Heat-conductive structure
An improved heat-conductive structure includes a heat-conductive plate. The heat-conductive plate has a base plate, two support members extending upwards respectively from bilateral sides of the base plate for a predetermined breadth and height, a channel formed between the base plate and the two support members, two wing portions horizontally extending outwards respectively from the two support members, and a recession formed at a midsection of a bottom side of the base plate. The base plate is relatively thin and of low thermal resistance at the midsection thereof corresponding to the recession to attain effective and rapid heat conduction.
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1. Field of the Invention
The present invention relates generally to heat-dissipative technology, and more particularly, to a heat-conductive structure.
2. Description of the Related Art
A conventional heat-conductive plate is made of metal and includes a plurality of fins mounted thereon for enlarging the heat-dissipative area to attain preferable heat-dissipative effect.
Referring to
There are two conventional solutions, as depicted below, to improve the drawbacks of the aforementioned conventional structure by mounting the heat pipes closely on the heat-conductive plate and under the fins.
1. The heat pipes are closely mounted on a top side of the heat-conductive plate and inserted through bottom sides of the fins.
2. The heat-conductive plate further includes a channel for receiving the heat pipes; meanwhile, thickness of the heat-conductive plate has to be increased, and the heat pipes have to be received in the channel with their cross-sections being oblate. However, the part corresponding to the inner bottom periphery of such heat-conductive plate cannot be too thin, and otherwise, the bottom side of the heat-conductive plate will be deformed to be uneven. However, if that part of the plate is too thick, the heat-conductive plate will have ineffective heat conduction.
SUMMARY OF THE INVENTIONThe primary objective of the present invention is to provide an improved heat-conductive structure in which a heat-conductive plate is preferably strengthened and is preferably thin to attain preferable heat-conductive effect.
The secondary objective of the present invention is to provide an improved heat-conductive structure that has better heat-dissipative effect than prior art.
The foregoing objectives of the present invention are attained by the improved heat-conductive structure that includes a heat-conductive plate. The heat-conductive plate has a base plate, two support members extending upwards respectively from bilateral sides of the base plate for a predetermined breadth and height, a channel formed between the base plate and the two support members, two wing portions horizontally extending outwards respectively from the two support members, and a recession formed at a midsection of a bottom side of the base plate. The base plate is relatively thin and of low thermal resistance at the midsection thereof corresponding to the recession to cause effective and rapid heat conduction.
BRIEF DESCRIPTION OF THE DRAWINGS
Referring to
The heat-conductive plate 11 is composed of a base plate 12, two support members 14, a channel 16, two wing portions 18, and a recession 19. The two support members 14 respectively extend upwards from bilateral sides of the base plate 12 for a predetermined breadth and height. The channel 16 is formed between the base plate 12 and the two support members 14. The two wing portions 18 horizontally extend outwards respectively from the two support members 14 and each are positioned higher than the base plate 12. The recession 19 is formed at a midsection of a bottom side of the base plate 12 for contacting heating elements (not shown).
Hence, the recession 19 enables the midsection of the base plate 12 to be relatively thin, such that the base plate 12 has preferably low thermal resistance to cause effective and rapid heat conduction.
Further, the bilateral sides of the base plate 12 in proximity of the recession 19, i.e. the thicker sections than the midsection of the base plate 12, together with the two wing portions 18 positioned at another bilateral sides of the recession 19 form a frame-like structure around the recession 19 to further support the midsection of the base plate 12, such that the midsection of the base plate 12 can be preferably thin to cause no deformation itself, even in the thickness of less than 1 mm, to have lower thermal resistance to further cause preferable heat-conductive effect.
Moreover, the two support members 14 can transmit the heat from the base plate 12 to the two wing portions 18 to be helpful to the heat-dissipation.
Referring to
The three heat pipes 31 are disposed in the channel 16 of the heat-conductive plate 11 and mounted closely on a top side of the base plate 12.
The fins 33 are mounted upright on the heat-conductive structure 10 and the heat pipes 31 and over the channel 16 and fixedly mounted on surfaces of the heat pipes 31 and top sides of the wing portions 18 at bottom sides thereof.
When the heat-conductive structure 30 is in use, the heat-conductive structure 10 is relatively thin at the midsection of the base plate 12 corresponding to the recession (not shown) to have preferably low thermal resistance to further rapidly transmit the heat generated by the heating elements (not shown) from the bottom side up to the top side of the base plate 12 and then to rapidly transmit the heat through the heat pipes 31 to the fins 33, thereby causing better heat-dissipative effect than the prior art.
Referring to
Referring to
In conclusion, the relatively thick parts of the base plate 12, around the recession 19, together with the wing portions 18 form the frame-like support structure to allow the midsection of the base plate 12, above the recession 19, to be thin without deformation, thereby reducing the thermal resistance and incurring preferably effective heat conduction.
Claims
1. A heat-conductive structure comprising a heat-conductive plate, said heat-conductive plate having a base plate, two support members respectively extending upwards from bilateral sides of said base plate for a predetermined breadth and height, a channel formed between said base plate and said two support members, two wing portions extending parallel outwards respectively from said two support members, and a recession formed at a midsection of a bottom side of said base plate; wherein, the midsection of the bottom side of said base plate is relatively thin to have a relatively low thermal resistance, thereby causing rapid heat conduction.
2. The heat-conductive structure as defined in claim 1, wherein said wing portions are positioned higher than said base plate.
3. A heat-dissipative structure having the heat-conductive structure as defined in claim 1, said heat-dissipative structure comprising:
- a heat-conductive plate having a base plate, two support members extending upwards respectively from bilateral sides of said base plate for a predetermined breadth and height, a channel formed between said base plate and said two support members, two wing portions extending parallel outwards respectively from said two support members, and a recession formed at a midsection of a bottom side of said base plate;
- at least one heat pipe disposed in said channel; and
- a plurality of fins mounted upright on said heat-conductive plate and said at least one heat pipe, positioned over said channel at bottom sides thereof, and connected to a surface of said heat pipe and top sides of said wing portions.
4. The heat-dissipative structure as defined in claim 3, wherein said heat pipe has at least one end extending outwards and upwards and through said fins.
5. The heat-dissipative structure as defined in claim 3 further comprising a top plate mounted on said fins; said heat pipe has at least one end extending outwards and upwards and through said fins.
Type: Application
Filed: Nov 21, 2003
Publication Date: Apr 7, 2005
Applicant: TAI-SOL ELECTRONICS CO., LTD. (TAIPEI HSIEN)
Inventor: Yaw-Huey Lai (Taipei Hsien)
Application Number: 10/717,588