KR20190002279U - Indirect lighting fixtures using LED - Google Patents

Abstract

The present invention relates to an indirect lighting luminaire using an LED, and more particularly, to produce a comfortable and comfortable indoor atmosphere by irradiating a light source to the room.
The present invention is a plurality of LEDs installed at regular intervals on the upper surface of the circuit board 100 and the upper surface of the circuit board 100 so that the light is emitted when the external power is applied to the circuit board 100 and the external power supply; (200), the diffusion lens 300 formed on the LED upper surface to irradiate the light emitted from the LED 200 to the outside, and indirectly while converting the irradiation angle of the light irradiated through the diffusion lens 300 Consists of a reflection shade 400 to be irradiated to, the reflection shade 400 is formed through the irradiation hole 410 through which the light emitted from the LED 200 is irradiated to the outside through the diffusion lens 300, the The primary refraction portion 420 that primarily refractes the light irradiated through the irradiation hole 410 is formed in an arc shape on the upper portion of the irradiation hole 410, and the refraction is made through the primary refraction portion 420. While refracting the light again, the indirect lighting An irradiation surface 430 irradiated to be lured is formed to be inclined at the lower portion of the irradiation hole 410, and an upper portion of the LED 200 emitting light refracted through the irradiation surface 430 and the primary refractive portion 420. The intermediate portion of the diffusion lens 300 to be molded into is achieved by molding into a concave lens type which is dug inwardly.

Description

Indirect lighting fixtures using LED

The present invention relates to an indirect lighting luminaire using an LED, and more particularly, to an indirect lighting luminaire using an LED to produce a comfortable and comfortable indoor atmosphere by irradiating a light source to the room.

In general, lighting devices using LEDs as light sources have been developed in consideration of problems such as high power consumption and short lifespan of conventional light source means.

When LED is used as a light source, the life of the lighting device is significantly increased compared to the existing light source, and thus the amount of waste emitted is significantly reduced to prevent environmental pollution, and it is expected to contribute to energy saving by low power consumption have.

However, LED is a point-type light source, and in order to use it as a light source without glare, it must be a structure capable of surface emission, and is usually attached to the ceiling for indoor lighting.

Such lighting is referred to as direct lighting, and indirect lighting is to illuminate a room with the reflected light and to illuminate the ceiling or wall.

As an example of an indirect lighting device using a conventional LED Patent No. 10-1015257 (registered February 9, 2011, there is a luminaire for indirect lighting device using the LED).

The indirect lighting device luminaire described in the registered patent has a surface-shaped adhesion of the main body, the PCB substrate inside the main body, the fixing bracket for adjusting the angle of the main body, the surface contact with the side wall of the connection frame embedded in the ceiling or wall It is composed of members.

In other words, the connection frame is embedded in a part of the wall or ceiling, and is configured to support the bar-shaped LED lighting unit (body) by using a fixing bracket fixed by an adhesive member in the connection frame.

However, such a conventional indirect lighting apparatus has a problem such that glare is generated because the light having a linearity of light emitted from the LED is irradiated through the convex lens type diffusion lens widely.

Korea Patent Registration No. 10-243624 (1999.11.17)

An object of the present invention is to solve the problems as described above, the light generated from the LED is vertically irradiated through the diffusion lens and then the illumination angle of the tube by the reflector can be indirectly illuminated the room. It is to provide an indirect lighting luminaire using the LED.

The indirect lighting luminaire using the LED of the present invention for achieving the above object is a circuit board 100 that is electrically connected to an external power source, and the circuit board 100 to emit light when an external power source is applied to the circuit board 100. A plurality of LEDs 200 installed on the upper surface of the substrate 100 at regular intervals, a diffusion lens 300 formed on the LED upper surface to irradiate the light emitted from the LEDs 200 to the outside, and the diffusion Consists of a reflection shade 400 for indirectly irradiating while converting the irradiation angle of the light irradiated through the lens 300, the reflection shade 400 is the light emitted from the LED 200 through the diffusion lens 300 Irradiation hole 410 to be irradiated with the through is formed, and the primary refractive portion 420 that primarily refracts the light irradiated through the irradiation hole 410 is arc-shaped on the upper portion of the irradiation hole 410 Formed, the primary Irradiation surface 430 is irradiated to be indirectly illuminated while refracting the light refracted through the cutting portion 420 is formed to be inclined in the lower portion of the irradiation hole 410, the first surface and the first refractive index An intermediate portion of the diffusion lens 300 formed on the LED 200 that emits light refracted through the portion 420 is achieved by being molded into a concave lens type that is dug inwardly.

According to the present invention, the energy-efficient LED is used to provide a comfortable and comfortable atmosphere to the people living in the room while irradiating a soft light source to the room. It is a very useful design with the effect that the residents can live without feeling discomfort such as glare by the light generated from the LED.

1 is an exploded perspective view showing the configuration of the luminaire for indirect lighting using the LED of the present invention
Figure 2 is a cross-sectional view showing the configuration of the indirect lighting luminaire using the LED of the present invention
Figure 3 is an enlarged cross-sectional view showing the main part showing the luminaire for indirect lighting using the LED of the present invention

Hereinafter, the technical configuration of the present invention with reference to the accompanying drawings in detail.

1 is an exploded perspective view showing the configuration of the indirect lighting luminaire using the LED of the present invention, Figure 2 is a cross-sectional view showing the configuration of the indirect lighting luminaire using the LED of the present invention, Figure 3 is for indirect lighting using the LED of the present invention An enlarged sectional view of the main part showing the luminaire.

The indirect lighting luminaire using the LED of the present invention, as shown in Figures 1 to 3, the circuit board 100 is electrically connected to an external power source, and when the external power is applied to the circuit board 100 A plurality of LEDs 200 are provided on the upper surface of the circuit board 100 at regular intervals so as to be made, and the diffusion lens is formed on the upper surface of the LED 200 to irradiate the light emitted from the LED 200 to the outside. 300 and a reflection shade 400 for indirectly irradiating while converting an irradiation angle of light irradiated through the diffusion lens 300.

On the other hand, the reflection shade 400 is formed through the irradiation hole 410 through which the light emitted from the LED 200 is irradiated to the outside through the diffusion lens 300 is formed, and is irradiated through the irradiation hole 410 The primary refraction portion 420 that primarily refractes the light is formed in an arc shape on the upper portion of the irradiation hole 410, and indirectly lights while refracting the light refracted through the primary refraction portion 420 again. Irradiation surface 430 to be made to be made is inclined at the lower portion of the irradiation hole 410.

In addition, the diffusion lens 300 formed on the LED 200 emitting light refracted through the irradiation surface 430 and the primary refractive portion 420 is a concave lens type in which the middle portion is dug inwardly. Molded.

According to the present invention configured as described above, the LEDs 200 having the diffused lens 300 formed thereon are coupled to the reflection shade 400 with a plurality of circuit boards 100 installed at regular intervals on the upper surface.

At this time, the circuit board 100 is coupled to the irradiation hole 410 formed in the reflection shade 400 so that the diffusion lens 300 for diffusing the light generated by the LED 200 is located.

Accordingly, when external power is applied to the circuit board 100 to emit light from the LED 200, the light emitted from the LED 200 is irradiated through the diffusion lens 300.

At this time, the diffusion lens 300 is formed in the concave lens type of the middle portion is dug inward so that the light emitted from the LED 200 is irradiated to the outside through the center portion.

The light irradiated through the diffusion lens 300 illuminates the room through the irradiation hole 410 of the reflection shade 400.

At this time, the light irradiated through the irradiation hole 410 is primarily refracted through the primary refractive portion 420, the light refracted through the primary refractive portion 420 again the irradiation surface 430 After refracted by the light will illuminate the room.

Therefore, the residents living in the building by the light generated from the LED 200 having a straightness will be able to live without feeling the inconvenience, such as glare.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is possible to substitute various modifications, modifications, and changes within the scope of the technical idea of the present invention. It will be apparent to those who have it.

100: circuit board
200: LED
300: diffused lens
400: reflection shade
410: surveyor
420: primary refractive portion
430: irradiation surface

Claims (1)

A circuit board 100 electrically connected to an external power source,
LEDs 200 are installed in a plurality at regular intervals on the upper surface of the circuit board 100 to emit light when an external power is applied to the circuit board 100;
A diffusion lens 300 formed on the upper surface of the LED to irradiate the light emitted from the LED 200 to the outside;
Consists of the reflection shade 400 to indirectly irradiate while converting the irradiation angle of the light irradiated through the diffusion lens 300,
The reflection shade 400 is formed through the irradiation hole 410 through which the light emitted from the LED 200 is irradiated to the outside through the diffusion lens 300, the light is irradiated through the irradiation hole 410 The primary refraction portion 420 to be primarily refracted is formed in an arc shape on the upper portion of the irradiation hole 410, so that the illumination is indirectly while refracting the light refracted through the primary refraction portion 420 again. Irradiation surface 430 to be irradiated is formed to be inclined to the lower portion of the irradiation hole 410, molded on the upper portion of the LED 200 for emitting light refracted through the irradiation surface 430 and the primary refractive portion 420 The intermediate portion of the diffused lens 300 is indirect lighting luminaire using the LED, characterized in that formed into a concave lens type dug into the interior.

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