KR100997006B1 - A LED Lamp of Air filter Type - Google Patents

Abstract

The present invention is to increase the refractive direction of the light irradiated through the LED and the ultraviolet lamp by the fine embossing projection having a small refractive index and a large refractive index on the surface formed innumerably on the back of the lamp cover, accordingly the lamp cover It is possible to significantly reduce the glare of the light through the eye and the resulting stress on the eyes, as well as to increase the coating area of the photocatalyst coated on the surface of the lamp cover, as well as arc embossing The projection part increases the direction of refraction of light, and thus a greater amount of light is irradiated to the photocatalyst, thereby providing an air purifying LED lamp capable of further improving air cleaning functions such as sterilization and deodorization through the photocatalyst and self-cleaning effect. .

The technical configuration, a plurality of LEDs 120 and the ultraviolet lamp 121 is installed at regular intervals through the circuit board 130 in the interior of the lamp body 110, the of the lamp body 110 The lower side of the lamp cover 140 is installed to be fixed to the coupling bolt 150 as a coupling bolt, the back of the lamp cover 140 that is addressed with the LED lamp body 110 is formed a myriad of small minute projections 160 of small size To the surface of the lamp cover 140, arc-shaped embossing protrusions 170 having a large refractive index protruding at regular intervals to prevent glare of the LED light, arc-shaped embossing protrusions protruding on the surface of the lamp cover 140 In 170, the photocatalyst 180 is formed to be laminated to a predetermined thickness.

Lamp body part, LED, ultraviolet lamp, lamp cover, photocatalyst

Description

LED lamp with air purification {A LED Lamp of Air filter Type}

The present invention relates to an LED (LED) lamp cover, in particular a number of small protrusions are formed on the back of the lamp cover to be addressed to the LED lamp body, and arc-shaped embossing protrusions having a large refractive index to the surface of the lamp cover Protruding at regular intervals, the arc-shaped embossing projection projecting on the surface of the lamp cover is formed by stacking photocatalysts with a constant thickness, the small protrusions formed on the back of the lamp cover a myriad size and arc shape having a large refractive index on the surface By the embossing projection, the direction of refraction of the light irradiated to the LED and the ultraviolet lamp is increased, thereby remarkably reducing the glare of the light through the lamp cover and the resulting increase in eye fatigue. Of course, the coating of the photocatalyst is coated on the surface of the lamp cover Not only is the area wider than the plane, but the arc-embossing projection with a large refractive index increases the direction of refraction of light, so that more light is irradiated to the photocatalyst, thereby purifying air and sterilizing through the photocatalyst and self-cleaning effect. The present invention relates to an LED lamp capable of purifying air to further improve the efficiency.

In the case of incandescent lamps or fluorescent lamps, which are generally used as indoor lighting lamps, the intensity of light emitted directly from an incandescent lamp becomes relatively strong, resulting in extreme glare, as well as high power consumption. Since the lighting effect is obtained using the built-in phosphor and UV wavelength, there is a big disadvantage that eye fatigue is increased by the light of the fluorescent lamp.

Therefore, recently, a lamp having an LED as an illumination by improving the above disadvantages is known from Patent No. 0847872.

That is, the technical configuration is, as shown in Figure 1, a plurality of LEDs 20 are installed at regular intervals through the circuit board 30 in the interior of the lamp body 10, the lamp body ( At the upper side of 10), the lamp cover 40 formed of a glass lamp is constructed in a slide-mounted configuration.

Accordingly, the LEDs 20 arranged at regular intervals on the circuit board 30 of the lamp body unit 10 emit light by the current supplied to the circuit board 30. Light emitted from the light is reflected by the lamp cover 40 installed on the upper side of the lamp body unit 10 to obtain a lighting effect of the room using a relatively small power, the current detection unit installed on the circuit board 30 ( (Not shown) to block the overcurrent.

However, in the case of the LED lamp as described above, the light emitted from a plurality of LEDs 20 arranged on the circuit board 30 of the lamp body portion 10, the upper lamp cover of the lamp body portion 10 ( Since it is not properly refracted at 400 and reflected directly into the room, the intensity of the light through the LED is still strong, thereby causing a glare phenomenon, as well as an increase in eye fatigue. It is.

The present invention has been made in order to solve the various problems as described above, the object is, the back of the lamp cover that is addressed to the LED (LED) lamp body is formed a myriad of small minute projections of a small size, to the surface of the lamp cover Arc-shaped embossing projections having a large refractive index protruding at regular intervals, the arc-shaped embossing projections projecting on the surface of the lamp cover is formed by stacking photocatalysts with a constant thickness, the small size of the small protrusions formed on the back of the lamp cover And by the arc-shaped embossing projection having a large refractive index on the surface, so that the direction of refraction of the light irradiated from the LED and the ultraviolet lamp is increased, accordingly the glare phenomenon of the light through the lamp cover and the phenomenon that the fatigue caused by eye It is possible to significantly reduce, of course, the lighting The coating area of the photocatalyst coated on the surface of the burr is not only wider than the plane, but also by the arc-shaped embossing projection having a large refractive index, the direction of refraction of light is increased, so that more light is irradiated onto the photocatalyst, thereby sterilizing and deodorizing the photocatalyst. The present invention relates to an LED lamp capable of purifying air to further improve the air cleaning function and self-cleaning effect.

As a technical configuration for achieving the above object, the present invention, a plurality of LEDs and ultraviolet lamps are installed at regular intervals through a circuit board inside the lamp body, the lamp cover is coupled to the lower side of the lamp body. It is installed to be fixed as a coupling, the surface of the lamp cover arc-shaped embossing projections are installed at regular intervals, the arc-shaped embossing projections projecting on the surface of the lamp cover LEDs capable of air purification to form a photocatalyst laminated to a certain thickness In the luminaire,

On the back of the lamp cover to be addressed with the LED lamp body portion, a small number of small protrusions are formed on the surface of the lamp cover, the surface of the lamp cover embossed protrusions having a large refractive index protruding at regular intervals to prevent glare of the LED light is installed In addition, the surface of the lamp cover by providing a light-emitting LED lighting lamp, characterized in that the photocatalyst formed of a titanium oxide of 0.5 ~ 5μm thickness is laminated.

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According to the LED lamp capable of air purification according to the present invention, a number of small protrusions having a small size is formed on the back of the LED lamp body and the lamp cover to be addressed, and the arc-shaped embossing protrusions having a large refractive index on the surface of the lamp cover at regular intervals. Installed on the surface of the lamp cover, wherein the arc-shaped embossing protrusion protruding from the surface of the lamp cover is formed by stacking photocatalysts with a predetermined thickness, and the micro-projection portion having a small size formed on the rear surface of the lamp cover and an arc-shaped embossing protrusion having a large refractive index on the surface thereof. By doing so, the direction of refraction of the light irradiated from the LED is increased, thereby remarkably reducing the glare of the light through the lamp cover and the consequent increase of eye fatigue, as well as the lamp The coating area of the photocatalyst coated on the surface of the cover is In addition to being wider, the arc-shaped embossing projection having a large refractive index increases the direction of refraction of light, so that more light is irradiated to the photocatalyst, thereby further improving air cleaning functions such as sterilization and deodorization through the photocatalyst and self-cleaning effect. That has an excellent effect.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

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

Figure 2 is an exploded perspective view of the LED lamp and the lamp cover to be spoken according to the present invention, Figures 3 and 4 is a diagram showing the state of light refraction through the lamp cover of the present invention and the main portion enlarged cross-sectional structure of the lamp cover, Figure 5 is a view showing an enlarged area of the photocatalyst laminated on the lamp cover according to the present invention, a plurality of LED 120 and the ultraviolet lamp 121 through the circuit board 130 inside the lamp body 110. ) Are installed at regular intervals, and the lamp cover 140 is installed to be fixed as a coupling bolt 150 at the lower side of the lamp body unit 110.

In addition, a small number of minute projections 160 are formed on the back surface of the LED lamp body 140 and the lamp cover 140 that is addressed, and the surface of the lamp cover 140 to prevent glare of the LED light. The arc-shaped embossing protrusion 170 having a large refractive index is installed to protrude at regular intervals, the arc-shaped embossing protrusion 170 protruding on the surface of the lamp cover 140 is configured such that the photocatalyst 180 is laminated to a predetermined thickness. Is done.

Referring to the operation and effect of the present invention made of such a configuration as follows.

2 to 5, in the state in which a plurality of LEDs 120 and ultraviolet lamps 121 are installed at regular intervals through the circuit board 130 inside the lamp body 110. The lower side of the lamp body unit 110, the lamp cover 140 is installed as a coupling bolt 150 is spaced apart by a fixed distance so that the coupling fixed, LED 120 is light by the current supplied to the circuit board 130. In this case, the light emitted from the LED 120 is reflected by the lamp cover 40 spaced apart from the lamp body unit 110 to obtain a lighting effect of the room using relatively little power.

At this time, in the state in which a small number of minute projections 160 of the small size is formed on the back of the lamp cover body 140 and the lamp cover body 140 to be addressed, to prevent the glare of the LED light on the surface of the lamp cover 140 For this purpose, arc-shaped embossing protrusions 170 having a large refractive index are installed at regular intervals.

Therefore, as shown in FIG. 3, the light emitted from the LED 120 is refracted while causing diffuse reflection in the minute projections 160 having a small size on the rear surface of the lamp cover 140, and again, the surface of the lamp cover 140 is The arc-shaped embossing protrusion 170 is refracted with a large refractive index to prevent glare of the LED light.

In addition, the arc-shaped embossing protrusion 170 protruding from the surface of the lamp cover 140 is formed by stacking the photocatalyst 180 to a predetermined thickness, as shown in FIG. When the ultraviolet rays are irradiated by the same ultraviolet lamp 121, the stacking area of the photocatalyst 180 stacked on the arc-shaped embossing protrusion 170 is not only enlarged more than when it is flat, but also the light is refracted to be larger. The light is irradiated to the photocatalyst particles, thereby further improving the air cleaning function and self-cleaning effect such as sterilization and deodorization by the photocatalyst 180.

Subsequently, the lamp cover 140 is made of any one of glass (including crystal), acrylic, light diffusion PC, and ABS, and the photocatalyst 180 formed on the surface of the lamp cover 140 is made of titanium oxide. Thus, as well as the brightness of the light, to prevent the pollution of the air and the air purification effect through the titanium oxide, as well as sterilization and odor removal effect and so on. In addition, the problem that the illuminance is lowered due to surface contamination generated over time may be solved by the self-cleaning effect of the photocatalyst.

In this case, when the stacking thickness of the photocatalyst 180 is laminated to be 0.5 μm or less, the inherent effect of the photocatalyst may not be obtained due to the too thin thickness, and when the stacking thickness of the photocatalyst 180 is 5 μm or more, This is because the light through the LED may be blurred by a relatively thick photocatalyst, and in the present invention, it is preferable that the stack thickness of the photocatalyst 180 is 0.5 to 5 μm.

Accordingly, the direction of refraction of the light irradiated from the LED 120 is controlled by the micro-projection 160 having a small size formed on the rear surface of the lamp cover 140 and the arc-shaped embossing projection 170 having a large refractive index on the surface. The photocatalyst is coated on the surface of the lamp cover 140 so as to significantly reduce the glare of the light through the lamp cover 140 and thus the fatigue of the eyes. The coating area of 180 may be enlarged by the arc-shaped embossing protrusion 170 to further improve the air purification function and self-cleaning effect such as antibacterial, sterilization, and deodorization through the photocatalyst 180.

1 is a schematic exploded perspective view of a conventional LED lamp.

Figure 2 is an exploded perspective view of the LED lamp and the lamp cover to be addressed according to the present invention.

3 is a view showing a state of refraction of light through the lamp cover of the present invention.

Figure 4 is an enlarged cross-sectional structural view of the main portion of the lamp cover of the present invention.

5 is a view showing an enlarged area of the photocatalyst laminated on the lamp cover according to the present invention.

<Description of the symbols for the main parts of the drawings>

110.Lighting main body 120 ... LED

121 UV lamp 130 Circuit board

140.Lighting cover 150 ... Bolt bolt

160 ... fine protrusion 170 ... embossed protrusion

180.Photocatalyst

Claims (4)

A plurality of LEDs 120 and an ultraviolet lamp 121 are installed at regular intervals through the circuit board 130 inside the lamp body 110, and a lamp cover 140 is disposed below the lamp body 110. ) Is installed to secure the coupling as a coupling bolt 150, the surface of the lamp cover 140 arc-shaped embossing projections 170 are installed to protrude at regular intervals, arc-shaped embossing protruding on the surface of the lamp cover 140 In the projection 170 is an LED lamp capable of purifying the air so that the photocatalyst 180 is laminated to a certain thickness, On the back of the LED lamp body 140 and the lamp cover 140 to be addressed is a myriad of small minute projections 160 of a small size is formed, the surface of the lamp cover 140 has a large refractive index to prevent glare of LED light The arc-shaped embossing protrusion 170 having a protrusion is installed at regular intervals, and the surface of the lamp cover 140 has a photocatalyst 180 formed of titanium oxide having a thickness of 0.5 to 5 μm. LED light available. delete delete delete

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