KR20110058941A - Diffusion lens for led - Google Patents

Abstract

PURPOSE: A diffusion lens for an LED is provided to improve illuminance in same power by dispersing the light from the LED evenly. CONSTITUTION: In a diffusion lens for an LED, an incident part is faced with an LED. A circular lower stepped height is formed on the top of the incident part. A lower lens part diffuses a light. A circular upper stepped height is formed on the circular lower stepped height. The upper lens part is formed between upper step heights.

Description

LED diffused lens {diffusion lens for LED}

The present invention relates to an LED (LED) diffused lens, and more particularly, it is possible to evenly spread the light emitted from the LED in all directions, through which the LED diffused to further improve the illuminance with the same power consumption It relates to a lens.

In general, conventional filament and discharge light bulbs have the disadvantage of high power consumption and poor durability, and since a large portion of the supplied power is released as heat, the energy output from the visible light used for actual lighting is determined by the amount of power used. Only 5 ~ 28% had the disadvantage of very low energy efficiency.

On the other hand, LED (Light Emitting Diode) is a semiconductor device that emits light by applying voltage using the characteristics of compound semiconductor, and has many advantages such as high brightness, long life span, and low manufacturing cost compared to size and power consumption. Therefore, the use of the lighting or indicator means to replace the existing bulb is increasing.

In addition, these LEDs have a high energy efficiency of about 50-60% and can provide high-quality lighting with less energy.

However, the light emitted from such an LED element has excellent brightness but has a problem in that its use as illumination is extremely limited because the light spreading width is narrow and straightness.

In order to solve such a problem, a concave lens or the like for additionally diffusing light is installed in the LED lighting device.

An object of the present invention is to invent the conventional drawbacks as described above, to allow the light emitted from the LED to be evenly spread so as to widen the light irradiation area in all directions, thereby further increasing the illuminance with the same power It is to provide an LED diffused lens that can be greatly improved.

In order to achieve the above object, the present invention forms an incidence part facing the LED at the bottom of the LED diffusion lens in a circular plane, and on the upper part of the incidence part, an annular lower step portion having a concentric circle gradually increasing in diameter is formed in multiple stages. Each of the lower stepped parts may include a lower lens part for diffusing light, and an upper part of the lower stepped part may have an annular upper stepped part having a smaller diameter in concentric circles, and the light may be formed between the upper stepped parts. Each of the upper lens portions to be diffused is formed.

According to the LED diffused lens of the present invention, the LEDs are refracted in all directions through the upper and lower stepped portions and the upper and lower lens portions to spread the light irradiation area evenly, thereby further increasing illuminance with the same power consumption. There is an effect that can be greatly improved.

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

As shown in FIGS. 1 to 9B, the LED diffusion lens 10 of the present invention has an incident part 11 formed in a circular plane at the bottom thereof and facing the LED L; An annular lower step portion 12 formed in multiple stages so as to gradually increase in diameter concentrically on an upper portion of the incidence portion 11; Lower lens parts 13 formed between the lower step parts 12 to diffuse light; An annular upper stepped portion (14) formed in multiple stages such that the diameter of the lower stepped portion (12) is concentrically gradually reduced in diameter; The upper step portion 14 is formed between each of the upper lens portion 15 is formed to diffuse the light is a basic feature of the technical configuration.

Here, the LED diffused lens 10 according to the present invention is to diffuse the light emitted from the LED (L) in the light condensing and lateral direction as shown in Figure 5 to spread evenly to widen the light irradiation area, such a diffused lens (10) ) Is made of transparent synthetic resin or glass material.

The incidence portion 11 is formed in a circular plane at the bottom of the diffusion lens 10, and the incidence portion 11 of the diffusion lens 10 is disposed to face the LED L as shown in FIG. 5. At this time, the light emitted from the LED (L) is irradiated to the incident portion 11 of the diffusion lens (10).

The lower step portion 12 is formed in an annular shape of the multi-stage so that the diameter gradually increases concentrically on the upper portion of the incident portion 11, the lower step portion 12 is irradiated to the incident portion 11 The light of the LED L is deflected laterally to evenly diffuse the light irradiation area.

The lower lens part 13 is formed between the lower step parts 12 to diffuse light, and the lower lens part 13 measures the light of the LED L irradiated to the incident part 11. Divergence in a direction to spread the light irradiation area evenly.

The upper stepped portion 14 is formed in an annular shape of the multi-stage so that the diameter gradually decreases concentrically on the upper portion of the lower stepped portion 12, the upper stepped portion 14 is irradiated to the incident portion 11 The light of the LED L is deflected laterally to evenly diffuse the light irradiation area.

The upper lens unit 15 is formed between the upper stepped portions 14 to diffuse light, and the upper lens unit 15 measures the light of the LED L irradiated to the incident part 11. Divergence in a direction to spread the light irradiation area evenly.

According to the exemplary embodiment of the present invention, as shown in FIGS. 1 to 8B, the lower lens part 13 and the upper lens part 15 are formed in an inclined plane.

According to the exemplary embodiment of the present invention, as shown in FIGS. 9A and 9B, the lower lens unit 13 and the upper lens unit 15 are formed in an inclined curved surface.

According to the exemplary embodiment of the present invention, as shown in FIGS. 1 to 8B, the tip portion 14a is formed at the upper center of the uppermost upper stepped portion 14. At this time, the tip portion 14a refracts the light of the LED L irradiated to the incidence portion 11 upwardly so as to diffuse the light irradiation area evenly.

According to the exemplary embodiment of the present invention, as shown in FIGS. 9A and 9B, the curved portion 14b is formed at the center of the uppermost stepped portion 14. At this time, the curved portion 14b diffuses the light of the LED L irradiated to the incident portion 11 in the upward direction to spread the light irradiation area evenly.

In the LED diffusion lens 10 of the present invention configured as described above, the upper and lower step portions 14 and 12 refract the light of the LED L irradiated to the incident part 11 laterally to evenly spread the irradiation area. Also, the upper and lower lens parts 15 and 13 diverge the light of the LED L irradiated to the incidence part 11 laterally to evenly diffuse the light irradiation area, and the tip portion 14a. ) Or the curved portion 14b refracts the light of the LED L irradiated to the incident portion 11 in the upward direction to spread the irradiation region evenly.

Therefore, according to the LED diffusion lens 10 of the present invention, the light emitted from the LED (l) is applied to the upper and lower step portions 14 and 12, and the upper and lower lens portions 15 and 13 and the tip portion 14a. Or through the curved portion 14b, there is an advantage in that it can be evenly spread evenly in all directions so as to widen the light irradiation area, and through this, there is an advantage in that the illuminance can be further improved with the same power.

1 to 5 show an LED diffusion lens according to an embodiment of the present invention,

1 is a perspective view of the present invention.

2 is a front view of the present invention.

3 is a plan view of the present invention.

4 is a cross-sectional view of the present invention.

5 is a state diagram used in the present invention.

6A, 6B to 9A and 9B are front and plan views showing an LED diffused lens according to another embodiment of the present invention.

<Code Description of Main Parts of Drawing>

10: diffused lens 11: incident part

12: lower stepped portion 13: first side lens portion

14: upper step portion 14a: tip portion

14b: curved portion 15: upper lens portion

L: LED

Claims (5)

An incident part 11 formed at a bottom in a circular plane to face the LED L; An annular lower step portion 12 formed in multiple stages so as to have a diameter concentrically on an upper portion of the incident portion 11; Lower lens parts 13 formed between the lower step parts 12 to diffuse light; An annular upper stepped portion (14) formed in multiple stages so that the diameter of the lower stepped portion (12) is concentrically smaller; LED diffusion lenses including an upper lens unit 15 formed between the upper stepped portions 14 to diffuse light. The LED diffusion lens of claim 1, wherein the lower lens unit 13 and the upper lens unit 15 are formed in an inclined plane. The LED diffusion lens of claim 1, wherein the lower lens part (13) and the upper lens part (15) are formed in an inclined curved surface. 2. The LED diffused lens according to claim 1, wherein a tip portion (14a) is formed at an upper center of the uppermost stepped portion (14). The LED diffusion lens of claim 1, wherein a curved portion (14b) is formed at the center of the uppermost stepped portion (14).

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