KR101262302B1 - Led having search light illuminating device - Google Patents

Abstract

PURPOSE: A searchlight device including an LED is provided to improve the uniformity of illumination by including a CPC(Compound Parabolic Concentrator). CONSTITUTION: A spherical lens part(110) is composed of first to sixth spherical lenses. The first to sixth spherical lenses are arranged in the searchlight in a row. An aspherical lens part(120) is formed between the spherical lenses parts and is composed of a first aspherical lens and a second aspherical lens. A CPC emits light in the same direction.

Description

Searchlight Illumination Device with Integrated LEDs {LED Having Search Light Illuminating Device}

The present invention relates to a searchlight lighting apparatus equipped with an integrated LED. More particularly, the present invention relates to a searchlight lighting device having an integrated LED that provides a constant illumination distance and a uniform illuminance and illuminance uniformity of an illumination surface by configuring a compound parabolic concentrator (CPC) corresponding to an integrated LED. will be.

In general, searchlight refers to a lighting device that combines a powerful light source with a reflector to reach an intense beam of light up to high altitudes. It is to make it a target of 空 砲火. Recently, in addition to military purposes, it is also used for advertisement.

That is, the military lighting system can be used for the purpose of exploring night aircraft, ships, military units, etc., and also applied as an illumination system for observing a specific area, or a landscape lighting system for a building, a pier or a specific object. , Portable or stationary lighting devices used as medical lighting systems.

These searchlights may be attached to vehicles, such as anti-air search lights, signal search lights used in ships, battlefield lights or coastal warning lights, surveillance search lights at prisons or security companies, runway guide lights for safe landing of airplanes in unsafe atmosphere and weather, It can be used for headlamps used, as a seabed searchlight for observing certain objects in sea water.

On the other hand, the conventional searchlight mainly uses carbon arc lamps, xenon, xenon, or individual white or colored LED array lamps, etc., which burn a carbon rod to give a spark, and project such light at a constant distance. The parabolic mirror and the reflective surface were mainly used. However, these lighting systems have high installation costs, short lifespan of lamps, and difficulty in maintaining uniform illuminance when irradiating light from a light source over a certain distance, making it difficult to use as a high-performance searchlight system. .

Accordingly, in recent years, LED development technology has been developed and high brightness LED lamps of 100W or more have been developed in the form of a chip on board (COB), thereby significantly reducing energy consumption.

However, there was a problem in that the uniform illumination distribution according to the illumination distance was not achieved in the use of simple light emitting LEDs, and in the case of the search light using the LED according to the prior art because heat emission from the LEDs was not made properly. There was an inefficient problem.

In order to solve this problem, the present invention provides a compound parabolic concentrator (CPC) corresponding to the integrated LED, thereby providing an integrated LED providing a constant illumination distance and a uniform illuminance and illuminance uniformity of the illumination surface. The purpose is to provide a searchlight lighting device.

In addition, the present invention has an excellent luminous power at low power, and an object thereof is to provide a search light having high efficiency and high functionality by applying an illumination optical system combined by an aspherical optical lens.

In addition, an object of the present invention is to improve the heat dissipation effect by effectively transmitting heat emitted from the integrated LED together with the air-cooled heat dissipation system through the CPC installed on the front of the high power integrated LED.

The present invention for achieving the above object is made of optical glass to provide a constant illuminance and illuminance uniformity on the illumination distance and the illumination surface of the searchlight illumination device, arranged in a line to have the same center inside the searchlight A lens unit comprising a spherical lens comprising first to sixth spherical lenses and an aspherical lens disposed between the spherical lenses and made of aspherical plastic lenses and comprising first and second aspherical lenses; And a rear panel positioned at the rear of the lens unit, having an integrated LED, collimating the light emitted from the light source of the integrated LED so that the light is emitted in parallel, and allowing the light to diverge in the same direction through the lens unit. Provided is a searchlight lighting apparatus equipped with an integrated LED, characterized in that it comprises a parabolic concentrator (CPC).

In the present invention, the aspherical lens includes the first aspherical lens between the first and third spherical lenses of the spherical lenses, the second aspherical lens between the fourth and fifth spherical lenses Provided is a searchlight lighting apparatus equipped with an integrated LED, characterized in that the configuration.

In addition, in the present invention, the lens unit is designed to be different from the curvature radius of the spherical lens and the aspherical lens, the thickness of the center, the outer diameter, the sharp diameter, the aspherical surface constant value of 20m diameter within the illumination distance 300mm of the searchlight lighting device Provided is a searchlight lighting device equipped with an integrated LED, characterized in that the peak illuminance for the surface is configured to have an illuminance value of 2.5Lux.

In addition, in the present invention, the aspherical lens is designed to provide aspheric coefficient and uniformity uniformity to the illumination distance and the illumination surface of the searchlight illumination device by designing the aspherical coefficient value of the first aspherical lens and the second aspherical lens, respectively. Provided is a searchlight lighting apparatus equipped with an integrated LED.

In addition, in the present invention, the refractive index (n _d ) of the spherical lens is 1.523080, the Abbe constant (v _d ) is designed to have a 58.571369, the refractive index (n _d ) and the Abbe constant (Ｖ) of the aspherical lens 110 _d ) provides a searchlight illumination device with an integrated LED, characterized in that it is designed with values of 1.531160 and 56.043828, respectively.

In addition, in the present invention, the surface shape of the aspherical lens is expressed by the equation

Designed by, wherein Z is an aspherical sag value, c is a curvature, r is a radial radius, k is an aspherical surface constant, α is an aspheric coefficient value, searchlight lighting device equipped with an integrated LED To provide.

In addition, in the present invention, the composite parabolic concentrator includes: an integrated LED comprising a plurality of LEDs integrated; A CPC housing in which an installation hole is formed so that the integrated LED is installed; And a lampshade member installed in the CPC housing and having an integrated LED installed therein and having a reflecting surface configured to reflect light outside the incident angle from the light emitted from the integrated LED to be concentrated on the lens unit. It provides a searchlight lighting apparatus having an integrated LED.

In addition, in the present invention, the synthetic parabolic light collector may be in the form of a circle or square, the maximum value of the length of the surface of the synthetic parabolic light collector is

Is a radius of the aperture at Z = 0, θ represents the maximum angle of incidence (or exit angle), and L is the length of the z-axis (optical axis) searchlight. Provide lighting devices.

According to the present invention, by forming a compound parabolic concentrator (CPC) corresponding to the integrated LED, there is an effect that can provide a constant illumination distance and a uniform illuminance and illuminance uniformity of the illumination surface.

In addition, according to the present invention, by having an excellent luminous power at low power and applying an illumination optical system combined by an aspherical optical lens, it is possible to provide a search light having high efficiency and high functionality.

In addition, according to the present invention, through the CPC installed on the front of the high-power integrated LED and the air-cooled heat dissipation system, it is possible to effectively transfer the heat emitted from the integrated LED to the outside has the effect of improving the heat dissipation effect.

1 is a perspective view showing a searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention,
Figure 2 is a perspective view showing a CPC of the searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention,
3 and 4 is a front view and a rear view showing a CPC of the searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention,
5 is a cross-sectional view showing a CPC of a searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention;
6 is an isometric view showing a CPC of an integrated LED searchlight lighting apparatus according to a preferred embodiment of the present invention,
Figure 7 is another embodiment showing a CPC of the searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention,
8 and 9 are cross-sectional views and isometric views of FIG. 7,
10 is a table showing data for the lens unit of the searchlight lighting apparatus equipped with an integrated LED according to an embodiment of the present invention;
11 is a table showing the aspherical coefficient value of the aspherical lens of the searchlight lighting apparatus equipped with an integrated LED according to an embodiment of the present invention,
FIG. 12 is a table illustrating refractive indexes and Abbe's constants of each lens unit of a searchlight lighting apparatus equipped with an integrated LED according to an exemplary embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a search light lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention. In addition, Figure 2 is a perspective view showing a CPC of a searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention, Figures 3 and 4 is a searchlight lighting provided with an integrated LED according to a preferred embodiment of the present invention Front and back views showing the CPC of the device, FIG. 5 is a cross sectional view showing a CPC of the searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention, and FIG. 6 is an integrated view according to a preferred embodiment of the present invention. Figure is an isometric view showing the CPC of the LED searchlight lighting apparatus provided.

In addition, Figure 7 is another embodiment showing the CPC of the searchlight lighting apparatus equipped with an integrated LED according to a preferred embodiment of the present invention, Figures 8 and 9 are cross-sectional views and isometric view of FIG.

As shown, the search light illumination device equipped with the integrated LED of the present invention has excellent luminous power at low power, and by applying an illumination optical system combined by an aspherical optical lens, to provide a high efficiency and high functionality search light. A compound parabolic concentrator provided with a lens unit 100 including a plurality of spherical lenses 110 and an aspherical lens 120 and a rear side of the lens unit 100 and having an integrated LED 230 installed therein. : CPC, 200).

The lens unit 100 is configured to improve the luminous power of the light emitted from the integrated LED 230.

The lens unit 100 is made of optical glass, and is composed of a plurality of first to sixth spherical lenses 111, 112, 113, 114, 115, which are arranged in a plurality of configurations to have the same center inside the search light, A spherical lens 110 made up of 116, between the first spherical lens 111 and the third spherical lens 113, and the fourth spherical lens 11 and the fifth spherical lens 115. Are respectively composed of a) and comprises an aspherical lens (120) consisting of first and second aspherical lenses (121, 122) made of a plastic lens material and made of an aspherical plastic lens.

The lens unit 100 constitutes an aspherical lens 120, which is an aspherical plastic lens having a high tolerance sensitivity to achieve uniformity of illuminance, but the aspherical lens 120 is configured between the spherical lens 110 and the spherical surface The lens 110 also arranges the conditions of the respective spherical lenses 110 differently.

10, the radius of curvature of the first to sixth spherical lenses 111, 112, 113, 114, 115, and 116 of the spherical lens 110, the thickness of the center, the outer diameter, the sharp diameter, and the like. By configuring the conditions differently, the light of the integrated LED 230 is configured to have a uniform illuminance.

Here, the spherical lens 110 used Ohara B270 optical glass material, the aspherical lens 120 used E38R, a plastic lens material of Zeonex (Zeonex).

In addition, the aspherical lens 120, like the spherical lens 110, the conditions of the first aspherical lens 121 and the second aspherical lens 122, that is, the radius of curvature, thickness of the center, outer diameter, By designing the clear diameter and aspheric surface constants differently, the peak illuminance of the illumination surface having a diameter of 20 m within the illumination distance of 300 mm of the searchlight illumination device is configured to have an illuminance value of 2.5 Lux.

In addition, the aspherical lens 120, as shown in the table shown in Figure 11, by differently designing the aspherical coefficient value, it is possible to provide a constant illuminance and illuminance uniformity on the illumination distance and the illumination surface of the search light illumination device.

In addition, as shown in the table shown in FIG. 12, the refractive index n _d of the spherical lens 110 of the present invention is 1.523080, the Abbe constant v _d is designed to have 58.571369, and the refractive index of the aspherical lens 110 is (n _d ) and Abe's constant (Ｖ _d ) are preferably designed with values of 1.531160 and 56.043828, respectively.

On the other hand, the surface shape of the aspherical lens 120 is to be designed by the following equation (1).

Where Z is an aspherical sag value, c is a curvature, r is a radial radius, k is an aspheric constant, and α is an aspherical coefficient value.

A compound parabolic concentrator 200 collimates the light emitted from the integrated LED 230 light source, that is, collimates the light emitted from the integrated LED 230, so that the light is emitted in parallel, and the light is emitted from the lens unit 100. It is a component that emits in the same direction through.

The synthetic parabolic concentrator 200 is installed in the CPC housing 210 and the CPC housing 210 in which the integrated LED 230 is installed, and the lampshade member 220 in which the integrated LED 230 is provided therein and the integrated LED ( 230).

The CPC housing 210 has the same number of installation holes 212 according to the number of integrated LEDs 230 so that the integrated LEDs 230 may be installed and fixed through the composite parabolic concentrator 200 of the searchlight lighting device. Is formed.

In addition, the CPC housing 210 is configured to facilitate the heat dissipation by having the integrated LED 230 positioned at the rear to open the heat emitted from the integrated LED 230 to the outside.

The CPC housing 210 is configured behind the lens unit 100 described above, and is configured such that the sixth spherical lens 116 of the lens unit 100 is positioned.

The lampshade member 220 is installed in the installation hole 212 of the CPC housing 210, the integrated LED 230 for emitting light is accommodated to concentrate the light emitted from the integrated LED 230, the lens unit 100 It is configured to exit.

The lampshade member 220 is formed in a trapezoidal shape and a fixed hole 224 is formed in which the inlet is narrow and the integrated LED 230 is installed and fixed on the inner circumferential surface, and an incident angle among the light emitted from the integrated LED 230 is formed. Reflecting surface 222 is formed to reflect off the light to be concentrated to the lens unit 100.

The integrated LED 230 is fixedly coupled to the CPC housing 210 of the present invention, is a medium that is accommodated in the lampshade member 220 to emit light, the use of the search light in the integrated light of the LED light source It will be different.

The synthetic parabolic concentrator 200 of the present invention is a combination of two parabolic surfaces, and is an optical element used to condense from one end of the surface of the synthetic parabolic concentrator 200 to the other end, and the Z axis passing through the two ends. Only the light rays traveling below the incident or exit angle with respect to the composite parabolic condenser 200 passes through the composite parabolic condenser 200, and the light rays out of the incident angle reflect through the reflecting surface 222 of the lampshade member 220.

The synthetic parabolic light collector 200 may have a circular or quadrangular shape, and the maximum value of the length of the synthetic parabolic light collector 200 may be given by Equation 2 below.

Here, α represents the radius of the aperture at Z = 0, θ represents the maximum incident angle (or exit angle), and L represents the length in the z axis (optical axis) direction.

On the other hand, as described above, the synthetic parabolic concentrator 200 of the present invention may be configured in a rectangular shape.

That is, as shown in Figures 7 to 9, the shape of the lampshade member 220 is formed in a square shape, the installation hole 212 of the CPC housing 210 so that the lampshade member 220 can be fixedly coupled ) Is also made to form a square.

Such a searchlight lighting apparatus equipped with the integrated LED 230 of the present invention comprises a composite parabolic concentrator 200 corresponding to the integrated LED 230, thereby providing a constant illumination distance and uniform illuminance and illuminance uniformity of the illumination surface. It can be provided.

In addition, by applying an illumination optical system, that is, a lens unit 100 combined with an aspherical optical lens, and having excellent luminous power at low power, it is possible to provide a high-efficiency, high-performance search light, and to provide a high-power integrated LED 230 front surface. In addition to the air-cooled heat dissipation system through the synthetic parabolic condenser 200 installed in the to be able to effectively transfer the heat emitted from the integrated LED 230 to the outside is to improve the heat dissipation effect.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: lens unit 110: spherical lens
120: aspherical lens 200: synthetic parabolic condenser
210: CPC housing 220: lampshade member
230: integrated LED

Claims (8)

It is made of optical glass to provide a constant illuminance and illuminance uniformity to the illumination distance and illumination surface of the searchlight lighting device, and consists of first to sixth spherical lenses arranged in a line to have the same center inside the searchlight. A lens unit configured between the spherical lens and the spherical lens and including an aspherical lens made of an aspherical plastic lens and composed of first and second aspherical lenses; And
Located at the rear of the lens unit, an integrated LED is provided and collimates the light emitted from the light source of the integrated LED so that the light is emitted in parallel, and the light is emitted in the same direction through the lens unit. Compound parabolic concentrator (CPC)
Searchlight illumination device provided with an integrated LED comprising a.
The method of claim 1,
In the aspherical lens, the first aspherical lens and the third aspherical lens of the spherical lens, the first aspherical lens is configured, the second aspherical lens is characterized in that between the fourth and fifth aspherical lens Searchlight lighting device with LED.
The method of claim 1,
The lens unit has a curvature radius, a center thickness, an outer diameter, a sharp diameter, and an aspherical surface constant of the aspherical lens and the aspherical lens, respectively, so that the peak illuminance of the illumination surface having a diameter of 20 m within a lighting distance of 300 mm is 2.5 mm. Searchlight lighting device equipped with an integrated LED, characterized in that configured to have a Lux illuminance value.
The method of claim 1,
The aspherical lens has an integrated LED, characterized in that the aspherical coefficient values of the first aspherical lens and the second aspherical lens are designed differently so as to provide a constant illuminance and illuminance uniformity to the illumination distance and the illumination surface of the searchlight illumination device. Searchlight fixtures.
The method of claim 1,
The refractive index (n _d ) of the spherical lens is 1.523080, the Abbe constant (v _d ) is designed to have 58.571369, and the refractive index (n _d ) and the Abbe constant (Ｖ _d ) of the aspherical lens 110 are 1.531160 and 56.043828, respectively. Searchlight lighting device equipped with an integrated LED, characterized in that designed to the value of.
The method of claim 1,
The surface shape of the aspherical lens is

Is designed by
Wherein Z is an aspherical segment (sag) value, c is a curvature, r is a radial radius, k is an aspherical surface constant, α is an aspherical surface coefficient value, searchlight illumination device equipped with an integrated LED.
The method of claim 1,
The synthetic parabolic condenser
An integrated LED configured to integrate a plurality of LEDs;
A CPC housing in which an installation hole is formed so that the integrated LED is installed; And
A lampshade member installed in the CPC housing and having an integrated LED installed therein and having a reflecting surface configured to reflect light outside the incident angle from the light emitted from the integrated LED and to be concentrated on the lens unit;
Searchlight illumination device provided with an integrated LED comprising a.
The method of claim 1,
The synthetic parabolic condenser may have a circular or quadrangular shape, and the maximum value of the length of the surface of the synthetic parabolic condenser may be

Designed by
Wherein α is the radius of the aperture at Z = 0, θ is the maximum angle of incidence (or exit), and L is the length of the z-axis (optical axis) direction.

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