, the sunlight or the wavelength 300nm-400nm extent that titanium layer 400, the titanium oxide particles are exposed oxide and extinguishing the organic material in the photocatalytic action of UV emitted from the normal fluorescent lamp to the coating method By oxidizing and extinguishing organic matters such as oil, dust and smoke suspended in the air, it is possible to preserve clean lighting fixtures and prevent lowering of illuminance (LUX), reduce the number of cleaning / repair of lighting fixtures, and sterilization / deodorization. The purpose of the present invention is to provide a lighting fixture that is beneficial for the purpose of obtaining a self-cleaning lighting device that provides national health and a comfortable living environment by the air purification effect.

Description

Lighting fixtures with a contaminant prevention layer

The present invention is designed to protect silicon (SiO ₂ ) from neutral water and fluorine resin (PEFT) to protect all the lighting fixtures, as well as the coating body (reflective layer) of the luminaire body of the luminaire body consisting of a luminaire body, a reflector, and a reflector. ) The silicon liquid mixed with) is formed by low-temperature firing, and the silicon layer is floated in the air by photocatalytic action (oxidative chemical reaction) by ultraviolet rays emitted from sunlight and general fluorescence with wavelength of 300nm-400nm on the upper surface. Titanium oxide (TiO ₂ ) layer is integrally formed so that titanium oxide (TiO ₂ ) particles that oxidize and decompose organic substances such as smoke are kept in a clean manner, keeping lighting fixtures clean and preventing deterioration of illuminance (LUX). It also helps to reduce the number of cleaning / repair cycles, and prevents pollutants that are beneficial for self cleaning, which provides people's health and a pleasant living environment through the air purification effect. It is to provide the configured lighting fixtures.

In the past, lighting fixtures are generally classified into luminaires such as HID lamps, fluorescent lamps, sodium lamps, and metal halide lamps, and are classified into living room lamps, street lamps, spotlights, downlights, flower stands, and induction lamps depending on the purpose. According to the lighting method, lighting fixtures are classified into direct lighting lamps (eg fluorescent lamps) that are directly directed to lamps and indirect lighting lamps that reflect lamp light sources.

In addition, there has been disclosed a therapeutic lamp that emits far-infrared rays to give a special function to the general lighting luminaires to obtain an effect outside the lighting, but the luminaire of this special function is coated with a far infrared ceramic (aka bioceramic) on the reflector As the light source wavelength of the radiation lamp promotes the molecular activation of organic substances by the resonance resonance function of radiation radiated from long infrared rays, there was an example of using bacterial propagation suppression function, cold protection function, and metabolic promotion function. It was not desirable to use the reflector to cause adverse effects that lower the reflecting effect of the luminaire.

In addition, all the lighting fixtures described above are attached to the luminaire body and the reflector plate (shade) having the reflection function of the lighting fixtures if they are used for a long time after installation, so that the dirty and roughness is degraded. As organic matters such as dust, oil, smoke, bacteria, etc. suspended in the water adhere to the lighting fixtures and harden, the illumination intensity of the lighting drops sharply, and the appearance is unsightly, and a cleaning operation is needed to periodically remove contaminants. As there are many oily substances in the air due to smoke from various oil combustors and exhaust gases from vehicles, cleaning operations of pollutants attached to lighting fixtures are not removed by water cleaning. There are also economic problems that are inconvenient to clean and require a lot of cleaning time and cost. A.

And, although not used in lighting fixtures, Korean Laid-Open Patent Publication 97-2127 is disclosed in which titanium oxide is used in the cavity of a microwave oven to obtain an antibacterial and deodorizing effect on an electronic device, wherein the titanium oxide is a rutile type It is a high-temperature titanium oxide (TIO ₂ ), which is mainly used for white treatment of paint, rubber, paper, etc., and it is delayed with the technology that inorganic oxide and titanium oxide are mixed to form a coating of titanium oxide. The titanium oxide coating layer can be formed by a high thermal firing method of 1000 ° C. or higher, and it is known that a photocatalytic action is performed at a wavelength of 300 nm or less in ultraviolet lamp light and solar light.

Such a technology of antimicrobial and deodorization apparatus of a microwave oven coated with a photocatalytic material including titanium oxide (TIO ₂ ) and a component on a cavity metal surface inside a microwave oven is disclosed. It is intended to deodorize the purpose and effect, and is specifically limited to the function to provide only antibacterial and deodorant effect inside the microwave by photocatalytic action by UV light of 300 nm or less radiated from the ultraviolet lamp with a separate ultraviolet lamp. , US Patent Publication No. 90-3957 (referred to as cited reference ₂ ) relates to an electric lamp containing titanium dioxide (TIO ₂ ), the color of the seal provided by the light absorption coating on the electric lamp. Although bar 3957 is started, the titanium (TIO ₂₎ oxide are used here as well is a high-temperature titanium oxide (TIO ₂₎ for the rutile type (rutile), when an electrical light emitting lamp room That is in the ability to block harmful UV (300nm or less) in the human body.

The present invention provides a photocatalytic effect by forming a layer of titanium oxide (TiO ₂ ) on which the titanium oxide (SiO ₂ ) particles with active photocatalysis are expressed on the luminaire body and the reflector of all luminaires including the luminaire body, reflector, and reflector. By oxidizing and extinguishing organic matters such as dust, oil, and smoke by (oxidation chemical reaction), it keeps lighting fixtures clean, prevents the deterioration of illuminance (LUX), and also reduces the cleaning / repair of lighting fixtures. The purpose of the present invention is to provide lighting fixtures that are beneficial for self cleaning, which provides people's health and a pleasant living environment through the air purification effect.

In order to realize the object of the above example, the present invention is to add a silicon (SiO ₂ ) powder to neutral water and fluorine resin (PEFT) on the coating layer (reflection layer) of the luminaire body and reflector (reflective lamp) constituting the fluorescent lamp fixture. The inorganic layer containing ethanol-based solvent and fluorine resin (PEFT) is composed of a titanium oxide powder which is composed of a mixed silicon layer formed of a coating, and photocatalytically reacts (oxidative chemical reaction) in the ultraviolet light having a wavelength of about 300nm-400nm. Titanium oxide (TIO ₂ ) is diluted to about 10%, and the titanium oxide liquid is composed of a titanium oxide layer on which titanium oxide particles are exposed to oxidize organic substances such as dust, oil, smoke, and odor suspended in the air. It is characterized by a luminaire with a contaminant prevention layer which allows it to extinguish.

In order to achieve another object of the present invention, colorless, transparent and stabilized silicon (SiO ₂ ) is mixed with neutral water and fluorine resin (PEFT) and sprayed onto the coating (color) layer by dipping. By forming a silicon layer with low-temperature firing at ℃, it clearly expresses the lower layer of paint and prevents oxidation by UV rays to protect the layer and to form a smooth binder (adhesive) surface. In addition, anatase titanium oxide (TIO ₂ ) having an active photocatalytic activity in an ultraviolet ray having a wavelength of about 300 nm to 400 nm is mixed with an inorganic solvent containing an ethanol solvent and a fluorine resin (PEFT) to form titanium oxide (TIO ₂ ). As the particles are exposed, they are characterized by being oxidized and extinguished by contact with organic substances such as dust, oil, smoke, and odor suspended in the air.

Such, the lighting fixture of the present invention is beneficial to the underground parking lot that is relatively polluted, poorly ventilated tunnels, hospitals and restaurants where hygiene is essential, children's day care centers, public places where many people come into contact with, and homes and rooms.

Hereinafter, the features of the present invention can be understood as a spring to explain in more detail with the accompanying drawings.

1 is a perspective view of an embodiment of the present invention,

Figure 2 is a longitudinal cross-sectional view of an embodiment of the present invention,

3 is a partially enlarged cross-sectional view of FIG.

* Explanation of symbols for main parts of the drawings

100a: reflector plate (light irradiation surface) 100b: luminaire body

100c: fluorescent lamp 200: paint layer

300: silicon layer 400: titanium oxide layer

1 is a representation of a fluorescent lamp fixture that is generally used among all direct lighting (including indirect lighting), as shown in Figure 2 fluorescent lamp fixture 100 is a reflection plate (shade) that reflects the light of the lamp directly or indirectly (100a) And a lamp body 100b and a fluorescent lamp 100c.

3 is a partially enlarged cross-sectional view of a reflector plate (shade) 100a or a luminaire body 100b of the fluorescent lamp device 100 embodying the present design.

As shown in FIG. 3, a paint layer 200 including a reflecting layer is formed on the reflecting plate (shade) 100a or the luminaire body 100b which is a base of an iron plate or aluminum.

Thus, each of the reflecting plate (shade) 100a or the luminaire body 100b to which the coating layer 200 is applied is mixed with silicon (SiO ₂ ) powder, neutral water and fluorine resin (PEFT). The method of coating the titanium oxide layer 400 formed by mixing the silicon layer 300 to be coated on the coating layer 200 and a titanium oxide (TIO ₂ ) powder, an ethanol solvent, and a fluorine resin (PEFT). By the reflector plate (shade) 100a or the luminaire body 100b.

At this time, silicon (SiO ₂ ), which is chemically stabilized as a colorless transparent powder on the reflecting plate (shade) 100a or the coating layer 200 of the luminaire main body 100b, is neutral water and fluorine resin ( PEFT), coated on the luminaire coating (color) layer by spraying and dipping method, and then heated to a baking temperature of 70 ° C. to cure at low temperature. The organic matter is volatilized, and the strength is 3H (pencil) in a thin film of 0,3㎛-1,0㎛. A silicon (SiO ₂ ) layer 300 of hardness) is formed.

At this time, the silicon (SiO ₂ ) layer 300 formed on the coating layer 200 is clearly expressed in the lower coating layer 200, chemically invariant to block the oxidation of the coating layer 200 by ultraviolet rays. Discoloration is prevented by a protective function and a binder (adhesion) function to smoothly adhere the titanium oxide layer 400 on the upper side, so that the titanium oxide layer 400 on the upper side is uniformly formed.

Further, the silicon (300) layer is a low temperature-type titanium oxide of Ana Tasman type (anatas) in a state in which the curing degree of 50% (TIO ₂₎ is a low temperature-type titanium oxide in the inorganic material of white solid horse Ana Tasman type (anatas) (TIO ₂ ), A ethanol solvent and a fluorine resin (PEFT) diluted 10% titanium oxide solution is coated on the silicon layer 300 by spraying and dipping method, and then heated at 100 ° C-120 ° C for 10-30 minutes. The material is volatilized to form a thin titanium oxide layer 300 having a thickness of 0,3 µm or less.

In the present invention, rutile titanium oxide for high temperature (TIO ₂ ), which is used in the white treatment of paint, paper, etc., is treated by a high thermal firing method of 1000 ° C. or more, and has a photocatalytic effect in ultraviolet rays having a wavelength of 300 nm or less. Unlike brookite-type high-temperature titanium oxide (TIO ₂ ), which is used as a raw material of polymerization catalyst, photocatalytic reaction (oxidation chemical reaction) is performed in ultraviolet light in the wavelength range of 300nm-400nm. It is characterized by the use of anatase-type low-temperature type titanium oxide (TIO ₂ ) in which active oxygen is generated.

Thus, the present invention is to configure the titanium oxide particles to be exposed to the low-temperature Anatas-type titanium oxide layer 400, the ultraviolet light of 300nm-400nm wavelength emitted from sunlight, general fluorescence, etc. Since the particles have the same wavelength, the amount of energy of unit photons is the same regardless of the intensity of light. The energy per photon of ultraviolet light in the 300nm-400nm band is about 36,000K and the photocatalytic reaction proceeds continuously. The above phenomenon continues on the surface of the titanium oxide layer 400, and contaminants such as oil, dust, smoke, bacteria, and odors suspended in the air due to convection occur in the titanium oxide layer 400. As soon as the particles come into contact with the particles, they are extinguished by oxidation and reduction, and the photocatalysts come into contact with the titanium oxide layer 400 by the lamp body 100 and the reflecting plate 100 of the lamp 100. All contaminants suspended will be kept clean luminaire without being adhered to the light fixtures in the.

In addition, it prevents the fall of the illuminance of lighting (LUX), reduces the cost of cleaning / repairing lighting fixtures, and also provides public health by disinfecting / deodorizing function. cleaning effect is obtained.

This proposal is useful for restaurant lightings that remove the smell of food in restaurants and sanitation in hospitals.

As another method of use of the present invention, it is desirable to form a titanium oxide layer on the surface of non-permeable objects such as interior and exterior decoration, decoration, and road structures of buildings to anti-pollution and antibacterial / deodorant air purification. .

As described above, the present invention prevents contaminants from adhering to the luminaire, and thus, the luminaire body and the reflector are clean, which prevents the deterioration of the illuminance (LUX) of the luminaire and reduces the illuminance of the luminaire. And the economic effect of reducing the cleaning cost is also great.

In addition, the present invention has a high illuminance effect of maintaining bright light by the diffuse reflection function of ash ash tar particles.

In addition, the air cleaning effect when oxidizing / extinguishing dust, oil, smoke, bacteria, and odors floating in the air provides a self-cleaning effect that provides a public health and a pleasant living environment.

As described above the date and time of the present invention, the present invention is not limited to this, it will be possible to change within the scope described in the utility model registration request.

Claims (1)

Including the existing reflecting layer on the luminaire main body 100b of the direct and indirect lighting apparatus including fluorescent lamps and the reflecting plate 100a, which is also read by the reflector, the silicon is treated with neutral water and neutral water. Dust and oil by photocatalysis in the silicon (SIO ₂ ) layer 300 coated with silicon liquid mixed with fluorocarbon resin (PEFT) at low temperature firing, and ultraviolet rays emitted from sunlight and wavelengths of about 300nm-400nm. Light fixtures comprising a contaminant prevention layer, characterized in that the titanium oxide (TIO ₂ ) layer 400, which is exposed to titanium oxide particles for oxidizing and extinguishing organic substances such as smoke, is integrally formed on the silicon layer.