KR100444403B1 - Composite of lamp shade contain jade - Google Patents

Abstract

The present invention relates to the composition of a lampshade containing jade powder, it is possible to emit far-infrared rays by the internal lighting, and to allow the generation of negative ions, deodorization, mold and bacterial habitat by jade at the same time as the far-infrared radiation. do.

In addition, it is possible to control the illuminance of the lighting through the addition amount of the jade powder has the effect that can achieve a variety of indoor atmosphere.

The composition for the preparation of the lamp shade of the present invention for realizing this is a glass composition comprising silica powder, soda ash, limestone, salt stone, borax, suminium, arsenic acid, antimony, fluorite, powdered carbonate powder, etc. in a predetermined ratio. In the composition, by adding jade powder to the glass raw material, the jade powder is characterized in that containing 25 to 35% by weight relative to the silica content.

Description

Composition of lampshade containing jade powder {COMPOSITE OF LAMP SHADE CONTAIN JADE}

The present invention relates to a lampshade containing jade powder, and more particularly, by adding a material that emits far-infrared rays to the composition when manufacturing a glass material that is manufactured as a lampshade for protecting the lamp according to the emission of the lamp. By allowing far infrared rays to be emitted from the lampshade, it relates to the glass composition of the lamp for the far-infrared radiation lamp to benefit the human body and to make the surrounding living environment comfortable.

In general, the lampshade is used not only to protect the lamp and to make the illumination by the lamp indirect lighting, but also to show the effect of the interior design, such a lamp cover is manufactured in various forms to produce a variety of indoor atmosphere. .

On the other hand, in recent years, in order to improve the living environment, along with the pursuit of aesthetics of lighting lamps, the development of lighting lamps that emit far-infrared rays using radiant infrared rays such as lighting lamps, which are mainly consumed as heat, is being developed.

Far-infrared rays are known to be transmitted through the human body as long-wave infrared rays with high permeability and obtain excellent treatment effect. This far-infrared ray is close to the natural frequency of the organic polymer compound molecule in nature and is easily absorbed and resonated in the molecule. Comes from.

Therefore, when far-infrared rays are irradiated to the human body, it activates the subcutaneous tissue of the human body to warm the body and promote metabolism, and in food, etc., it maintains the freshness by disinfection and deodorization, and also removes impurities from the air. It has been proved empirically that it is beneficial to the ecosystem, such as to cleanse it.

Recently, far-infrared radiation lamps using such far-infrared rays have been developed, and one of them is coated with a far-infrared radiation substance emitting far-infrared rays on an outer surface or a part of an inner surface of the glass bulb, thereby causing far-infrared radiation by heat generated from a lamp. Techniques for radiating far infrared radiation with visible light by heating the material have been known.

However, in the case of far-infrared radiation treatment on the above bulbs, the coating process of coating the far-infrared radiation material on the inner surface of the glass sphere is very difficult, and even when the outer surface is coated, the coating state of the coating liquid (far-infrared radiation material) is It is not easy to be uniform or incompletely adhered to, and the use of such incompletely coated bulbs for a long period of time will cause the coating layer to crack and fall off due to the strong radiant heat emitted from the bulb. The far-infrared radiating material coated by the aging has a problem that later loses the radiation ability of the far-infrared.

The present invention has been proposed to improve the above-described conventional problems, by adding a predetermined amount of jade powder to the composition during the manufacture of lampshade, far-infrared radiation that is beneficial to the human body during light emission and keeps the surrounding living environment comfortable. It can be, together with the purpose to provide a glass composition that can be added together with the adjustment of the illumination for the production of a variety of indoor atmosphere.

The above object is a composition for preparing lampshade for lamps, in which silica, powder, soda ash, limestone, salt stone, borax, sorghum, arsenic acid, antimony, fluorite, and carbonate powder are mixed at a predetermined ratio, Composition by adding a powder, but the jade powder can be achieved through the composition of the lampshade containing the jade powder, characterized in that it contains 25 to 35% by weight relative to the silica content.

Hereinafter, a specific embodiment of the present invention will be described.

The composition of the lamp for manufacturing a lamp for a lamp according to the present embodiment is as shown in the following [Table 1].

Glass composition (unit: kg) Number Product Name usage One Silica powder 480 2 Soda ash 216 3 Limestone 9.6 4 Cornerstone 16.8 5 Carbonate 12 6 borax 19.2 7 Sumina 4.8 8 Arsenic acid 8.4 9 antimony 1.2 10 fluorite 3.6 11 jade 144

That is, in the present embodiment, in the manufacture of lampshades of a specific shape to protect the bulb by mixing the materials commonly used in the manufacture of glass, such as silica powder and soda ash, as shown in the table above when mixing the materials About 144kg of jade powder, which is 30% by weight based on the weight of the silica powder contained in 480kg, is added.

Although jade powder is added in an amount of 30% by weight relative to the weight of the silica powder, the mixing ratio of the jade powder to the silica powder for maximizing the far infrared radiation effect may be most preferably in the range of 25 to 35% by weight.

If the mixing ratio of the jade powder is added in more than 35% by weight, the far-infrared radiation can be increased, but the light transmittance of the illumination glass is reduced to reduce the illuminance, when added to less than 25% by weight Far infrared radiation dose is reduced so that the effective far infrared rays effect cannot be exhibited.

On the other hand, the far-infrared emissivity of the glass manufactured by the composition ratio of the above embodiment was measured by requesting the far-infrared applied evaluation research institute attached to the Korea Far Infrared Association, and as a result 5 It was confirmed that the emissivity of the wavelength band of ˜20 ㎛ was 0.905 (90.5%), and the emitted energy was 3.64 × 10 ² W / m ² (Test Report No.: KFI-644, November 2001) Work)

The wavelength range of 5 to 20 μm represents a far infrared ray emission range beneficial to the human body.

Therefore, when manufacturing the lampshade in a variety of different shapes using the glass material made of the composition of the present invention, it is possible to protect the internal lighting and at the same time maintain a soft illuminance, 40 As the temperature inside and outside the ℃ will emit far infrared rays that are beneficial to the human body constantly in the lamp shade.

In other words, when the internal lighting is turned on, by radiating an appropriate level of far-infrared radiation, which is beneficial to the human body, it is absorbed deeply by the human body to promote cellular activities, facilitate blood circulation and metabolism, and discharge waste products in the human body, thereby preventing various adult diseases. In addition, fatigue, anti-aging, health promotion, etc. can be obtained.

In addition, the conventional lighting lamp and lampshade had problems such as peeling phenomenon that the coating layer cracks and falls off by using a method of separately forming a far infrared ray layer on the outer surface of the glass material which is manufactured for far infrared ray generation. In the present invention, it can be seen that by adding the jade powder to the glass composition, the manufacturing of the lamp shade is made possible to enjoy a semi-permanent far-infrared effect.

In addition, although specific embodiments of the present invention have been described above, it is obvious that the composition of the lamp shade containing the jade powder of the present invention may be variously modified and implemented by those skilled in the art.

Therefore, such modified embodiments should not be understood individually from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

Lamp shade shade made of the composition material of the present invention as described above, the jade powder is evenly distributed therein, it is possible to radiate far infrared rays by the heat of illumination, and the negative ion generated and deodorized by the jade at the same time as the far infrared radiation Inhibition of fungi and bacterial habitats is possible.

In addition, it is possible to control the illuminance of the lighting through the addition amount of the jade powder has the effect that can achieve a variety of indoor atmosphere.

Claims (1)

In the glass material composition for manufacturing a lampshade made of silica powder, soda ash, limestone, saltpeter, borax, minamina, arsenic acid, antimony, fluorite, carbonate powder and the like in a predetermined ratio, the jade powder in the glass raw material The composition of the lamp lamp containing the jade powder, characterized in that it is added to the composition, but the jade powder is contained in 25 to 35% by weight relative to the silica content.