An illumination device includes: a main body supported by a support member; an upper cover portion for covering an upper portion of the main body; and an led light emitting part and a power supply unit, both of which are fixed to a lower side of the upper cover portion. The upper cover portion has a plurality of radiation fins provided on a top portion thereof and a plurality of grooves defined between the adjacent radiation fins, the grooves being inclined downward toward a peripheral edge of the upper cover portion.
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1. An illumination device, comprising:
a main body supported by a support member;
an upper cover portion covering an upper portion of the main body; and
an led light emitting part and a power supply unit, both of which are fixed to a lower side of the upper cover portion, the power supply unit being disposed between the support member and the led light emitting part,
wherein the upper cover portion includes a plurality of radiation fins provided on a top portion thereof and a plurality of grooves defined between adjacent radiation fins, the grooves being inclined downward toward the support member, and
wherein a height of the radiation fins at a side where the led light emitting part resides is greater than a height of the radiation fins at a side where the power supply unit exits;
wherein a thickness of a section of the illumination device where the led light emitting part exists is smaller than a thickness of a section of the illumination device where the power supply unit exists; and
a power supply containing unit protruding downward from the main body to contain the power supply unit therein and a light emitting panel provided at a lower side of the main body, wherein the power supply containing unit has an outer surface controlling light distribution of the light coming from the light emitting panel.
2. The illumination device of
3. The illumination device of
4. The illumination device of
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The present invention relates to an illumination device installed in outdoor areas.
In a conventional illumination device (lamp) used in outdoor areas, radiation fins are usually not employed because they deteriorate water drainage or become a cause of dirt accumulation (see, e.g., JP2007-242258A, claim 1, FIGS. 1, 3 and 4, paragraphs 0012, 0013 and 0015).
However, the conventional illumination device without radiation fins is problematic in heat radiation and, therefore, the lifespan of a lamp such as an LED or the like becomes short. If radiation fins are employed as a solution to these problems, water or other material is gathered in the grooves between the radiation fins. This poses a problem in that the illumination device undergoes corrosion.
In view of the above, the present invention provides an illumination device of which heat radiation and water drainage are improved.
In accordance with an aspect of the present invention, there is provided an illumination device, including: a main body supported by a support member; an upper cover portion for covering an upper portion of the main body; and an LED light emitting part and a power supply unit, both of which are fixed to a lower side of the upper cover portion, wherein the upper cover portion includes a plurality of radiation fins provided on a top portion thereof and a plurality of grooves defined between the adjacent radiation fins, the grooves being inclined downward toward a peripheral edge of the upper cover portion.
The main body is preferably arranged to slant downward toward the support member and the radiation fins extend toward the support member.
The LED light emitting part may be arranged away from the support member.
With the illumination device of the present invention, it is possible to improve water drainage and heat radiation.
The objects and features of the present invention will become apparent from the following description of embodiments, given in conjunction with the accompanying drawings, in which:
An illumination device in accordance with an embodiment of the present invention will be described with reference to the accompanying drawings which form a part hereof.
(First Embodiment)
The illumination device 1 includes a main body 12 attached to and supported by an arm 11 as a support member, an upper cover portion 13 for covering the upper portion of the main body 12, an LED light emitting part 14 and a power supply block 15 as a power supply unit, both of which are provided at a lower side of the upper cover portion 13, a light emitting panel 16 provided at a lower side of the main body 12 to transmit the light coming from the LED light emitting part 14 and a power supply block containing unit 17 protruding downward from the main body 12 to contain the power supply block 15 therein.
As will be described later, the thickness T1 of the section of the illumination device 1 where the LED light emitting part 14 exists is set smaller than the thickness T2 of the section of the illumination device 1 where the power supply block 15 exists (see
A plurality of radiation fins 23 (see
Next, description will be made on the respective components of the illumination device 1. The wire-connecting space 18 and the covering member 19 are provided on the opposite side to the light emitting panel 16 in the main body 12. An arm insertion portion 20 for insertion of the arm 11 is provided at the lower side of the wire-connecting space 18.
The power supply block containing unit 17 and the power supply block 15 contained therein are provided near the arm insertion portion 20. Thus, the power supply block is arranged near the arm 11. Alternatively, the power supply block 15 may be arranged on the opposite side to the arm 11. As shown in
In the present embodiment, the light control function unit 21 is provided on the outer surface of the end portion of the power supply block containing unit 17 which is near the light emitting panel 16. The light control function unit 21 includes a slant surface 21a inclined downward in a direction away from the light emitting panel 16. The light coming from the light emitting panel 16 can be controlled by changing, e.g., the shape of the slant surface 21a or the coating on the slant surface 21a.
In the present embodiment, as can be seen in
Further, as described above by referring to
Turning to
The radiation fins 23 are provided on the entire top surface of the upper cover portion 13. The grooves defined between the adjacent radiation fins 23 are formed to slant downward toward the peripheral edge of the upper cover portion 13. In the present embodiment, the radiation fins 23 extend along the longitudinal direction of the upper cover portion 13 and are arranged in a mutually parallel relationship.
When the arm 11 is inserted into the arm insertion portion 20 as illustrated in
As a result, the grooves 23a defined between the adjacent radiation fins 23 are inclined downward from the side of the LED light emitting part 14 to the side of the arm 11. Therefore, as shown in
Referring to
With the illumination device 1 in accordance with the first embodiment of the present invention, the water drainage and the heat radiation can be enhanced because the grooves 23a between the adjacent radiation fins 23 are inclined downward toward the peripheral edge of the upper cover portion 13.
Since the main body 12 is arranged to slant downward toward the arm 11 and the radiation fins 23 extend toward the arm 11 (namely, in the longitudinal direction of the upper cover portion 13), the water drainage and the heat radiation are further improved.
The heat radiation is further improved because the LED light emitting part 14 is arranged away from the arm 11.
(Second Embodiment)
The light control function unit 21 includes a reflective surface 30a substantially perpendicular to the light emitting panel 16. A coating with high reflectivity is applied on the reflective surface 30a. The reflective surface 30a reflects the light coming from the light emitting panel 16 in the forward direction (namely, in the opposite direction to the arm 11). This makes it possible to direct the light forwards.
(Third Embodiment)
While the invention has been shown and described with respect to the embodiments, it will be understood by those skilled in the art that various changes and modification may be made without departing from the scope of the invention as defined in the following claims.
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