KR101560206B1 - Lighting device - Google Patents

Abstract

A lighting apparatus is disclosed in accordance with an embodiment of the present invention. The lighting device includes: a lighting lamp holder having a first air inlet, through which air flows from the outside, at a lower portion; And an illuminating lamp supported by the illuminating lamp and having an air outlet for discharging the air introduced from the first air inlet, wherein the illuminating lamp and the illuminating lamp are configured to be in air communication with each other, Wherein the air flow channel allows a flow of air passing through the ventilation channel to cool the heat generated by the illumination lamp mechanism, And a second air inlet through which air flows from the outside. The air introduced through the second air inlet is discharged to the air outlet so as to promote the flow of air passing through the air channel.
The illumination device according to the present invention can effectively convectively cool the heat transferred from the light source module to the housing through the flow of air through the ventilation channel. In particular, the air inlets can be multiplexed to facilitate the flow of air through the vent channels and to improve the cooling effect.

Description

LIGHTING DEVICE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting apparatus including a lighting fixture and a lighting fixture, and more particularly, to a lighting fixture for convectively cooling a lighting fixture through the flow of air through a ventilation channel formed inside the lighting fixture.

Generally, a streetlight is installed on a road on which a person, a vehicle, etc. pass, and illuminates, thereby facilitating the walking and the passage of the vehicle at night. High-pressure mercury lamps, fluorescent lamps, sodium lamps, etc. have been generally used for street lamps in the related art. However, these lamps have a short service life, low impact resistance, and high power consumption. As a result, LEDs (light emitting diodes), which are environmentally friendly, excellent in impact resistance and low in power consumption, are used as alternative light sources.

However, LEDs inevitably generate heat in the process of converting electricity into light. Unlike ordinary indoor lighting, LEDs that require higher brightness and higher brightness should be installed in streetlights that require brighter illumination. The amount of electricity to be supplied increases, and accordingly, the amount of heat generated also increases. Such high-temperature heat generated a thermal stress on the street lamp, deteriorating the characteristics of the street lamp, and reducing the durability.

Accordingly, the conventional streetlight had to have a separate cooling means for cooling the high heat generated from the LED. However, such a cooling means has complicated the structure of the streetlight, and has been the cause of the rise and failure of the streetlight.

 Therefore, in a lighting apparatus using an LED, there is a demand for a technique capable of securing sufficient heat dissipation while increasing the light amount.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to effectively cool heat generated in an LED through the flow of air in an illumination device without providing an additional cooling device.

A lighting apparatus is disclosed in accordance with an embodiment of the present invention. The lighting device includes: a lighting lamp holder having a first air inlet, through which air flows from the outside, at a lower portion; And an illuminating lamp supported by the illuminating lamp and having an air outlet for discharging the air introduced from the first air inlet, wherein the illuminating lamp and the illuminating lamp are configured to be in air communication with each other, Wherein the air flow channel allows a flow of air passing through the ventilation channel to cool the heat generated by the illumination lamp mechanism, And a second air inlet through which air flows from the outside. The air introduced through the second air inlet is discharged to the air outlet so as to promote the flow of air passing through the air channel.

Preferably, the luminaire mechanism includes a light source module including at least one light emitting diode (LED), a housing in which the light source module is disposed on an outer surface, heat transmitted from the light source module is transferred to the housing, Wherein the inner surface of the housing forms at least a portion of the ventilation channel and the flow of air through the ventilation channel convectively cools the inner surface of the housing have.

Also preferably, the housing may include a heat-dissipating plate extending from at least a portion of the inner surface to increase a contact surface with air passing through the ventilation channel.

Also preferably, the housing may include a heat-dissipating plate extending from at least a portion of the outer surface to increase the contact surface with air outside the luminaire.

Also, preferably, the second air inlet may be positioned with respect to the air outlet so that foreign matter introduced into the air outlet may be discharged to the second air inlet.

Also preferably, the housing may include a fixing portion that engages with the lightpost and a heat radiation plate that extends from at least a part of the surface of the fixing portion.

Also preferably, the light-transmitting cover is slidably coupled to the housing.

Also preferably, at least a portion of the outer surface of the housing is concave inwardly of the housing, and the light source module may be disposed on the outer surface of the concave shape.

The illuminating lamp may further include a reflector disposed between the light source module and the housing and reflecting light emitted from the light source module.

Also, preferably, the illumination lamp mechanism may further include a holding cap for holding the coupling between the housing and the light-transmitting cover.

Further, it is preferable to further include an outer plate mounted on the upper portion of the luminaire to protect the luminaire.

Preferably, the housing further includes an upper support and a lower support which are spaced apart from each other, wherein the lower support and the lower support are inserted between the upper support and the lower support, Insertions can be dimensioned to provide a combination of the lighted strut and the luminaire mechanism. A lighting apparatus is disclosed in accordance with an embodiment of the present invention. The lighting device includes: a lighting lamp holder having a first air inlet, through which air flows from the outside, at a lower portion; And an illuminating lamp supported by the illuminating lamp and having an air outlet for discharging the air introduced from the first air inlet, wherein the illuminating lamp and the illuminating lamp are configured to be in air communication with each other, Wherein the air flow channel allows a flow of air passing through the ventilation channel to cool the heat generated by the illumination lamp mechanism, And a second air inlet through which air flows from the outside. The air introduced through the second air inlet is discharged to the air outlet so as to promote the flow of air passing through the air channel.

Preferably, the luminaire mechanism includes a light source module including at least one light emitting diode (LED), a housing in which the light source module is disposed on an outer surface, heat transmitted from the light source module is transferred to the housing, Wherein the inner surface of the housing forms at least a portion of the ventilation channel and the flow of air through the ventilation channel convectively cools the inner surface of the housing have.

Also preferably, the housing may include a heat-dissipating plate extending from at least a portion of the inner surface to increase a contact surface with air passing through the ventilation channel.

Also preferably, the housing may include a heat-dissipating plate extending from at least a portion of the outer surface to increase the contact surface with air outside the luminaire.

Also, preferably, the second air inlet may be positioned with respect to the air outlet so that foreign matter introduced into the air outlet may be discharged to the second air inlet.

Also preferably, the housing may include a fixing portion that engages with the lightpost and a heat radiation plate that extends from at least a part of the surface of the fixing portion.

Also preferably, the light-transmitting cover is slidably coupled to the housing.

Also preferably, at least a portion of the outer surface of the housing is concave inwardly of the housing, and the light source module may be disposed on the outer surface of the concave shape.

The illuminating lamp may further include a reflector disposed between the light source module and the housing and reflecting light emitted from the light source module.

Also, preferably, the illumination lamp mechanism may further include a holding cap for holding the coupling between the housing and the light-transmitting cover.

Further, it is preferable to further include an outer plate mounted on the upper portion of the luminaire to protect the luminaire.

Preferably, the housing further includes an upper support and a lower support which are spaced apart from each other, wherein the lower support and the lower support are inserted between the upper support and the lower support, Insertions can be dimensioned to provide a combination of the lighted strut and the luminaire mechanism.

Further, preferably, the illumination lamp post and the illumination lamp mechanism are detachably coupled.

Further, preferably, the illuminating lamp post may further include an inlet cover disposed on the front surface of the first air inlet, for preventing foreign matter from entering the lamp.

Preferably, the illuminating lamp post is disposed on the rear surface of the first air inlet so as to guide movement of the air introduced through the first air inlet into the ventilation channel, And an inflow guide for discharging the foreign matter to the outside.

The illumination device according to the present invention can effectively convectively cool the heat transferred from the light source module to the housing through the flow of air through the ventilation channel. In particular, the air inlets can be multiplexed to facilitate the flow of air through the vent channels and to improve the cooling effect.

Further, the lighting apparatus according to the present invention can enhance the cooling effect by expanding the contact area with the surrounding air through the heat radiation plate extending to the outside and the surface of the illumination lamp apparatus.

According to the above-described configuration, the illumination device of the present invention is simple in structure, reduced in size and weight as compared with the conventional illumination device using LED, and can have an improved air-cooled cooling function.

In addition, the lighting apparatus according to the present invention is very economical to reduce the occurrence of faults and prolong the life of the lighting apparatus by simply and efficiently cooling the high heat generated in the light source module of the lighting apparatus when used in a streetlight, There is a practical effect.

BRIEF DESCRIPTION OF THE DRAWINGS A brief description of each drawing is provided to more fully understand the drawings recited in the description of the invention.
1 shows a lighting apparatus according to an embodiment of the present invention.
2 shows the flow of air through a ventilation channel in a lighting device according to an embodiment of the invention.
Figure 3 shows an air inlet of a lighting device according to an embodiment of the invention.
4 shows an air inlet of a lighting device according to another embodiment of the present invention.
5 shows a lighting apparatus of a lighting apparatus according to an embodiment of the present invention.
Fig. 6 shows the light distribution range of the illumination device according to the shape of the coupling surface of the housing.
7 shows a luminaire arrangement of a lighting apparatus according to another embodiment of the present invention.
8 shows a luminaire arrangement of a lighting apparatus according to another embodiment of the present invention.
FIG. 9 shows a combination of a housing and a light-emitting cover in a lighting apparatus according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described with reference to the accompanying 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. In addition, embodiments of the present invention will be described below, but the technical idea of the present invention is not limited thereto and can be variously modified by those skilled in the art.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "indirectly connected" . Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

1 shows a lighting apparatus according to an embodiment of the present invention.

As shown, the illumination device 100 may include an illuminated lamp 110 and a luminaire 120.

The lighting lamp 110 is a column-shaped member that is erected on the ground, and a hollow portion is formed therein to support the lighting lamp mechanism 120. Generally, a power cable buried in the ground can extend to the inner space of the light-emitting pillar 110 and connected to the light-lighting device 120 to supply electric power to the light-lighting device 120. The illumination lamp 110 may further include a connection portion (not shown) extending from the upper portion of the illumination lamp 110 and coupling with the illumination lamp mechanism 120. The connection may be referred to as a transverse post, arm, or the like.

The luminaire 120 is a member that is supported by the luminaire struts 110 and disposed high from the ground and can be directly coupled to the upper portion of the luminaire struts 110 or coupled by the connection of the luminaire struts 110. The coupling may be fixedly connected by welding or the like, or may be detachable by a coupling means such as a bolt. It is not necessary to dismantle the entirety of the lighting apparatus 100 and it is possible to prevent the illumination lamp apparatus 120 and the illumination lamp holder 120 from being detached, (110) are integrally formed or fixedly coupled.

The light fixture 120 may include a housing 510, a light source control module 520, a light projection cover 530, and a retention cap 540 in order to receive power from the light tower 110 and emit light. have.

The housing 510 is connected to the illumination lamp 110 and forms a hollow portion therein. The light source module is disposed on the surface of the housing 510, so that heat generated from the light source module can be transmitted. The light source control module 520 may be coupled to the housing 510 and may control the operation of the light source module, such as providing power to the light source module from the outside via the lighting post 110. The light-transmitting cover 530 is a transparent member formed of glass, acrylic, or the like, and can be coupled to the housing 510 and cover the front surface of the light source module to protect the light source module from the outside. The holding cap 540 can be disposed at the ends of the housing 510 and the light transmitting cover 530 to maintain the coupling between the housing 510 and the light transmitting cover 340. As an example, the holding cap 540 may be formed of a waterproof material such as silicone rubber or rubber that can block snow or rain from the outside.

In one embodiment, the overall contour of the luminaire 120 may be shaped to reduce friction with the outside air. As shown in FIG. 1, the illumination lamp mechanism 120 may be formed in a cylindrical shape as a whole, but may be an elliptical cylinder, a mixed cylinder, or the like according to an embodiment. The luminaire 120 is supported at a high position from the ground by the illuminating pillars 110, and therefore, a flow of air, such as a vortex, can occur around it. Conventionally, a squared plate-shaped illumination lamp apparatus is shaken due to the flow of air outside the illumination apparatus, thereby reducing the durability of the illumination apparatus and increasing the risk of accidents. On the other hand, according to the present invention, since the outer shape of the illumination lamp 120 has a cylindrical shape, it is possible to reduce the friction between the illumination lamp 100 and the air outside the illumination device 100, thereby reducing the shaking of the illumination device 100. This shape of the luminaire 120 is exemplary and various shapes may be used in accordance with the embodiment to which the present invention is applied. For example, the luminaire 120 may be in the shape of a square pipe.

In one embodiment, the luminaire 120 may further include an outer plate (not shown). The outer plate is mounted on the upper portion of the luminaire 120 so that the snow or other foreign matter breaks the luminaire 120 or the foreign material is blown into the inside of the luminaire 120 Can be prevented. The outer plate may be fixedly coupled to the upper portion of the housing of the luminaire 120 by welding or the like, or may be detachably coupled by a coupling means such as a bolt.

2 shows the flow of air through a ventilation channel in a lighting device according to an embodiment of the invention.

As shown, the lighting post 110 and the luminaire 120 of the lighting device 100 may be configured to be in air communication with each other. The illuminating lamp 110 includes a first air inlet 210 at a lower portion of the illuminating lamp 110 and an illuminating lamp 120 has an air outlet 220 at an upper portion thereof with respect to the first air inlet 210. [ The lighting lamp 110 and the luminaire 120 form a hollow portion connected to the first air inlet 210 and the air outlet 220 so that external air can flow through the lighting device 100 So that it can be communicated. That is, the ventilation channel 200 through which the air introduced from the first air inlet 210 of the illumination lamp 110 is discharged to the air outlet 220 of the illumination lamp 120 can be formed therein.

Generally, the light tower 110 extends to a height of about 8 meters or more from the ground, so that a significant difference in air pressure may occur between the upper and lower portions of the light tower 110. Specifically, a relatively high air pressure exists around the first air inlet 210 in the lower part of the lighting post 110, and a relatively low air pressure exists around the air outlet 220 of the lighting device 120 . Accordingly, the air having a high air pressure is introduced into the illuminating lamp support 110 through the first air inlet 210, moved along the ventilation channel 200, and discharged through the air outlet 120. The flow of air through the ventilation channel 200 may cause convection cooling of the heat generated by the illumination lamp mechanism 120.

In particular, the illumination lamp apparatus 120 according to the present invention may further include a second air inlet 230 through which air flows from the outside. The flow of the air passing through the ventilation channel 200 in the luminaire 120 is faster than the air outside the luminaire 120. [ Therefore, the air outside the luminaire 120 (i.e., the air with the high pressure) flows into the luminaire 120 through the second air inlet 230, where relatively fast air (i.e., low pressure air) do. Accordingly, the flow of air in the luminaire 120 is further increased, which promotes the flow of air passing through the ventilation channel 200 and further enhances the convection cooling effect of the heat generated by the luminaire mechanism 120 do.

In one embodiment, the second air inlet 230 may be positioned so that foreign matter entering the air outlet 220 is vented to the second air inlet 230. External foreign matter can be inserted into the luminaire 120 through the air outlet 220 which hinders the flow of air through the ventilation channel 200 and can sometimes cause malfunction of the luminaire 100 have. However, as shown in the drawing, the second air inlet 230 is located at a lower height from the ground than the air outlet 220 in the luminaire, so that even if a foreign object is inserted from the air outlet 220, And is discharged to the inlet 230. According to the present invention, it is possible to easily discharge foreign matter without installing a separate device through such a configuration.

Figure 3 shows an air inlet of a lighting device according to an embodiment of the invention.

As shown, the lighting post 110 may further include an inlet cover 300 disposed at the front of the first air inlet 210 at the bottom. The inlet cover 300 is for preventing inflow of other foreign matter while permitting inflow of air into the first air inlet 210, and may be in the form of a net, a wire net, or the like. The inlet cover 300 may be fixedly coupled to the lamp holder 110 by welding or the like, or may be detachably coupled by a coupling means such as a bolt.

The configuration of the inlet cover shown in FIG. 3 is illustrative, and various configurations can be applied according to the embodiment to which the present invention is applied. For example, although a first air inlet in a rectangular shape is shown in FIG. 3, a first air inlet of a different shape (e.g., a circle) according to an embodiment may be used and the inlet cover also has a circular shape .

4 shows an air inlet of a lighting device according to another embodiment of the present invention.

As shown, the lighting post 110 may further include inlet guides 410 and 420 disposed on the rear side of the first air inlet 210. The inlet guide 410 may guide the movement of air introduced into the first air inlet 210 toward the air channel so as to promote the flow of air through the air channel.

In particular, the inlet guide 410. 420 may be formed to have a vertical (see FIG. 4A) or a predetermined angle (see FIG. 4B) with respect to the light support 110, 1 foreign matter such as snow, rain, and the like, which are introduced into the air inlet 210, may be discharged again to the outside of the lighting post 110. The inlet guides 410 and 420 may be fixedly coupled to the light support struts 110 by welding or the like or may be detachably coupled by a coupling means such as a bolt, May be coupled to the illuminated lamp post 110 by various couplings disposed on at least one of the inner and outer sides of the lamp 210.

The configuration of the inlet guide shown in FIG. 4 is illustrative, and various configurations can be applied according to the embodiment to which the present invention is applied.

5 shows a lighting apparatus of a lighting apparatus according to an embodiment of the present invention.

5 (a) and 5 (b), the light source module 550 is disposed in the housing 510. The light source module 550 is a light source in which at least one LED is disposed along the longitudinal direction of the housing 510. The light source module 550 can receive power through the control module 520 and emit light. In the light source module 550, the LEDs may be mounted in a chip-on-glass form or mounted on a printed circuit board (PCB). Each LED of the light source module 550 generally provides a predetermined amount of light (for example, a light amount per unit module of the LED module is 100 lm), and the position, environment, or regulation The total light amount of the illumination device 100 can be adjusted by adjusting the number of LEDs included in the light source module 550 in consideration of the required light amount according to the light amount.

A reflection plate 560 may be disposed between the light source module 550 and the housing 510. The reflection plate 560 is formed by plating chrome, silver nano, or the like on the outer surface of the housing 510, and reflects light emitted backward from the light source module 550 forward to improve the luminous efficiency of the illumination device 100 . The illuminating device 100 according to an embodiment of the present invention may be configured such that chrome, silver nano, or the like is plated on the inner surface of the holding cap 540 similarly to the reflecting plate 560 to emit light emitted from the light source module 550 And the inner surface of the holding cap 540 may be formed concave.

The fixing portion 570 may be disposed inside the housing 510. The fixing portion 570 may allow the end of the light support 120 or the connection of the light support 120 to be inserted and coupled therein so that the light support 110 supports the light fixture 120. [ The fixing portion 570 may be fixedly coupled to the housing 510 by welding or the like, or may be detachably coupled by a coupling means such as a bolt. 5A shows a configuration in which the fixing portion 570 is formed in a cylindrical shape and the illumination lamp 120 is inserted into the interior of the fixing portion 570. However, various configurations are applicable according to the embodiment. For example, the fixing portion 570 shown in the lighting device 100 may be formed in a semicircular shape in section and may be in close contact with a part of the outer surface of the lighting post 120 to support the lighting post.

The coupling surface of the housing 510 in which the light source module 550 is disposed may be concave inward from the outer surface of the housing 510. The light source module 550 may be disposed on the concave shaped coupling surface of the LED to increase the light distribution range of the light source module 550.

In FIG. 5, a concave shaped engagement surface is shown inside the housing 510, but this is illustrative and various configurations can be applied to the embodiment to which the present invention is applied. For example, the engaging surface may be convex outwardly of the housing 510.

In this connection, Fig. 6 shows the light distribution range of the illumination device according to the shape of the coupling surface of the housing. As shown in the drawing, the light source module is disposed on the flat engagement surface and arranged on the concave shaped engagement surface (see Fig. 6 (a)) that emits light perpendicularly to the paper surface and emits light in a different direction The light source module (see Fig. 6 (b)) has a wider light distribution range.

7 shows a luminaire arrangement of a lighting apparatus according to another embodiment of the present invention.

As shown, the housing 510 may include a heat sink 580 extending from an inner surface, an outer surface, and an outer surface of the securement portion 570 of the housing 510. The heat dissipating plate 580 can increase the contact surface with the ambient air to improve the effect of convection cooling by the air. Specifically, the heat dissipating plate 580 extending from the inner surface of the housing 510 and the outer surface of the fixing portion 570 increases the contact surface with the air passing through the ventilation channel and extends from the outer surface of the housing 510 The heat dissipating plate 580 can increase the contact surface with the air outside the luminaire 120. The fixing portion 570 may be in close contact with the housing 510 to receive heat from the housing 510 so that the heat dissipating plate 580 may be formed in the fixing portion 570 as well.

7 shows a heat dissipating plate 580 extending from both the outer surface and the inner surface of the housing 510 and the outer surface of the fixing portion 570. However, The heat dissipating plate 580 may extend from at least a portion of the outer surface and the inner surface of the housing 510 and the outer surface of the fixing portion 570 according to the embodiment.

8 shows a luminaire arrangement of a lighting apparatus according to another embodiment of the present invention.

As shown in the figure, the overall contour of the luminaire 120 has a shape in which four cylinders are mixed.

The housing 510 may include a heat dissipating plate 580 extending from an inner surface corresponding to the mating surface on which the light source module is disposed. The heat dissipating plate 580 has the same curvature as the outer shape of the housing and can extend to a possible extent in the inner space of the housing to optimally improve the contact surface with the air passing through the ventilation channel 200. [

Inside the housing 510, an upper support 810 and a lower support 820 may be disposed. The upper support 810 and the lower support 820 are for supporting the illumination lamp 120 in the illumination lamp 110 and are spaced apart from each other in the interior of the housing 510, (Shown by dotted lines) of the lighting lamp post 110. The upper support 810 and the lower support 820 may be dimensioned such that a rigid connection is provided only by the insertion of the end or connection of the light support post 110 into the interior of the housing 510. [ For example, the diameter of the light support 110 may be 60 mm, or may be changed to 45 to 50 mm or the like, and may be variously changed within a range known to those skilled in the art.

The ends or connection portions of the upper support 810 and the light support 110 may be fixedly coupled by welding or the like or may be detachably coupled by a coupling means such as a bolt.

8, a second air inlet 230 may be formed at the left and right side portions of the portion where the lighting post 110 is inserted. In the lighting apparatus of the lighting apparatus according to another embodiment of the present invention shown in FIG.

Fig. 9 shows a combination of a housing and a light-emitting cover in a lighting apparatus according to an embodiment of the present invention.

9 (a) and 9 (b), the light-transmitting cover 530 can be coupled to the housing 510 in a sliding manner. Specifically, the housing 510 is formed with a fitting groove along the longitudinal direction of the housing 510, and the light-transmitting cover 530 can be coupled to the housing 510 by being inserted into the fitting groove in a sliding manner. 1) is disposed at the end of the housing 510 and the light-transmissive cover 530 so that the housing 510 and the light-transmissive cover 340 are disposed at the ends of the housing 510 and the light- Can be maintained. The housing 510 and the light-transmitting cover 530 according to the present invention can be combined in a simple and easy manner without a separate coupling means such as a bolt through the construction of the fitting groove.

The above-described configuration shown in FIG. 9 is illustrative, and the housing and the light-emitting cover can be combined in various ways according to the embodiment to which the present invention is applied.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100 Lighting device 110 Light lighting
120 Light fixture 200 Ventilation channel
210 First air inlet 220 Air outlet
230 2nd air inlet 300 Inlet cover
410 Inflow Guide 420 Inflow Guide
510 housing 520 control module
530 Flood light cover 540 Retention cap
550 light source module 560 reflector
570 fixed part 580 heat dissipating plate
810 upper support 820 upper support

Claims (15)

An illuminating lamp support having a first air inflow port through which air flows from the outside; And
And an air discharge port which is supported by the illumination lamp post and through which the air introduced from the first air inlet port is discharged,
Wherein the illuminating lamp and the illuminating lamp are configured to communicate with each other to form a ventilation channel therein for generating a first air flow through which air introduced from the first air inlet is discharged to the air outlet,
Wherein the first air flow passing through the ventilation channel cools the heat generated in the luminaire,
The luminaire further comprises a second air inlet located at the lower end with respect to the air outlet on the opposite end of the air outlet, wherein the first air flow is supplied with air from the outside through the second air inlet, Wherein the second air flow causes the first air flow to be vented to the air outlet port,
Lighting device. The method according to claim 1,
The luminaire mechanism includes:
A light source module including at least one light emitting diode (LED);
A housing in which the light source module is disposed on an outer surface, and heat generated from the light source module is transmitted; And
And a light-transmitting cover coupled to the housing and covering a front surface of the light source module,
Wherein the inner surface of the housing defines at least a portion of the ventilation channel and wherein the first air flow and the second air flow through the ventilation channel convectively cool the inner surface of the housing,
Lighting device. 3. The method of claim 2,
The housing including a heat sink extending from at least a portion of the interior surface to increase a contact surface with air passing through the vent channel.
Lighting device. 3. The method of claim 2,
Wherein the housing comprises a heat dissipating plate extending from at least a portion of the outer surface to increase the contact surface with air outside the luminaire.
Lighting device. delete 3. The method of claim 2,
Wherein the housing includes a fixing portion that is coupled to the lighting post and a heat radiation plate that extends from at least part of the surface of the fixing portion,
Lighting device. 3. The method of claim 2,
Wherein the light-transmissive cover is slidably engaged with the housing,
Lighting device. 3. The method of claim 2,
At least a portion of the outer surface of the housing is concave inwardly of the housing,
Wherein the light source module is disposed on the outer surface of the concave shape,
Lighting device. 3. The method of claim 2,
Wherein the illumination lamp mechanism further includes a reflector disposed between the light source module and the housing and reflecting light emitted from the light source module,
Lighting device. 3. The method of claim 2,
Wherein the illumination lamp mechanism further comprises a holding cap for holding the coupling of the housing and the light-
Lighting device. The method according to claim 1,
Further comprising an outer plate mounted on the upper portion of the luminaire to protect the luminaire,
Lighting device. 3. The method of claim 2,
Wherein the housing further comprises an upper support and a lower support spaced apart from each other in the interior, wherein the lower support is inserted between the upper support and the lower support, Wherein the luminaire is dimensioned to provide a coupling of the luminaire,
Lighting device. The method according to claim 1,
Wherein the illumination lamp post and the illumination lamp mechanism are detachably coupled,
Lighting device. The method according to claim 1,
Wherein the lighting post is further disposed on a front surface of the first air inlet so as to prevent an inflow of foreign matter.
Lighting device. The method according to claim 1,
Wherein the illuminating post is disposed on a rear surface of the first air inlet so as to guide movement of the air introduced through the first air inlet into the ventilation channel and to discharge the foreign matter inserted through the first air inlet to the outside Lt; RTI ID = 0.0 > a < / RTI >
Lighting device.

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