1. Field of the Invention
The present disclosure relates to LED (light emitting diode) lamps, and more particularly to an LED lamp incorporating heat pipes for improving heat dissipation of the LED lamp.
2. Description of Related Art
Conventionally, an LED lamp comprises a heat sink and a plurality of LEDs mounted on a bottom surface of the heat sink. The LEDs are arranged in a plurality of lines along a length of the heat sink. When the LEDs are activated to lighten, heat generated by the LEDs is dispersed to ambient air by natural air convection via the heat sink.
However, in order to achieve a compact design and facilitate a convenient transportation and handling of the LED lamp, the LED lamp is manufactured to have a small size. The LEDs thus have to be assembled on a small area. Accordingly, heat generated by the LEDs is locally accumulated on the small area, whereby the heat cannot be effectively dissipated to the ambient air, which leads the LEDs to overheat. As a result, the LEDs will operate unstably or even fail.
What is needed, therefore, is an LED lamp having good heat dissipation efficiency.
Many aspects of the present embodiments can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present embodiments. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
Referring to
The heat sink 10 is made of a metal with a high heat conductivity, such as copper or aluminum. The heat sink 10 comprises a substantially rectangular base 12 and a plurality of fins 14 extending from the base 12. The fins 14 are perpendicular to the base 12 and parallel to each other along a width of the base 12. The fins 14 comprise a plurality of first fins 142 extending downwardly from a bottom surface of the base 12 and a plurality of second fins 144 extending upwardly from a top surface of the base 12. The second fins 144 are divided by a wide channel (not labeled) into two parts respectively located at two lateral sides of the base 12. Eight receiving grooves 16 are defined in the top surface of the base 12. The receiving grooves 16 are parallel to each other along the width of the base 12.
Also referring to
The LED module 30 is thermally mounted on a top surface of the top plate 24 of the fixing bracket 20. The LED module 30 comprises an elongated printed circuit board 32 and a plurality of LEDs 34 mounted on the printed circuit board 32 and arranged along a length of the printed circuit board 32. The LEDs 34 on the printed circuit board 32 are arranged into two lines. The LED modules 30 are so arranged that each LED module 30 is inclinedly oriented toward the middle line of the top surface of the base 12 amid the two lateral sides thereof.
The first heat pipe 40 has a U-shaped configuration and comprises a pair of parallel, spaced first heat-conducting portions 42 and a first connecting portion 44 interconnecting the two first heat-conducting portions 42. One of the first heat-conducting portions 42 is received in one first engaging groove 220 of the bottom plate 22, and another one of the first heat-conducting portions 42 is received in one second engaging groove 240 of the top plate 24. The first heat pipe 40 is located adjacent to a large one of the opposite lateral sides of the connecting plate 26 of the fixing bracket 20. The first connecting portion 44 of the first heat pipe 40 is located adjacent to an end of the fixing bracket 20. The two first heat-conducting portions 42 of the heat pipes 40 have lengths equal to each other.
The second heat pipe 50 is located opposite to the first heat pipe 40 and adjacent to a small one of the opposite lateral sides of the connecting plate 26 of the fixing bracket 20. The second heat pipe 50 has a U-shaped configuration and comprises a pair of parallel, spaced second heat-conducting potions 52 and a second connecting portion 54 interconnecting the two second heat-conducting portions 52. Similar to the two first heat-conducting portions 42 of the first heat pipe 40, one of the second heat-conducting portions 52 is received in another first engaging groove 220 of the bottom plate 22, and another one of the second heat-conducting portions 52 is received in another second engaging groove 240 of the top plate 24. A length of the second connecting portion 54 is less than that of the first connecting portion 44. The second connecting portion 54 is located adjacent another end of the fixing bracket 20 opposite to the first connecting portion 44. A distance between the two heat-conducting portions 52 of each second heat pipe 50 is less than that between the two heat-conducting portions 42 of each first heat pipe 40.
Also referring to
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments of the invention.
Number | Date | Country | Kind |
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200810068334.7 | Jul 2008 | CN | national |