KR101819662B1 - Aviation obstruction light - Google Patents

Abstract

The present invention relates to an aviation obstacle indicator capable of rapidly generating heat generated from a light source and capable of precisely aligning and focusing the light emitted to the outside of the light source.
The air disturbance indicator of the present invention comprises a body; A light emitting unit formed by a combination of a plurality of light emitting diodes (LEDs) and emitting light by current supply; A heat dissipation plate fixedly supported by the light emitting unit to dissipate heat radiated from the light emitting unit to the outside; An inner lens spaced apart from the heat sink and spaced apart from the heat sink to transmit light emitted from the light emitting portion to the outside; An outer lens spaced apart from the inner lens to diverge light transmitted through the inner lens to the outside; A fixing support for fixing the heat sink, the inner lens, and the outer lens to the body; And the like.

Description

{AVIATION OBSTRUCTION LIGHT}

The present invention relates to an aviation obstacle indicator, and more particularly, to an aviation obstacle indicator which can increase rapid heat generation and concentration and spread of a light source.

Generally, buildings such as downtown high-rise buildings, structures such as power transmission towers installed on mountainous terrain, and plant facilities are installed with aviation obstacle indicators to prevent collision of aircraft operating at night.

Airborne obstacles are determined by the aviation law, installation height, lamp brightness and flashing period. Especially, the air traffic obstacle indicator is essential for the flight pilot to be able to easily identify the building or structure even at night or fog, and to be able to flicker more than a certain number of times Should be.

2. Description of the Related Art [0002] In recent years, a number of products have been manufactured and manufactured by forming a light source of an aviation obstacle indicator as a high-intensity LED lamp to improve discrimination power.

Such an air fault indicator lamp covers the lamp outside the lamp and covers the lamp with a lens that can transmit the light to the outside, thereby sealing the lamp.

However, since the lens and the heat dissipating plate provided in the conventional air disturbance indicator are formed in a hemispherical shape, there is a structural problem that the heat generated from the light source can not be dissipated quickly to the outside.

In addition, the hemispherical glass cover has a problem that it is difficult to precisely focus the light emitted from the light source.

Korean Patent Laid-Open No. 10-2011-0099548

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the prior art. It is an object of the present invention to provide a light source that can quickly generate heat generated by a light source, accurately diffuse light focused toward the outside of the light source, To provide an aerial fault indicator.

The air obstacle indicator lamp proposed by the present invention includes a body; A light emitting unit formed by a combination of a plurality of light emitting diodes (LEDs) and emitting light by current supply; A heat dissipation plate fixedly supported by the light emitting unit to dissipate heat radiated from the light emitting unit to the outside; An inner lens spaced apart from the heat sink and spaced apart from the heat sink to transmit light emitted from the light emitting portion to the outside; An outer lens spaced apart from the inner lens to diverge light transmitted through the inner lens to the outside; A fixing support for fixing the heat sink, the inner lens, and the outer lens to the body; And the like.

The heat radiating plate, the inner lens, and the outer lens are cylindrical, the inner lens is made of polycarbonate, and the outer lens is made of tempered glass.

The fixing support includes a cover covering an upper surface of the heat radiating plate, an inner lens and an outer lens, a fixing rod fitted between the cover and the body, and a fixing member fastened to both ends of the fixing rod to fix the fixing rod to the cover and the body .

And a mounting portion on which both ends of the heat radiating plate, the inner lens, and the outer lens are inserted and fixed, respectively, are formed on the facing surfaces of the body and the cover.

In the air-obstacle indicator according to the present invention, since the heat sink and the lens are formed in a cylindrical shape, the through hole is formed at the center of the body and the cover, and the heat generated from the light source rapidly moves from the lower side to the upper side of the heat sink, Can be lowered quickly.

In addition, since the lens is doubly formed, the light source can be stably protected, the light emitted from the light source can be effectively diffused, and the ultraviolet barrier coating layer is formed on the surface of the external lens, Can be prevented.

1 is a perspective view of an airborne fault indicator according to the present invention.
2 is an exploded perspective view of FIG.
3 is a sectional view taken along the line AA in Fig.

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

1 and 2 are a perspective view and an exploded perspective view of an aviation obstacle indicator according to the present invention, and Fig. 3 is a sectional view taken along line A-A of Fig.

As shown in the drawings, the air disturbance indicator according to the present invention includes a body 2, a heat sink 4 fixed to a light emitting unit (not shown) to radiate heat radiated from the light emitting unit to the outside, An inner lens 6 and an outer lens 8 which are spaced apart from each other and spaced apart from the outer lens 8 and transmit the light emitted from the light emitting portion to the outside and the heat sink 4, ) To the body (2).

The body 2 serves as a base on which elements constituting the air disturbance indicator are installed. The lower end of the heat sink 4, the inner lens 6, and the outer lens 8 is coupled to the upper surface of the body 2, 10b, and 10c that can be mounted on the base body 10 are formed. The lower part of the body 2 is formed as an open part and a through hole 26 through which air flows is formed at the center part so that the heat radiating action of the heat radiating plate 4 can be smoothly performed.

For example, a plurality of LEDs may be fixed on a flexible circuit board of a rectangular shape, and the LEDs may be wound and fixed on the outer surface of the heat sink 4 in a cylindrical shape.

The heat radiating plate 4 may be made of aluminum or aluminum alloy having a high thermal conductivity. The heat radiating plate 4 has a cylindrical shape with an interior formed as a space and an upper and a lower portion penetrated.

A plurality of cooling fins 12 are formed in the inner space of the heat sink 4 so that the surface area of the heat sink 4 contacting the air is maximized to enable rapid heat exchange.

When the heat sink 4 has a cylindrical structure, the heat generated by the light emitting portion quickly moves toward the upper portion of the inner space of the heat sink 4 and is discharged to the outside. Therefore, the temperature of the heat sink 4 is rapidly lowered, Can be obtained. Thus, the luminance of the light emitting portion can be prevented from lowering.

An inner lens 6 is located outside the heat sink 4. The inner lens 6 may be formed of a transparent polycarbonate (PC) material and may be formed into a cylindrical shape having a predetermined inner diameter .

The inner lens 6 is formed of a diffusion unit 14 for collecting and concentrating the light of the light source along the central portion of the circumferential surface and has a reflecting surface 14a for collecting the light of the light source toward the diffusion unit 14 along the upper and lower portions of the diffusion unit 14. [ A portion 16 is formed.

Accordingly, when the light of the light source is diverted to the outside through the inner lens 6, the diverging light is concentrated horizontally upward through the diffusion part 14, which is the middle part of the lens, And is concentrated toward the diffusion portion 14.

Due to the structure of the inner lens 6, the light of the light source is concentrated in the horizontal direction along the central portion of the periphery of the lens 6 and can be diffused outward and irradiated at a long distance.

The diffusing portion 14 is formed of a spherical surface having a convex lens shape, and the reflecting portion 16 is formed of a serrated protrusion. By forming the reflecting portion 16 in a sawtooth shape, the angle of diffusing the light of the light source can be effectively reflected, so that it can be irradiated toward the diffusion portion 14.

The inner lens 6 may be formed as a combination of protrusions and grooves on the upper surface and the lower surface of the inner lens 6 so that the inner lens 6 can be used in a laminated manner with other lenses, Or more by a lamination method.

An outer lens 8 made of tempered glass is provided on the outer side of the inner lens 6 to protect the inner lens 6 and to diffuse the light emitted from the light source due to the light distribution effect at an effective light intensity and a diffusion angle .

In addition, the outer lens 8, which is resistant to heat, can protect the inner lens 6 from strong heat such as sunlight, and even if an impact is applied in an explosion-proof area, a gas explosion, The lens 6 can be protected.

An ultraviolet barrier coating layer is formed on the surface of the external lens 8 to prevent the lenses 6 and 8 from being discolored even when the aviation obstacle indicator is used for a long time. Accordingly, even if the use time is accumulated, the transparency of the inner lens 6 and the outer lens 8 is not lowered, and the transmittance of the light source is not lowered.

The heat dissipating plate 4, the inner lens 6 and the outer lens 8 are fixed to the body 2 by means of a fixed support member which includes a heat dissipating plate 4, an inner lens 6, an outer lens 8, (Not shown) sandwiched between the cover 18 and the body 2 and a fixing rod fixed to both ends of the fixing rod so as to fix the fixing rod to the cover 18 and the body 2 2).

Mounting portions 22a, 22b, 22c are formed on the lower surface of the cover 18 so as to correspond to the mounting portions formed on the body 2. The central portion of the cover 18 is formed as a through hole 24 so that the heat emitted from the heat sink 4 can be discharged to the outside.

The fixing rods may be arranged in the longitudinal direction through the cooling fins 12 formed in the heat sink 4.

A male screw part is formed on the outer side surfaces of both ends of the fixing rod for assembling the stationary support part, and the stationary member 20 can be formed of a nut fastened to the stationary rod.

Both ends of the heat radiating plate 4, the inner lens 6 and the outer lens 8 are fixed to the mounting portions 10a, 10b and 10c of the body 2 and the mounting portions 22a of the cover 18 22b (22c).

The air obstacle indicator according to the present invention can be installed by fixing the body 2 to a building such as a downtown high-rise building, a structure such as a transmission tower installed on a mountainous terrain, and a plant fixture such as a plant facility.

The light of the light source is transmitted to the outside through the inner lens 4 and the outer lens 8 so that the air pilot can easily identify it and perform safe navigation. Help.

At this time, the light of the light source is concentrated through the diffusion part 14, which is the middle part of the inner lens 6, and the light of the light source is reflected to the lower side and the upper side through the reflection part 16, So that the light of the light source is converged in the horizontal direction along the central portion of the peripheral surface of the inner lens 6, is emitted to the outside, and then transmitted through the outer lens 8 to be diverged.

At this time, the heat generated when the light emitting unit as the light source is turned on is transferred to the heat sink 4 and then quickly moved to the upper side while being exchanged through the heat radiating fins 12 of the heat sink 4 and the internal space thereof, And is discharged to the outside through the through hole (24).

While the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

2: Body 4: Heat sink
6: inner lens 8: outer lens
10a, 10b, 10c, 22a, 22b, 22c:
12: cooling pin 14: diffusion part
16: reflector 18: cover
20: fixing member 24, 26: through hole

Claims (6)

body;
A light emitting unit formed by a combination of a plurality of light emitting diodes (LEDs) and emitting light by current supply;
A heat dissipation plate fixedly supported by the light emitting unit to dissipate heat radiated from the light emitting unit to the outside;
An inner lens spaced apart from the heat sink and spaced apart from the heat sink to transmit light emitted from the light emitting portion to the outside;
An outer lens spaced apart from the inner lens to diverge light transmitted through the inner lens to the outside;
A fixing support for fixing the heat sink, the inner lens, and the outer lens to the body;
Lt; / RTI >
The body has a through hole through which air is introduced into a central portion of the body, and a mounting portion on which the heat radiating plate, the inner lens, and the outer lens can be fitted,
Wherein the inner lens is made of transparent polycarbonate, the outer lens is made of tempered glass, an ultraviolet barrier coating layer is formed on the surface of the external lens,
The fixing support portion includes a cover formed to cover a top surface of the heat radiating plate, the inner lens, and the outer lens, and a plurality of fixing rods sandwiched between the cover and the body, And fixing members fastened to both ends to fix the fixing rods to the cover and the body,
And a central portion of the cover is formed with a through-hole so that heat radiated from the heat sink can be discharged to the outside. The method according to claim 1,
Wherein the heat sink, the inner lens, and the outer lens are cylindrical.

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