KR101797857B1 - Aviation warning light with asymmetry angular distribution of luminous intensity - Google Patents

Abstract

An object of the present invention is to provide an airborne obstacle having an asymmetric angle of divergence which forms a divergence angle at which light irradiated from a light source section is output in a horizontal direction or an upward direction of an optical axis. The present invention provides a portable terminal comprising: a housing having a storage space therein; A light source installed in the housing to emit light; And a lens unit installed around the housing to form a light-distribution angle such that light emitted from the light source unit is radiated to the horizontal direction and the horizontal direction of the optical axis. Therefore, the present invention can improve the luminous efficiency by forming a diffraction angle at which the light emitted from the light source unit is output in the horizontal direction or the upward direction of the optical axis, and can prevent the light pollution by blocking the light emitted in the downward direction .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an asymmetric angle-

The present invention relates to an airborne obstacle having an asymmetric angle of incidence, and more particularly, to an airborne obstacle having an asymmetric angle of incidence that forms a diffusing angle at which light emitted from a light source is output in a horizontal direction or an upward direction of an optical axis .

In general, the term "aeronautical obstacle" refers to a structure such as a steel tower or a transmission tower installed in a mountainous region or a high-rise building such as a high-rise building in the city, thereby preventing collision of an aircraft operating at night, It is to be able to maintain safety.

Article 83 of the Aviation Act stipulates that "persons who install structures 60 meters or more above the surface or water level should install air traffic obstacles and weekly obstacle signs as stipulated by the Ordinance of the Ministry of Construction and Transportation" , Its installation height, brightness and flashing period are also specified by aviation. That is, the airborne obstacles must have high light intensity so that the pilots of the aircraft can easily identify them, and must also have the conditions such as continuous flashing, blinking, and lighting operation.

Such air obstruction lamps are generally arranged in a cylindrical body with lamps arranged in multiple layers along the outer circumferential surface, and the cylindrical body with the lamps is protected by the transparent protection lens from external environment inhibiting factors and placed on a support such as a reinforcing steel base, Respectively.

FIG. 1 is a view showing an airborne obstacle according to the related art. In FIG. 1, a cover 11 is provided at an upper portion, a housing 10 having a lens 120 and a prism 130 installed around the cover, A control unit 30 for controlling the lighting of the lamp 40, a lamp 40 for performing a blinking or lighting operation, a support 41 for supporting the lamp 40, And a reflection part (50) for reflecting the light to improve the luminance.

These lamps are fixed in the direction perpendicular to the outer circumferential surface of the cylindrical housing and the inclination of the outer circumferential surface is close to 0 degree so that the central axis of the lamps is oriented in the horizontal direction (0 degrees) And spread in a predetermined radius, in which case the luminosity decreases as the light is away from the central axis of the lamp.

In addition, when the light irradiated from an airborne obstacle or the like is outputted in the direction of the ground, there is a problem that unnecessary light pollution is caused.

Korean Registered Patent Publication No. 10-0903803 entitled " Integrated Aviation Disability, etc. "

In order to solve such a problem, it is an object of the present invention to provide an airborne obstacle having an asymmetric angle of divergence which forms a divergence angle at which light emitted from a light source unit is output in a horizontal direction or an upward direction of an optical axis.

According to an aspect of the present invention, there is provided a portable terminal comprising: a housing having a storage space therein; A light source installed in the housing to emit light; And a lens unit installed around the housing to form a light-distribution angle such that light emitted from the light source unit is radiated to the horizontal direction and the horizontal direction of the optical axis.

According to another aspect of the present invention, there is provided an airborne obstacle having an asymmetric angle of incidence, wherein the airborne obstacle further includes a reflector installed at a lower portion of the housing to reflect the light emitted upward in the horizontal direction.

In addition, the light source unit according to the present invention is characterized by comprising a plurality of LEDs arranged in an arbitrary pattern.

The lens unit according to the present invention is a Fresnel lens.

Further, the lens unit according to the present invention is characterized in that the upper and lower portions are asymmetrical with respect to the center.

The upper part of the lens unit according to the present invention forms a diffusing angle such that the incident light is irradiated in the horizontal direction, and the lower part forms a diffusing angle so that the incident light is totally reflected and irradiated upward in the horizontal direction.

Further, the lens unit according to the present invention is characterized in that the lower-side emitting surface is made of an aspherical surface having a curvature.

The present invention is advantageous in that the luminous efficiency can be improved by forming a diffusing angle at which the light emitted from the light source unit is outputted in the horizontal direction or the upward direction of the optical axis.

In addition, the present invention has an advantage of blocking light emitted in a downward direction of the light source unit to prevent light pollution.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
2 is a cross-sectional view of an airborne obstacle with an asymmetric beam angle according to the present invention;
3 is a cross-sectional view illustrating a configuration of a lens unit of an airborne obstacle having an asymmetric angle of view according to FIG.
4 is a cross-sectional view showing another embodiment of an airborne obstacle with an asymmetric angle of incidence according to the present invention.

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

FIG. 2 is a cross-sectional view of an airborne obstacle having an asymmetric infra-red angle according to the present invention, and FIG. 3 is a sectional view showing the configuration of a lens portion of an air-

2 and 3, an aviation obstacle light 100 having an asymmetric angle of incidence according to the present invention includes a housing 110, a light source unit 120, and a lens unit 130.

The housing 110 has a receiving space formed therein and has a cylindrical shape and includes a support portion 111 for supporting the housing 110 to be fixed at a predetermined position, And a heat dissipation unit 112 for dissipating heat.

The light source unit 120 is disposed inside the housing 110 to emit light and is arranged to be able to emit light in the direction of 360 degrees in close contact with the heat dissipation unit 112, As shown in FIG.

The heat generated by the operation of the light source unit 120 is conducted to the heat dissipation unit 112 and is discharged to the outside.

The lens unit 130 is provided around the housing 110 so as to form a diffusing angle such that the light emitted from the light source unit 120 is irradiated to the horizontal direction and the horizontal direction of the optical axis C1. And a Fresnel lens.

The upper and lower portions of the lens portion 130 are asymmetric with respect to the center. Preferably, the upper portion of the lens portion 130 forms an angle of incidence at which the incident light is irradiated in the horizontal direction, The lower part of the lower surface of the second substrate 110 has a first incident surface 131, a second incident surface 131a, a first exit surface 132, and a second exit surface 131a so as to totally reflect the incident light, (132a).

The first incident surface 131 and the second incident surface 131a are arcuate with respect to the center. The light incident on the first incident surface 131 is incident on a horizontal direction light C2 and output through the first exit surface 132. [

The light incident on the second incident surface 132 is refracted by the light C3 irradiated upward with respect to the optical axis C1 and is output through the second exit surface 132a.

The first exit surface 132 is formed of a plane having no curvature so that light input through the first incident surface 131 can be output in a horizontal direction like an optical axis C1.

The second exit surface 132a is provided on the lower side with respect to the center of the lens unit 130 from which the optical axis C1 is output and is preferably formed of a curved aspherical surface so that the second incident surface 132 Is refracted and outputted as light C3 irradiated upward with respect to the optical axis C1.

4 is a cross-sectional view showing another embodiment of an airborne obstacle 100 'having an asymmetric angle of incidence, which is installed at a lower portion of the housing 110 from an airborne obstacle 100 having an asymmetric angle of incidence according to FIG. And a reflector 140 that reflects light emitted downward in the horizontal direction from the light source unit 120 in an upward direction.

That is, the light emitted from the light source unit 120 is not incident on the second incident surface 132 of the lens unit 130 but reflects light irradiated to the lower portion of the housing 110 to form a first incident surface 131, So that more light can be output through the lens unit 130. [0064] As shown in FIG.

Therefore, the light emitted from the light source unit can be output in the horizontal or upward direction of the optical axis to improve the luminous efficiency, and the light emitted from the light source unit can be blocked down to prevent light pollution.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the interpretation of such terms should be based on the contents throughout this specification.

100, 100 ': Aviation obstacle, etc.
110: Housing
111: Support
112:
120: Light source
130:
131: first incident surface
131a: second incident surface
132: first emission surface
132a: second emission surface
140:

Claims (7)

A housing 110 having a storage space therein;
A light source 120 installed in the housing 110 to emit light; And
The light source unit 120 is installed around the housing 110 to form an angle of incidence such that the light emitted from the light source unit 120 is irradiated in the horizontal direction and the upward direction of the optical axis. The upper and lower portions are asymmetric with respect to the center And a lens unit 130 for forming an angle of incidence such that the incident light is irradiated in the horizontal direction and an incidence angle of the incident angle of the incidence angle Aviation obstacles.
The method according to claim 1,
Further comprising a reflector (140) installed at a lower portion of the housing (110) to reflect the light emitted downward in the horizontal direction upward from the light source unit (120) .
3. The method of claim 2,
Wherein the light source unit (120) comprises a plurality of LEDs arranged in an arbitrary pattern.
3. The method of claim 2,
And the lens unit 130 is a Fresnel lens.
delete delete The method according to claim 1,
Wherein the lens portion (130) is made of an aspheric surface having a curvature at a lower side exit surface.

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