Heat exchange – Intermediate fluent heat exchange material receiving and... – Liquid fluent heat exchange material
Reexamination Certificate
2003-10-10
2004-12-07
Mckinnon, Terrell (Department: 3743)
Heat exchange
Intermediate fluent heat exchange material receiving and...
Liquid fluent heat exchange material
C165S104210, C165S104330, C361S700000, C257S715000, C174S015200
Reexamination Certificate
active
06827133
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATION
This application claims priority of Taiwanese Application No. 092208421, filed on May 8, 2003.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a heat pipe, more particularly to a heat pipe that can transfer heat quickly.
2. Description of the Related Art
FIGS. 1
to
4
illustrate a method for producing a conventional heat pipe
1
that is suitable for dissipating heat from electronic components. The method includes the steps of providing a metallic tubular body
11
with an open end portion
111
and a peripheral wall
112
defining an inner chamber
113
, introducing a suitable amount of heat transfer liquid
13
into the tubular body
11
using a filling device
12
, evacuating the inner chamber
113
of the tubular body
11
, pinching the open end portion
111
of the tubular body
11
by means of a machine tool
5
(see
FIG. 2
) so as to close the open end portion
111
and so as to form a flattened sealing portion
114
(see FIG.
2
), cutting a top end section
1141
of the flattened sealing portion
114
by means of a cutting machine
3
(see FIG.
3
), and sealing the heat pipe
1
by a spot welding process. A welding spot, represented by numeral
14
, is shown in FIG.
4
.
However, in actual use, the aforementioned flattened sealing portion
114
of the heat pipe
1
is easily broken due to an external force, thereby resulting in leakage of the heat pipe
1
. Furthermore, the flattened sealing portion
114
increases the length of the heat pipe
1
such that the latter has a relatively large volume. Moreover, since the liquid
13
is first introduced into the tubular body
11
followed by the evacuation process, it is possible that some of the liquid
13
will be drawn out such that the quantity of the liquid
13
in the tubular body
11
and the quality of the heat pipe
1
cannot be accurately controlled. Additionally, the method for producing the conventional heat pipe
1
is somewhat complicated.
Most importantly, heat dissipation of the conventional heat pipe
1
involves stimulating the liquid
13
in the tubular body
11
through the rising temperature of the heat source
2
, such as an integrated circuit, so that the liquid
13
gradually absorbs the heat and vaporizes, as shown by upward arrows in FIG.
4
. The vaporized liquid exchanges heat with the external air through convection and then condenses into liquid, thereby achieving absorption and dissipation of heat from the heat source
2
. However, although a liquid can absorb heat more rapidly than a solid, since the flat bottom of the heat pipe
1
, which has a slow heat absorption rate, overlies the heat source
2
for heat exchange with the heat source
2
and for heat transfer to the liquid
13
, the time required to stimulate the liquid
13
in the tubular body
11
is prolonged so that heat cannot be transferred quickly.
SUMMARY OF THE INVENTION
Therefore, the object of the present invention is to provide a heat pipe that is capable of overcoming the aforementioned drawbacks of the prior art.
According to this invention, a heat pipe comprises a tubular body, a heat transfer fluid, and a heat sink member. The tubular body has opposite bottom and top ends, a peripheral wall between the bottom and top ends, and an inner chamber defined by the bottom and top ends and the peripheral wall. The heat transfer fluid is disposed in the inner chamber. The heat sink member closes the bottom end, and has a bottom face adapted to contact a heat source. The heat sink member further has a top face directed toward the inner chamber. The top face is indented downwardly to define a fluid accumulating portion. The heat transfer fluid in the fluid accumulating portion absorbs heat from the heat source and vaporizes to carry heat away from the heat source.
REFERENCES:
patent: 3613773 (1971-10-01), Hall et al.
patent: 5582242 (1996-12-01), Hamburgen et al.
patent: 5632158 (1997-05-01), Tajima
patent: 6725909 (2004-04-01), Luo
patent: 2003/0066628 (2003-04-01), Mochizuki et al.
patent: 60-42593 (1985-03-01), None
Mckinnon Terrell
Trop Pruner & Hu P.C.
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