KR200217376Y1 - Structure of Far Infrared Radiator Lampshade and Lampshade - Google Patents

Abstract

Many of the lighting fixtures have been used as simple lighting and interior functions. As an additional function, it is manufactured by mixing / coating powder (about 100 ~ 500 mesh) of far-infrared emitters (macbanite, biotite, loess, charcoal, jade, ceramic, etc.) that are already produced and sold on glass / metal material of lampshade. It is characterized in that the characteristic of the far-infrared radiator prevents the convection of air when the lamp is turned on by using a point where far-infrared rays are radiated so that heat (40-80 degrees C) is generated in the lampshade. Far infrared rays are emitted from the far-infrared radiator, and the far-infrared action, which is generated at this time, is thermal, ripening, self-cleaning, wet and dry, and resonant. It turns to green, and it functions to cool and alleviate the mind and body by the disease treatment method using color, and the far infrared emitter The charcoal (black) with color is a porous material with antiseptic effect, deodorizing effect, filtration effect, humidity control effect, negative ion generation effect, far infrared ray thermal effect, harmful electromagnetic wave blocking effect, therapeutic effect of disease, etc. ) Heats (60 degrees C) to produce far-infrared radiation (5 ~ 15㎛), which radiates far infrared rays close to the most beneficial energy curve (8 ~ 12㎛) for the human body. In addition, elvan was first discovered in China in the past and is a collection of more than 45 kinds of elements, which contains a large amount of representative far-infrared radiation A1203 and SiO2 (79.8%) and the emissivity / radiation energy (W / ㎡㎛, 40 ℃) is 0.93 / 3.74 x 10.

Known ceramics are far-infrared emitters that are beneficial to the human body, so powders (about 100-500 mesh) of such far-infrared emitters (bantonite, mica, ocher, charcoal, jade, ceramics, etc.) are mixed and coated in the lamp shade to produce far-infrared radiation and illumination. Lampshade to change / control color of lampshade, and lampshade is cooled by air convection due to heat by sealing upper and lower part of lampshade to maintain constant temperature (40 ~ 80 ℃) in such lampshade. It is characterized in that it relates to a method for blocking the top / bottom of the lampshade so as not to.

Description

Far Infrared Emitter Lampshade and Structure of Lampshade {.}

The present invention relates to a lampshade containing / coated a far-infrared radiator of a luminaire. In the past, the far-infrared radiator was used for jangpan, bedding mat, poultice room, ocher room, sauna, tableware, etc. The jade powder, charcoal powder, ceramic powder is used, and the steam room, sauna, charcoal, ocher are used as a circle, and the tableware is coated with ceramic, so this design is used for simple lighting function and interior. It is manufactured by mixing / coating powders (about 100 ~ 500 mesh) of far-infrared radiators (macbanite, biotite, loess, charcoal, jade, ceramic, etc.) that are already produced and sold on glass / metal material of lampshade of lighting fixture. The characteristics of the far-infrared radiator are based on the fact that far-infrared rays are radiated only when a certain amount of heat (40 degrees Celsius or more) is applied. When it is lit, it suppresses the convection of air so that heat (40 ~ 80 ° C) is generated in the lampshade to emit far infrared rays.Oil (soil color) is far-infrared radiation (5 ~ 15㎛) when heated (60 ° C). ) Is superior to radiate far infrared rays close to the most beneficial energy curve (8 ~ 12㎛) for human body. Elvan rock was first discovered in China, and it is a collection of more than 45 kinds of elements. It contains a large amount of 79.8% and the emissivity / radiation energy (W / m 2 μm, 40 ° C.) is 0.93 / 3.74 × 10.

Since ceramic is a far-infrared emitter that is beneficial to human body, it is mixed with these far-infrared emitters (mavanite, biotite, loess, charcoal, jade, ceramic, etc.) powder (about 100 ~ 500 mesh) in the lampshade and coated / coated in the lampshade And a lamp shade which closes the upper or lower portion of the lamp shade to prevent cooling of the lamp shade due to air convection by sealing the upper / lower portion of the lamp shade so as to maintain a constant temperature (40 to 80 ° C.). will be.

The present invention is characterized in that the far-infrared emitter (an elvan, biotite, loess, charcoal, jade, ceramics, etc.) powder (about 100-500 mesh) is mixed and coated on the raw material of the lampshade. In addition, due to the characteristics of the far-infrared radiator, when the lamp is turned on by using a point where far-infrared rays are radiated, the convection of air is suppressed so that heat (40 ~ 80 degrees C) is generated in the lampshade. Far infrared rays are radiated at, and the far infrared rays generated at this time are heated, ripened, self-cleaning, wet and resonant, and the jade is contained in the lampshade so that the color of the lamp changes from white to green. It has a function to cool and alleviate the mind and body by the treatment of diseases using color, and it is a far infrared emitter Charcoal (black) is a porous material with antiseptic effect, deodorizing effect, filtration effect, humidity control effect, negative ion generation effect, far infrared ray thermal effect, harmful electromagnetic wave blocking effect, and therapeutic effect of disease. 60 degrees Celsius), far infrared ray radiation (5 ~ 15㎛) is excellent and emits far infrared rays close to the energy curve (8 ~ 12㎛) which is most beneficial to human body. In addition, elvan was first discovered in China in the past and is a collection of more than 45 kinds of elements, which contains a large amount of representative far-infrared radiation A1203 and SiO2 (79.8%) and the emissivity / radiation energy (W / ㎡㎛, 40 ℃) is 0.93 / 3.74 x 10. Known ceramics are far-infrared emitters beneficial to the human body. These far-infrared emitters (macvanite, biotite, loess, charcoal, jade, ceramic, etc.) can be mixed / coated in the lampshade and mixed / coated in the lampshade to change / control the color of the far-infrared radiation and lampshade. To prevent the lampshade from being cooled by the air convection caused by heat convection by sealing the lampshade and the upper and lower parts of the lampshade to maintain a constant temperature (40 ~ 80 ℃). Characterized by. Far-infrared emitter powder (about 100 ~ 500 mesh) is formed by the usual molding method in the manufacturing process of glass raw material, which is 5 ~ 15% by weight. It is evenly distributed on molded products produced by heat treatment for 3 minutes with constant heat of about 300 ~ 600 ° C by painting on the outside of metal products, and lighting these materials to show the efficacy of jade, ceramic, charcoal, ocher, elvan, biotite, etc. It is made by mixing or coating freshly.

1 is a cross-sectional view of an embodiment of the present invention

2 is how to paint the lampshade

3 is a hanging jaw section of the lampshade

The present invention is characterized by manufacturing by mixing / coating a powder (about 100-500 mesh) of far-infrared emitters (macbanite, chorion, loess, charcoal, jade, ceramics, etc.) to the lampshade. When the lamp is turned on using the point that far infrared rays are radiated only when heat is applied, the far infrared rays are radiated from the far-infrared radiator as shown in FIG. 1 so that heat (40 to 80 degrees C) is generated in the lampshade. This is a lamp shade that is known to have the effect of heating, ripening, self-cleaning, wet and dry, resonance, which is the far-infrared rays generated at this time. It is a lamp shade that emits far-infrared rays when it is lit. , Deodorizing effect, filtration effect, humidity control effect, negative ion generating effect, far infrared thermal effect, harmful electromagnetic wave blocking effect, therapeutic effect of disease are known. When the soil is heated (60 degrees Celsius), it emits far-infrared radiation (5 ~ 15㎛), which is far superior to the energy curve (8 ~ 12㎛), which is most beneficial to the human body. It is a collection of 45 or more elements and contains a large amount of representative far-infrared radiant AL203, SiO2 (79.8%) and emissivity / radiation energy (W / m 2 ㎛, 40 ℃) is 0.93 / 3.74 x 10. It is a far-infrared emitter that is beneficial to the human body, so it is possible to mix such far-infrared emitters (mavanite, mica, ocher, charcoal, jade, ceramics, etc.) with powder (about 100 ~ 500 mesh) in the lampshade to make far-infrared radiation. Sealing the top or bottom of the lampshade to maintain a constant temperature (40 ~ 80 ℃) in such a lampshade to block the top / bottom of the lampshade not to cool the lampshade by air convection caused by heat. Characterized in that the method comprising a powder (about 100-500 mesh) of far-infrared emitter in the glass raw material and containing 5 to 15% by weight in the raw material during the manufacturing process during the manufacture of the glass raw material (Elvan rock: 10% : 10%, ocher: 4%, charcoal: 4%, jade: 64%, ceramics: 8%) to make glass products by using ordinary molding methods or to add paints and spray them to the outside of metal / glass products (3), paint with paint brush (4), roller (5), etc., and heat-distribute the molded product produced by heat treatment for 3 minutes with constant heat of about 300 ~ 600 degrees. Glass lampshade containing sieve and coated metal / glass lampshade. When manufacturing as stand lampshade, place the lower jaw at the bottom of the shade as shown in Figure 3, and make the lower sealing plate 7 smaller in diameter than the locking jaw (6). Easy lamp replacement and lampshade To prevent it from falling even if it takes on the locking step (6).

Far infrared rays are emitted from the lampshade by the heat of the lamp, and the effect of far infrared rays can be easily obtained in ordinary homes, and it will be an advanced lighting field by converting the interior-focused lighting into functional lighting. The waste heat generated by the wastewater is consumed, but the waste heat is used to contribute to human society.

Claims (3)

5 to 15 weights of powder (approximately 100 to 500 mesh) with far-infrared emitters (bantonite: 10%, mica: 10%, ocher: 4%, charcoal: 4%, jade: 64%, ceramics: 8%) A lamp shade which is manufactured by mixing% and suppresses convection of air when the lamp is turned on so that heat (40 to 80 degrees C) is generated in the lampshade so that far-infrared rays are radiated from the far-infrared radiator. Lampshade, which is to seal the upper or lower part of the lampshade in order to keep the lampshade at a constant temperature (40 ~ 80 ℃) so that the lampshade is not cooled by the air convection caused by heat. When the lamp shade is made of far-infrared emitters such as jade, charcoal, ceramic, ocher, etc. in the second paragraph, the jaw (6) is fastened to the lower sealing plate (7) with a catch jaw (6) at the bottom of the shade as shown in FIG. The lampshade has a smaller diameter, making it easier to replace the lamp and prevent the lampshade from falling down due to the locking jaw (6) even if the lampshade is tilted.