KR20150117858A - LED flood light of light tower - Google Patents

Abstract

The present invention relates to an LED floodlight of a lighting tower, which comprises: a radiating unit having a structure in which air can flow in all directions on a rear surface of a housing; an infrared ray irradiation unit formed on an upper side or a lower side of a front surface unit of a housing; a light shade formed on the upper side unit of the front surface unit of the housing; and a reflective plate for selectively controlling inclination inside the light shade.

Description

{LED flood light of light tower}

The present invention relates to an LED light projection of an illumination tower and the like.

Lighting towers are nighttime lighting towers for outdoor playgrounds, golf courses, airports, parks, etc.

One or a plurality of floodlights attached to the upper end of the tower of the illumination tower collect light and shine in a certain direction.

Such a lighting tower is constituted by circumferentially surrounding a proper height of the column and having a plurality of sodium floodlights.

Since the lighting towers implemented by the above-mentioned sodium floodlighting and the like require a considerably high power consumption and many carbon emissions are generated, a lighting tower equipped with an LED floodlight is developed to solve problems such as low power consumption and carbon emission .

Korean Patent Application No. 2011-48040 (LED floodlight with excellent installation property, hereinafter referred to as the first invention) discloses an LED floodlight installed in the above-mentioned place.

The LED floodlight disclosed in the present invention implements the inside of the housing in which the LED light emitting section is housed in a closed state to prevent the inflow of contaminants such as dust and the like into the housing. When the LED light emitting portion is driven by the sealing structure, the efficiency of the light emitter is lowered due to the temperature rise inside the housing.

Specifically, in the LED floodlight of the above-mentioned invention, condensation (moisture generation) is generated in accordance with an excessive temperature difference in the housing and thus the transmission efficiency of light transmitted through the protective window is lowered, Condensation occurred in the window occurs when the water is condensed in the winter and the protection window is frozen.

In order to solve such a problem, an LED floodlight of a lighting tower is disclosed in Korean Patent Registration No. 10-123169.

The light emitting lamp described above includes a housing having a heat dissipating unit integrally formed therein; An LED light source unit mounted on the inside of the housing to emit light by LED driving to realize illumination; A transmission cover coupled to a front side of the housing through which light is emitted from the LED to transmit light emitted from the LED and to seal the interior of the housing provided with the LED light source; A dehumidifier installed inside the housing for removing moisture generated by temperature rise when the LED light source unit is driven; And a bracket coupled to one side of the housing and the other side of the bracket connected to a support of an illumination tower installed in the harbor.

However, since the plurality of radiating fins provided on the rear surface of the housing protrude rearward, the radiating efficiency is still low due to the irregular flow of the air flowing around the transmission light, In order to illuminate a plurality of points in a place where a plurality of light projecting lights need a wide illumination range, the light projecting directions must be adjusted by each of a plurality of light projecting lights, and light emitted from a plurality of LEDs, It is difficult to adjust the angles of illumination of the floodlights at the points to be surveyed due to spreading from the point and the structures which are likely to seriously obstruct the safety of the aircraft as a fixed object in accordance with Article 83 of the Aviation Act and the Enforcement Regulations of the Aviation Act [ In the area within a radius of 15km (within the obstacle restricted area) from the airfield marker point, , The light tower of the light tower is illuminated toward the sky when it is an illumination tower that is not a structure over 45 meters from the airfield marker or an object over 60 meters from the surface or the ground in a region with a radius of 15 km or more , There is a problem that the traveling of the airplane may be confused.

The present invention has a problem in solving these problems.

The present invention is characterized in that a heat dissipating unit having a structure capable of flowing air vertically and horizontally is provided on a rear surface of a housing and an infrared ray irradiating unit is provided on an upper side or a lower side of a front surface of the housing and a light shield is provided on an upper side of the front surface of the housing The above problem can be solved by providing a reflector capable of selectively controlling the inclination inside the light shield.

According to the present invention, the heat radiation efficiency is increased as compared with the prior art, and the irradiation angle of the light-emitting lamps at the point to be irradiated is facilitated, and the light is projected to the sky It is possible to provide a floodlight of an illumination tower that does not confuse the running of the airplane.

1 is an assembled perspective view of a lighting tower of the present invention,
Fig. 2 is an exploded perspective view of Fig. 1,
3 is a bottom view and a side view of the heat dissipating unit of Fig. 2, and Fig.
4 is a detailed view of the light shield.

Hereinafter, the light projection of the illumination tower of the embodiment according to the present invention will be described in detail with reference to FIG. 1 to FIG.

In Fig. 1, the light projection of the illumination tower of the embodiment according to the present invention is indicated by reference numeral 100. Fig.

As shown in FIG. 1 and FIG. 2, the light-transmitting lamp 100 includes a bracket 1 mounted on an upper frame of a support (not shown), both side portions of the bracket 1 being adjustable in inclination A heat dissipating unit 3 mounted on a rear surface of the housing 2 and a plurality of LEDs mounted on a receiving unit 2a formed on a front surface of the housing 2, A transparent reinforcing glass 5 covering the LED circuit board 4 and a transparent reinforcing glass 5 which is in contact with the rim of the transparent tempered glass 5 and which is arranged on the side of the accommodating portion 2a of the housing 2 And a tightening frame 7 detachably mounted on a rim of the front surface of the housing 2 in a state in which the waterproof seal 6 is pressed in the thickness direction.

2 and 3, in order to allow the air flowing in the lateral direction, the longitudinal direction, and the height direction to flow in the four directions while increasing the contact with the air, unlike the conventional floodlight, As shown in the figure, a base plate 3a mounted on the rear surface of the housing 2, a base plate 3a integrally fixed to the base plate 3a, and a plurality of heat radiating plates 5b extending from the rear of the housing 2, (3b), a plurality of lateral ventilation slit flow paths (3c) in which the plurality of heat sinks (3b) are arranged in parallel and spaced apart from each other by a predetermined distance therebetween, and a plurality of heat sinks And a vertical vent slit opening 3d formed in the plurality of heat dissipating plates 3b and spaced apart in the longitudinal direction of the plurality of heat dissipating plates 3b in the thickness direction and the front end direction of the plurality of heat dissipating plates 3b.

As shown in FIG. 3, the plurality of heat dissipation plates 3b are divided into six groups in a group of five in a thickness direction of the heat dissipation plate 3b, The greater the protruding length of the heat radiating plate 3b disposed in the middle in the direction of the heat sink 3b and the longer the protruding length of the plurality of heat sinks 3b disposed in the center of the heat sink 3b disposed in the center of the heat sink 3b, And are arranged in a pattern that becomes smaller.

The heat dissipating unit 3 configured as described above includes a plurality of heat dissipating plates 3b instead of the plurality of heat dissipating fins so that the air flowing in the up-down, right-left, front-back direction can be easily transferred to the heat dissipating unit 3).

That is, the outside air flowing in the longitudinal direction of the heat sink 3b flows through one side of the plurality of slit flow paths 3c, flows out to the other side of the plurality of slit flow paths 3c, and out of the plurality of slit openings 3d The outside air which is to be hit against the heat radiating plate 3b out of the outside air flowing in the thickness direction of the heat sink 3b flows through one side of the plurality of slit openings 3d and then flows toward the other side of the plurality of slit openings 3d The outside air flowing out to one side and the other side of the plurality of slit flow paths 3c and facing the front end of the heat radiating plate 3b out of the outside air flowing in the thickness direction of the heat radiating plate 3b, Due to the plurality of heat dissipating plates 3b arranged in the above-described pattern, the introduced outside air flows under the plurality of slit flow paths 3c, moves in the height direction, and flows out through the plurality of slit openings 3d All.

In order to allow the user to easily recognize a target point at which light emitted from a plurality of LEDs of the LED circuit board 4 is to be irradiated, the infrared light- (2b).

When the infrared light-emitting portion 2b is not provided in the light-emitting lamp 100, when light emitted from a plurality of LEDs of the LED circuit board 4 is irradiated on the ground, It is difficult to adjust the inclination degree of the light emitting lamp 100 while adjusting the angle of the illuminating light based on only the visual acuity of the user, The light emitted from the plurality of LEDs of the LED circuit board 4 and the red linear light rays from the infrared light emitting portion 2b are irradiated to the ground surface by the user's selective operation, Even if the red LEDs illuminate a wide range of the ground, a red straight line of rays generated in the infrared ray emitting portion 2b is focused on the surface of the light emitter. As it is by adjusting the inclination of the light transmitting the like 100 to the floor to be illuminated is determined depending upon only the user's sight facilitating conformity to investigate the focus.

Further, in addition to the above-described configuration, the light-transmitting lamp 100 may further include a light-shielding light (not shown) mounted detachably on the front surface of the tightening frame 7 to prevent light irradiated from the light- And further comprises a screen (8).

The light shield 8 includes a rectangular frame 8a mounted on the tightening frame 7, a roof portion 8b having its base end fixed on the upper side of the rectangular frame 8a and extending in the irradiation direction with its tip tilted upward, And both side wall portions 8d having a base end fixed to both longitudinal sides of the rectangular frame 8a and an upper portion fixed to both side portions of the roof portion 8b and inclined downward.

In order to allow the light irradiated from the plurality of LEDs of the LED circuit board 4 to converge at the target point without spreading, the bottom surface of the roof portion 8b of the light shield 8 is provided with a reflection roof portion 9a ) And a reflection plate 9 including a right reflection type side wall portion 9b having an inverted triangle shape and a top side integrally joined to both side surfaces of the reflection roof portion 9a.

The reflection plate 9 acts to increase the illumination intensity while reducing the illumination range irradiated on the ground surface of the light projector 100.

1 and 2, the base end side reflective roof portion 9a of the reflector 9 is coupled to the roof portion 8b by fastening means and the both reflective side wall portions 9b are connected to the side wall portion 8b And the tip end thereof is protruded in the tip direction more than the tip end of the roof portion 8b. However, the present invention is not limited to this, and the inclination of the reflector 8c and the inclination angle It is possible to provide the reflection plate inclination projection adjusting means 10 as shown in FIG. 4 for adjusting the amount of projection.

4, the reflection plate inclination / protrusion adjusting means 10 includes a slot opening 11 formed at the center of the upward inclined roof portion 8b and extending in the longitudinal direction of the roof portion 8b, A bracket bar 12 extending in the longitudinal direction of the slot opening 11 and facing the slot opening 11 and slidably contacting the bottom surface of the roof portion 8b; A plurality of bolts (13) spaced apart from each other and having a head mounted on the upper surface of the bracket bar (12) and having a threaded portion penetrating the slot opening (11) A hinge means 15 such as a hinge interposed between the base end of the reflective roof portion 9a and the distal end of the bracket bar 12, a nut 14 fastened to the plurality of bolts 13, The reflection plate 9 is formed on the outer surface of the base end of the portion 9b so as to be spaced apart from each other in the turning path direction A plurality of male parts 16 and a plurality of male parts 16 formed on the side wall part 8d facing the plurality of male parts 16 with a size and shape such that any one of the plurality of male parts 16 can be inserted. And a female through hole (17).

When the reflection plate inclination projection adjusting means 10 is provided on the reflection plate 9, it is possible to increase the adjustment range in which the illumination intensity can be increased while reducing the illumination range irradiated on the ground surface of the light- .

The LED projection light of the illumination tower constructed as described above has an increased heat radiating efficiency compared with the conventional one, facilitates the adjustment of the irradiation angle of the light projections at the point to be irradiated, and allows the light projection of the illumination tower to be irradiated with light toward the sky So that it is possible to provide an action effect that does not confuse the running of the airplane.

One; Bracket, 2; Housing, 3; The heat dissipating units 3, 4; LED circuit boards 4, 5; Transparent tempered glass, 6; Waterproof seal, 7; Tightening frame

Claims (6)

A bracket 1 mounted on the upper frame of the support,
A housing (2) hinged to both sides of the bracket (1) so as to be adjustable in inclination,
A heat dissipating unit 3 mounted on a rear surface of the housing 2,
An LED circuit board 4 which is seated on a receiving portion 2a formed in a front portion of the housing 2 and has a plurality of LEDs,
A transparent tempered glass 5 covering the LED circuit board 4,
A waterproof seal 6 in contact with the rim of the transparent tempered glass 5 and also in contact with the rim of the storage portion 2a of the housing 2,
And a tightening frame 7 detachably mounted on a rim of the front portion of the housing 2 while the waterproof seal 6 is pressed in the thickness direction,
The heat dissipating unit 3
A base plate 3a mounted on a rear surface of the housing 2,
A plurality of heat sinks (3b) fixed to the base plate (3a) integrally with base ends thereof and having front ends extending toward the rear of the housing (2)
A plurality of transverse ventilation slit flow paths 3c arranged between the heat radiating plates 3b in parallel and spaced apart from each other by a predetermined distance,
A longitudinal ventilation slit opening 3d formed in the plurality of heat dissipating plates 3b and spaced a predetermined distance in the longitudinal direction of the plurality of heat dissipating plates 3b and opened in the thickness direction and the front end direction of the plurality of heat dissipating plates 3b, And a light emitting diode (LED). 3. The method of claim 2,
The plurality of heat dissipation plates 3b are divided into six groups by five groups in the thickness direction of the heat dissipation plate 3b so that each of the six groups is divided into a plurality of heat dissipation plates 3b arranged in the thickness direction of the heat dissipation plate 3b And the plurality of heat sinks 3b disposed in the center of the heat sink 3b disposed in the middle of the thickness of the heat sink 3b are arranged in a pattern such that the projecting length of the heat sinks 3b becomes smaller Features such as LED floodlight tower light. 4. The method according to any one of claims 1 to 3,
And an infrared light emitting portion (2b) is provided at the center of the upper edge of the front portion of the housing (2). The method of claim 3,
Further comprising a light shield (8) detachably mounted on a front portion of the tightening frame (7)
The light shield (8)
A rectangular frame 8a mounted on the tightening frame 7, a roof portion 8b having a base end fixed on the upper side of the rectangular frame 8a and extending in the irradiation direction with its tip tilted upward,
And both side wall portions 8d in the shape of an equilateral triangle whose base is fixed to both longitudinal sides of the rectangular frame 8a and whose upper portion is fixed to both side portions of the roof portion 8b and the hypotenuse is inclined downward LED floodlight of the lighting tower. 5. The method of claim 4,
On the bottom side of the front end side of the roof portion 8b of the light shield 8 is formed a pair of right and left triangular reflecting portions 10a and 10b which are integrally joined to both sides of the reflecting roof portion 9a and the reflecting roof portion 9a, A reflection plate 9 including a side wall portion 9b is provided,
The base end side reflecting roof portion 9a of the reflecting plate 9 is coupled to the roof portion 8b by the fastening means and the both reflecting side wall portions 9b are coupled to the side wall portion 8b by the fastening means And the front end thereof protrudes further in the tip direction than the front end of the roof part (8b). 6. The method of claim 5,
Further comprising a reflection plate slant projection adjusting means (10)
The reflection plate inclination / protrusion adjusting means (10)
A slot opening 11 formed at the center of the upward inclined roof portion 8b and extending in the longitudinal direction of the roof portion 8b,
A bracket bar 12 extending in the longitudinal direction of the slot opening 11 and facing the slot opening 11 and slidingly contacting the bottom surface of the roof portion 8b,
A plurality of bolts 13 spaced apart from each other in the longitudinal direction of the bracket bar 12 and having a head portion mounted on the upper surface of the bracket bar 12 and having a threaded portion passing through the slot opening 11,
A nut 14 having a diameter larger than the width of the slot opening 11 and fastened to the plurality of bolts 13,
Hinge means 15 such as a hinge interposed between the base end of the reflective roof portion 9a and the front end of the bracket bar 12,
A plurality of male portions 16 formed on the outer surface of the base end of the reflective sidewall portion 9b and spaced apart from each other in the direction of the turning path of the reflector 9 and a plurality of male portions 16 And one female through hole (17) formed in the side wall portion (8d) facing the plurality of male portions (16) with a predetermined shape.

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