KR100991890B1 - Illuminator module using led - Google Patents

Abstract

The present invention relates to a lighting module using an LED, in the lighting module using the LED to increase the intensity of light using the LED (LED) and provide the irradiation angle as needed, the LED to provide light, the light emitting from the LED In order to reflect the light comprises a reflection surface provided to surround the LED and the reflection through the reflection surface comprises a light source module, each of which comprises a collimating lens that makes the light into parallel light, each of the light sources It characterized in that it comprises a diffusion lens for irradiating the light irradiated from the module back to a predetermined angle. Through the present invention configured as described above, the disadvantages of the LED can be compensated for more effectively to obtain illumination light, and there is an advantage of changing the irradiation angle as necessary.

LED, LED, Lighting, Module, Collimating

Description

LED lighting module {ILLUMINATOR MODULE USING LED}

The present invention relates to a lighting module using an LED, and more particularly, to achieve a light intensity more effectively and to effectively investigate the irradiation angle according to the purpose of use, and to adjust the LED uniformity and color temperature It relates to a lighting module used.

In general, a lot of bulbs or fluorescent lights are used as indoor or outdoor lighting, such a bulb or fluorescent lamp has a short life and has to be replaced frequently. In addition, the conventional fluorescent lamp has a problem that excessively decreases the illuminance due to deterioration over the use time.

In order to solve this problem, luminaires using LEDs having excellent controllability, fast response speed, high electro-light conversion efficiency, long life, low power consumption, and high brightness have been developed.

Recently, a luminaire using high power LED has been developed. The luminaire using the high power LED can satisfy the illuminance in the lighting space, but since heat is generated from the LED, a heat dissipation fin and a blower fan are used to dissipate the heat. Since the heat dissipation device of a complex structure is required separately, there is a problem that the product price is increased and the electric efficiency is low, making it difficult to apply.

On the other hand, Figure 1 is an explanatory view showing the illuminance and light distribution characteristics in a luminaire using a conventional LED.

As shown in the figure, the luminaire 10 using the conventional LED, because the light emitted from each LED 20 is directly diffused from the LED 20 to be emitted into the illumination space, light attenuation occurs on the diffusion path is a normal In an indoor or outdoor space requiring lighting, there is a problem that the illumination is not sufficiently secured. That is, the LED 20 has various advantages such as high electro-optical conversion efficiency, long life, low power consumption, and high luminance, but the light output of the LED 20 is short because the light output of the LED 20 is weak. There was a problem that could not obtain a satisfactory illuminance in the desired lighting space.

In addition, the light fixture 10 using the conventional LED is not only very poor in the light distribution characteristics of the light emitted to the periphery of the light fixture because the light emitted from each LED (20) is not good diffusion and applied for general lighting There was a difficulty.

The present invention for solving the above problems is to provide an illumination module that can optimally irradiate the light intensity (illuminance) that can be satisfied in response to the characteristics of the LED.

In addition, there is a purpose to provide a focused light at an appropriate irradiation angle according to the purpose of use.

In order to achieve the above object, the present invention provides a lighting module using an LED that uses LEDs to increase light intensity and provides an irradiation angle as needed. Each light source module includes a reflection surface provided to surround the LEDs to reflect light and a collimating lens for reflecting light through the reflection surface to make the light parallel. It characterized in that it comprises a diffusion lens for irradiating the light irradiated at a predetermined angle again.

According to a preferred feature of the present invention, the diffusing lens is characterized in that the diffusing lens having various irradiation angles can be replaced according to a desired irradiation angle.

According to another preferred feature of the present invention, the collimating lens is characterized in that any one of the combination of the concave lens, convex lens, concave / convex lens.

In another preferred feature according to the invention, the light source module is characterized in that it further comprises a control unit that can be turned on / off individually or partially a plurality of light source modules.

In still another preferred feature of the present invention, the diffusion lens may be formed in a combination of a negative / embossed prism shape or a lens shape, and is formed by adding a bead shape of glass or acrylic material. .

The present invention constructed and operated as described above has an advantage of being able to provide an effective irradiation angle and uniform illumination light while maintaining optimal light intensity by compensating for the problem of diffuse light, which is a disadvantage of LED.

In addition, as the irradiation angle can be selectively changed, it is possible to use efficient lighting according to the purpose and purpose of use, and there is an advantage that the structure is simple to enjoy the effect of reducing the production cost.

Hereinafter, a preferred embodiment of the lighting module using the LED according to the present invention with reference to the accompanying drawings in detail as follows.

Figure 2 is a schematic view of the lighting module using the LED according to the present invention, Figure 3a is an exploded view of the lighting module using the LED according to the present invention, Figure 3b schematically shows a concave / convex lens combination collimating lens according to the present invention 4 is a view showing the light irradiation characteristics of the lighting module using the LED according to the present invention, Figure 5 is a view showing an embodiment of the irradiation angle change through various diffusion lenses of the lighting module using the LED according to the present invention to be.

Lighting module using an LED according to the present invention, the LED (light-emitting diode; 100) for providing light and the reflective surface 200 for effectively reflecting the light emitted from the LED and the light reflected through the reflective surface A diffuser lens 400 comprising a collimating lens 300 each of which makes the light form parallel light, and diffuses the light irradiated through the plurality of light source modules back to a predetermined irradiation angle. It characterized in that it is configured to include.

LED (Light-emitting diode; 100) is a light emitting device using the phenomenon that the light is generated when the current flows through the PN junction of the compound semiconductor, such as GaP, GaAs, etc., by controlling the component ratio of the semiconductor compound in manufacturing the light emitting diode It can generate light of the wavelength. The LED 100 is generally mounted in a substrate or manufactured as a module and fixed to a substrate to receive a current. Illumination light is provided through the LED 100.

Reflecting surface 200 is for reflecting the light emitted from the LED 100 to efficiently irradiate the light, form a shape surrounding the LED, but is expanded to reflect the light emitted high It is desirable to form. The reflective surface 200 may be generally applied to any material as long as it reflects light diffused from the LED through an optical design.

Therefore, the light output from the LED through the reflective surface 200 is primarily to be diffused in the direction desired by the designer.

Next, the collimating lens 300 makes the light diffused through the reflective surface 200 into parallel light, and serves to condense to increase the intensity of the diffused beam.

The collimating lens 300 may be adhesively fixed or fastened to the front end of the reflective surface, or may be manufactured integrally with the reflective surface, and secondarily diffuses light diffused in a specific direction through the reflective surface. By condensing the light intensity can be increased.

The collimating lens 300 may be a collimating lens such as a biconvex lens (Biconvex), one surface concave lens (Planoconcave), an aspherical two-sided convex lens (Biconvex), an aspherical surface concave lens (Planoconcave) and the like, such a The embodiment can be easily changed by those skilled in the art.

As described above, the LED, the reflective surface, and the collimating lens are respectively configured to form one light source module 10, and a plurality of light source modules 10 are collected to form one light source module.

The light source module 10 can obtain the desired brightness by selecting the number according to the purpose of use and appropriately arranged. For example, the light source module 10 may be arranged in a circle or sequentially arranged.

On the other hand, in another preferred embodiment according to the present invention, each light source module 10 configured as described above may be individually or partially on / off. This is provided with a separate control unit (not shown) to minimize the energy consumption by turning on / off each light source module arranged in a variety of forms as needed can be used to the user's desired light intensity.

Therefore, each light source module can be set to be controlled on / off separately so that the light intensity of the light source module 10 can be adjusted according to the shape of the light source module 10.

The diffusion lens 400 emits light at a desired irradiation angle in order to properly diffuse the light emitted from the plurality of light source modules 10 according to the purpose or purpose of use. That is, light condensed in parallel through the plurality of light source modules 10 is irradiated through one of the diffusion lenses 400.

The diffusion lens 400 is generally used as a convex lens and various convex lenses are provided according to the desired irradiation angle to be selectively coupled. It is provided with a housing (not shown) covering the light source module and selectively coupled to it so that it can be applied according to the needs of the user. The coupling structure can be applied by providing a separate cover member or improving the structure so as to be coupled to the diffusion lens.

In addition, it is possible to improve the uniformity of the light or to adjust the color temperature by manufacturing a method of adjusting the surface of the diffusion lens through various patterns or shapes, or by adding a diffusion material inside the lens. Here, the shape of the pattern may be made of a negative / embossed prism shape or a lens shape and a combination of these shapes, and the diffusion material may be manufactured by adding glass or acrylic beads.

In addition, when light is required to be irradiated with parallel light through the light source module, the diffusion lens 400 may be removed and used as necessary.

Therefore, the light is sequentially provided through the reflective surface, the collimating lens, and the diffusion lens in the order of reflection, condensation, and irradiation to minimize loss and provide high illumination light.

The present invention configured as described above has the advantage of maintaining the light intensity optimally by effectively condensing the scattered light when using a plurality of LEDs, and at the same time there is an advantage to obtain an effective illumination light by adjusting the diffusion angle according to the intended use . In addition, cost reduction can be achieved through a simple structure.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described.

Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

1 is a schematic diagram of an LED lighting apparatus according to the prior art,

2 is a schematic diagram of a lighting module using the LED according to the present invention;

Figure 3a is an exploded view of the lighting module using the LED according to the present invention,

Figure 3b is a perspective view schematically showing a concave / convex lens combination collimating lens according to the present invention,

4 is a view showing the light irradiation characteristics of the lighting module using the LED according to the present invention,

5 is a view showing an embodiment of the irradiation angle change through various diffusion lenses of the lighting module using the LED according to the present invention.

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

10: light source module

100: LED

200: reflecting surface

300: collimating lens

400: diffused lens

Claims (5)

In the lighting module using the LED (LED) to increase the light intensity and provide the irradiation angle as needed, LED providing light: A reflection surface provided to surround the LED in order to reflect light in the LED; And Reflecting through the reflective surface to form a light source module, each including a collimating lens that makes the light into parallel light, And a diffusion lens for irradiating the light irradiated from the respective light source modules at a predetermined angle again. The method of claim 1, wherein the diffusion lens, Lighting module using an LED, characterized in that the diffusing lens having a variety of irradiation angles can be replaced according to the desired irradiation angle. The method of claim 1, wherein the collimating lens, Lighting module using an LED, characterized in that any one of a combination of a concave lens, convex lens, concave / convex lens. The method of claim 1, wherein the light source module, Lighting module using an LED, characterized in that further comprises a control unit for individually or partially on / off a plurality of light source modules. delete

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