Heat Dissipating Device and Method of Fabricating the same
Abstract
A heat dissipating device includes thermal conductive pipes and a plurality of thermal fin modules. Each thermal fin module made by pressing and stacking is mounted on the thermal conductive pipes. A retainer is located between each two thermal fin modules to compress the thermal fin module, so that a distance between two fins of the thermal fin module is reduced. Finally, a fixing plate is set above the last thermal fin module on the thermal conductive pipes to fix the thermal fin modules securely engaged with the thermal conductive pipes. Therefore, the assembled heat dissipating module could not be loosed and deformed during delivery and the engaging contact between the fins and the thermal conductive pipes are enhanced, so to increase the heat dissipating effect of the heat dissipating module.
Claims
exact text as granted — not AI-modified1 . A method of fabricating a heat dissipating device, comprising:
mounting a first thermal fin module made by pressing and stacking a plurality of fins on thermal conductive pipes; setting a retainer on a top surface of the first thermal fin module, and compressing the first thermal fin module, so as to reduce a distance between two fins of the first thermal fin module; mounting a second thermal fin module made by pressing and stacking a plurality of fins on thermal conductive pipes to locate above the first thermal fin module; mounting a fixing plate above the second thermal fin module on the thermal conductive pipes; and securing the fixing plate on the second thermal fin module, so as to securely fix the first and the second thermal fin modules with the thermal conductive pipes.
2 . The method as claimed in claim 1 , wherein a plurality of through hole are formed on the fins corresponding to locations of the thermal conductive pipes, respectively, an annular wall with tapered shape is formed on each through hole by a drawing process, and a pressing portion extending from a narrow top of the taper portion.
3 . The method as claimed in claim 2 , wherein the pressing portion of a lower fin is embedded into a gap between the thermal conductive pipe and the taper portion of an upper fin during compressing the thermal fin module, so as to reduce the distance between two fins of the thermal fin module.
4 . The method as claimed in claim 1 , wherein a layer of thermal conductive material for lubricating is pasted on the surface of the thermal conductive pipe before assembling the thermal conductive pipe with the fins.
5 . The method as claimed in claim 1 , wherein a layer of adhesive material is pasted on the sidewall of a hole formed on the fixing plate or the retainer before the fixing plate or the retainer is set on the thermal conductive pipes, so as to increase the adhesion between the thermal conductive pipe and the fixing plate or the retainer.Join the waitlist — get patent alerts
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