KR100465096B1 - Reflector for lighting - Google Patents

Abstract

PURPOSE: A reflector for lighting is provided to enhance an efficiency of a light, to increase an illuminance, to reduce an oxidized constitution, to make a feeling fresh and to maintain a health. CONSTITUTION: The reflector for lighting(20) comprises mixing a metal oxide comprising 30.4 wt.% of Al2O3, 6.28 wt.% of SiO2, 2.42 wt.% of TiO2, 6.46 wt.% of MgO, 2.81 wt.% of CaO, 0.32 wt.% of Fe2O3 and 46.3 wt.% of ZrO2; and 5.01 wt.% of clay, firing at a temperature of 1500 deg.C and pulverizing to obtain a fine ceramic; mixing 11 to 29 wt.% of the ceramic and 89 to 71 wt.% of a powdery reflecting paint as a solid aggregate having a particle diameter of 0.1 to 20 micrometers; and applying it to an inner reflecting side(21) of a reflector(20) in a thickness of 50 to 90 micrometers to form a ceramic paint film(10).

Description

Reflector for lighting device {Reflector for lighting}

The present invention relates to a reflecting plate for an illumination device, by using a reflecting plate that combines negative ions and far-infrared radiation to improve the efficiency of the luminaire to reduce the oxidized constitution to the contaminated positive ions as the illuminance increases The present invention relates to a reflector for a lighting device that refreshes the mood, increases natural healing power, activates cells, facilitates fatigue recovery, increases breathing function, and maintains more vital human health and prevents and cures diseases. .

The light reflector is a reflector for lighting fixtures, such as ceiling recesses, chain and pipe pendants, incandescent, and home lighting.

Home lighting is widely used in apartments and the like for creating a cozy atmosphere and simplicity of lighting, and is widely used for general lighting and local lighting in department stores with a large number of people or factories with many workers.

Currently, in large cities, polluted air with a lot of positive ions is formed by automobile exhaust, factory smoke, and cigarette smoke.The polluted air with a lot of positive ions has unpleasant irregularities such as headache, irritability, and dizziness. In addition to causing an appeal, there is a problem that causes various diseases and promotes aging by deteriorating cells of human tissues, stimulating autonomic nerves and blood circulation.

On the other hand, if there are a lot of negative ions in the air, the mood is refreshed, the body is relaxed, the mind is stabilized, the respiratory function is improved, and the physiology is improved. By reducing to neutral, the body's natural healing power is increased, and the cells are activated to keep the youth and vitality healthy by restoring fatigue, preventing various diseases, and natural healing.

On the other hand, when far-infrared rays (wavelengths of 7 to 30 microns) are absorbed by the human body, they penetrate deeply into the living body due to deep penetration, resonance, and absorption, resulting in thermal effects, microvascular expansion, blood circulation promotion, and activation of depleted human cells. In addition, it promotes metabolism and maintains youth and health by exhaling waste and harmful metals in vitro, and has various effects such as preventing diseases.

The present invention improves the efficiency of a luminaire by using a reflector plate that combines negative ions and far-infrared radiation, which are very beneficial to the human body of humans operating under an illumination environment, and thus, oxidized into contaminated positive ions as the illumination intensity increases. Reflector for lighting device to reduce energy loss, refresh mood, increase natural healing power, activate cells, ease fatigue, increase breathing function, etc. The purpose is to provide.

Figure 1a is a perspective view showing the appearance of a reflecting plate formed ceramic coating film of the present invention,

1B is a half sectional view seen from the front of FIG. 1A;

Figure 2a is a perspective view of the installation state showing another appearance of the reflecting plate formed ceramic coating film of the present invention,

2B is a bottom view of FIG. 2A,

FIG. 2C is a half sectional view seen from the front of FIG. 2B;

Figure 3a is a front view showing another embodiment of the reflecting plate formed ceramic coating film of the present invention,

FIG. 3B is a bottom view of the lid of FIG. 3A with the lid open; FIG.

* Description of the symbols for the main parts of the drawings *

1: lighting lamp 10: ceramic coating film

20: reflector 21: reflecting surface

30 lamp 31 lamp socket

In order to achieve the above object, the present invention is a reflection plate of the luminaire; 11-29% by weight of the ceramic reflector paint 89-71% by weight and applied to the inner reflecting surface of the reflection plate in a thickness of 50㎛ ~ 90㎛ It is characterized by including a ceramic coating film.

The ceramic of the ceramic coating film applied to the reflective surface is Al ₂ O ₃ 30.4% by weight, SiO ₂ 6.28% by weight, TiO ₂ 2.42% by weight, MgO 6.46% by weight, CaO 2.81% by weight, Fe ₂ O ₃ 0.32% by weight, ZrO ₂ After mixing 46.3% by weight of metal oxide and 5.01% by weight of clay, it is calcined at 1500 ° C to be processed into fine powder.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

Figure 1a is a perspective view showing a state of the reflector plate formed with a ceramic coating film of the present invention, Figure 1b is a half sectional view seen from the front of Figure 1a, Figure 2a is a perspective view showing an installation state showing another state of the reflector plate formed with a ceramic coating film of the present invention, 2B is a bottom view of FIG. 2A, FIG. 2C is a half sectional view seen from the front of FIG. 2B, and FIG. 3A is a front view showing still another view of a reflecting plate on which the ceramic coating film of the present invention is formed, and FIG. 3B is opening the lid of FIG. 3A. Bottom view of a state.

In the reflecting plate for the lighting device of the present invention, a ceramic which is mixed with 11 to 29% by weight of the ceramic reflecting paint and 89 to 71% by weight and applied to the internal reflecting surface 21 of the reflecting plate 20 in a thickness of 50 μm to 90 μm. It is provided with the coating film 10.

Powder reflective paint generally refers to a reflective paint, which is a collection of solid materials having a particle diameter of 0.1 μm to 100 μm, but here, a reflective paint that is a collection of solid materials having a particle diameter of 0.1 μm to 20 μm is used.

The ceramic of the ceramic coating film 10 applied to the reflective surface 21 is 30.4 wt% Al ₂ O ₃ , 6.28 wt% SiO ₂ , 2.42 wt% TiO ₂ , 6.46 wt% MgO, 2.81 wt% CaO, Fe ₂ O ₃ 0.32% by weight of metal oxides of 46.3% by weight of ZrO ₂ and 5.01% by weight of clay are mixed, and then calcined at 1500 ° C to be processed into fine powder.

Referring to the use state of the present invention as follows.

1A and 1B, 30.4 wt% Al ₂ O ₃ , 6.28 wt% SiO ₂ , 2.42 wt% TiO ₂ , on the reflecting surface 21 inside the reflecting plate 20 with a small irradiation angle of the lamp 1. MgO 6.46% by weight, CaO 2.81% by weight, Fe ₂ O ₃ 0.32% by weight, ZrO ₂ 46.3% by weight of the metal oxide and clay 5.01% by mixing, and then baked at 1500 ℃ temperature processed ceramic coating film ( 10) 11-29 weight% is mixed with 89-71 weight% of powder reflection paints, and the ceramic coating film 10 apply | coated to the thickness of 50 micrometers-90 micrometers is formed.

The reflective plate 20 having the ceramic coating film 10 formed thereon reflects the light downward when the lamp 30 fitted to the lamp socket 31 emits a large amount of far infrared rays and negative ions. .

At this time, in order to examine the amount of negative ions released, the applicant requested a test by the Korea Far Infrared Ray Evaluation Institute (Korea Far Infrared Association), and obtained the results as shown in Table 1.

Table 1

Sample Name＼Item Anion (ION / cc) Functional downlight 5340

Remarks 1) Test Method: KFIA-FI-1042

2) Test piece: 50 × 100mm

3) Room temperature 23 ℃, humidity 48%, in the air

Tested under anionic water 102 / cc and released from the object

This is the result of measuring the anion and displaying it as ION per unit volume.

In addition, the results of requesting the test of far-infrared emissivity and radiation energy at this time are shown in Table 2 below.

Table 2

Emissivity (5-20㎛) Spinning energy (W / m ² · ㎛, 60 ℃) 0.907 4.80 × 10 ²

Remarks) This test was conducted at 60 ℃ according to the request of the client and FT-IR

This is the result of measuring the black body using the spectrometer.

The table showing the far-infrared emissivity of (Table 2) is shown in (Table 1).

(Table 1)

The diagram showing the far-infrared radiation energy of (Figure 2) is shown in (Figure 2).

(Figure 2)

As such, the lamp 1 having the reflector 20 of the present invention having the ceramic coating film 10 formed therein has an efficiency of 94%, which is significantly higher than that of a general reflector having an efficiency of 68%. Will have

2A to 2C, a ceramic coating film 10 is also formed on the reflecting surface 21 of the reflector plate 20 for fluorescent lamps in an office having a large irradiation angle of the lamp 1 so as to be connected to the lamp socket 31 ( When 30) is turned on, the illuminance is increased to increase the efficiency of the reflector 20, and the negative ions and far-infrared rays of fresh feeling are released to remove the positive ions of contaminated air. .

As shown in FIGS. 3A and 3B, when the ceramic coating film 10 is formed on the reflecting surface 21 of the fluorescent plate reflector 20 in a room where the illumination angle of the lamp 1 is large, the lamp connected to the lamp socket 31 ( Lighting 30) greatly increases the illuminance and emits a large amount of negative ions and far infrared rays.

As described above, the reflective plate 20 on which the ceramic coating film 10 of the present invention is formed emits a large amount of negative ions and far-infrared rays to reduce the constitution oxidized to the positive ions of contaminated city people, and the mood becomes refreshing. , Stabilizes the mind, relaxes the body, improves the body's respiratory function, such as improves the body's biological activity, natural healing powers are increased, the cells are activated to help fatigue, maintain vital health.

The light reflector 20 for the lighting device of the present invention emits negative (-) ions and far-infrared rays even when extinguished, and when the lights are turned on, the temperature rises in the upper part of the reflector 20 to increase the negative ions and the temperature at the time of lighting. By emitting a lot of far-infrared radiation, which is equivalent to 4 squares of, it is possible to provide fresh health and efficient activities for many people who operate under the lighting of this luminaire.

In addition, the evaluation of the ecological effects of negative (-) and far-infrared organisms has already been confirmed in each country, and the activation of human body and the growth promoting effect of animals and plants have been positively evaluated.

As described above, the reflecting plate for the lighting device of the present invention emits negative (-) ions that benefit our lives while utilizing the effective lighting function of the luminaire, radiates far-infrared rays to improve the efficiency of the appliance due to this effect, Increasingly, it is effective in providing health to the human body and improving activity efficiency.

Claims (3)

In the reflecting plate 20 of the luminaire; 30.4% Al ₂ O ₃ , 6.28% SiO ₂ , 2.42% TiO ₂ , 6.46% MgO, 2.81% CaO, 0.32% Fe ₂ O ₃ , 46.3% ZrO ₂ Metal Oxide and 5.01% Clay 11 to 29% by weight of ceramics processed into fine powders and 89 to 71% by weight of powder reflective paint, which is an aggregate of solid materials having a particle diameter of 0.1 μm to 20 μm, Reflecting plate for the illumination device, characterized in that the ceramic coating film 10 is formed by applying this to the internal reflecting surface 21 of the reflecting plate 20 to a thickness of 50㎛ to 90㎛. delete delete