KR20000036591A - Manufacturing method of lampshade with mixed / coated far infrared radiator - Google Patents

Abstract

PURPOSE: A preparation method for electric light shade mixed/coated with far-infrared radiator which can recycle the wasted heat from electric light as a far-infrared radiation energy by mixing/coating its shade with far-infrared radiator(including charcoal), thus obtaining functions caused by the coated far-infrared material, such as deodorization, sterilization, rejuvenation, and improve in immunity as well as decoration of interior is provided. CONSTITUTION: An electric light shade is characterized by coating a light shade made of metal or glass and the like with a commercially available far-infrared radiant(including charcoal) to use the heat around 40-70°C from the electric light when the light is turned on as a far-infrared ray source, because far-infrared ray is generated when it is only heated with a certain amount of heat. The electric light shade, characteristically uses the heat from an electric light itself which has been conventionally recognized as wasted heat to generate far-infrared ray, thus easily producing advantageous far-infrared ray for human body.

Description

Manufacturing method of lamp shade for mixing / coating far-infrared radiator {.}

Many light fixtures have been developed and sold in the meantime, but they are used only as a function to illuminate the night and as interior functions.Further, the far-infrared radiators (including charcoal) are already produced and commercialized in lampshades (including metal and glass). ) Is composed of almost similar components as shown in Table (1) below. The product is formed by coating / mixing a far infrared emitter having such a composition on a lampshade, and a certain amount of heat is generated due to the characteristics of the far infrared emitter. The heat source (approximately 40-70 degrees) generated when the lamp is turned on uses the heat source applied by using the feature that far infrared ray is radiated only when it is applied. In addition to the light generated when the lamp is turned on, the self-heat of the bulb that has been recognized as waste heat When heat is transmitted to the infrared emitter, the far infrared radiator, which is already coated by the heat, radiates beneficial infrared rays to the human body, thereby illuminating the night, the purpose of the original lighting, and the interior of the lamp. It is to obtain additional functions such as deodorization, sterilization, fatigue recovery and increased immunity, which are heat-added functions and the effects of far infrared rays.

In addition, it is the main object of the present invention to be able to manufacture high value-added products thereby.

The present invention is a far infrared ray emitter (including charcoal) of the far infrared emitters (including charcoal), which have been manufactured by various methods and used for various purposes, have been applied to a source of heat by using the characteristic that far infrared rays are radiated only when a certain amount of heat is applied. It is an electric field and lighting technology field utilizing waste heat of bulb among far-infrared radiation application method using generated heat.

-It is to suggest a method for recycling waste heat of lamps used for lighting equipment as far-infrared radiation energy by mixing / coating far-infrared radiator (including charcoal) in the lamp shade.

1 shows a method of mixing / coating a far infrared emitter and an example of the product thereof.

The configuration and operation of the following invention is an example of the implementation method so that those skilled in the art can easily carry out.

(Configuration of the Invention)

1) Stand Shade (For Metal)

The method of coating the far-infrared radiator on the stand shade is to put the far-infrared radiator into the high-pressure powder injector and spray it on the stand shade with the high-pressure powder injector. The radiator penetrates into this uneven groove.

When heat-treated on the surface of the metal material, which has been infiltrated, for about 3 minutes with constant heat of about 250 degrees, it produces aesthetically sound products like black painting that is not easily damaged by external impact.

If you make a stand using the lampshade (metal material) produced in this way, when the bulb is turned on, the light is illuminated from the top down, and the self-heat of the lamp heats the far-infrared radiator to the human body from the already coated far-infrared radiator. Beneficial far infrared rays are emitted as shown in the table (2) below

2) Stands and Covers for General Lighting (For Glass Products)

The method of coating far-infrared radiator on glass products is a method of post-spray heat treatment, as in the case of the stand metal material, or mixed with transparent paint at about 10-15%, and after spraying, brush work or patterning through taping before spraying. After forming the required shape and adding about 5-10% of far-infrared radiator when melting raw materials with high heat of about 1200 degrees, black spots are completed.

When the lampshade is made using the lampshade for stand and general lampshade (glass material) produced in this way, the light catalyst passes through the lampshade of the glass material when the bulb is turned on, and is a photocatalyst of titanium dioxide (TiO2) that is necessarily included in the far infrared emitter. It can be used to clean pollutants, generate negative ions, and heat the far-infrared radiator with the heat of a bulb, which has been scientifically proven in many ways, including sterilization, deodorization, promoting metabolism, and preventing the treatment of diseases. Far infrared radiation is emitted

3) Using the lamp shades (including lamp shades) made in the same way as in (1) and (2) to make lighting fixtures for homes and others, you can see various far-infrared effects mentioned in the composition and operation. The same amount of far-infrared radiation is emitted, and it can be manufactured as a high value-added product.

-Create value-added products by coating far infrared emitters on simple lighting fixtures

-Capable of using bulb heat that was recognized as waste heat as far infrared radiation energy

-Deodorization performance added by negative ion action

-Functions that are beneficial to the human body

-New product can be manufactured by mixing of far infrared rays function and lighting function

Claims (4)

It is characterized by coating a far-infrared radiator (including charcoal) that is already produced and commercialized in a lamp shade (including metal and glass) and emits far infrared rays only when a certain amount of heat is applied due to the characteristics of the far-infrared radiator. The heat generated by using the lamp is to use the heat generated when the lamp is turned on (approx. 40-70 degrees), and the waste heat other than the light generated when the lamp is turned on by using the lamp's own heat to the coated far-infrared radiator. It is characterized in that the heat applied to the far-infrared radiator, which is recognized as a light source, is applied to the far-infrared radiator. In addition to the function of illuminating and interior, the heat of the lamp which has been abandoned by waste heat The function and the effect of the far-infrared deodorization, sterilization, fatigue, immune system, such as additional coatings increase the far infrared radiator of the effect in order to obtain the key features / mixed fixture Mechanism for a lampshade for the manufacturing method of the According to claim 1, the lamp shade is coated with a far infrared emitter using a high-pressure injector in the metal lampshade, using the coated lampshade as a lamp shade of the stand to apply heat to the far infrared emitter by applying the heat of the bulb to the far infrared emitter effect of far infrared radiation Method for manufacturing a lampshade, characterized in that for making a lampshade (including a stand) made of metal made to give According to claim 1, during the manufacturing process of the lampshade of the glass material made of a fine powder is adhered to the glass surface by spraying the far infrared emitter mixed with an adhesive and a transparent paint on the surface of the glass product (radiator mixing ratio: 10-15%) Manufacturing method of lampshade for luminaire made of glass, characterized in that to complete the product after the appearance The method according to claim 1, wherein when the glass product is molded during the manufacturing process of the glass lampshade, the far infrared emitter is mixed in the state of the molten glass product (approximately 1200 degrees) to produce the radiator mixture ratio of 10-15%. It is characterized by the completion of the product that generates fine black spots when the infrared emitters are mixed.In addition, titanium dioxide, which is an essential material for far-infrared radiation materials, and light of (TiO2) lighting fixtures can interact with each other to show the photocatalytic function. Method for producing a lamp shade (glass material) for a luminaire, characterized in that the far-infrared radiator using glass, characterized in that it is mixed