TWM492432U - Closely fitted and combined heat dissipation fin and heat conduction pipe - Google Patents

Description

Tightly coupled heat sink fins and heat pipes

This creation is about the combination of a heat sink fin and a heat pipe, especially a heat sink fin and heat pipe that can be tightly coupled.

For the combination of heat sink fins and heat pipes in the heat sink, the welding method is commonly used to achieve the purpose of combining the heat sink fins and the heat pipes, but the welding operation is not environmentally friendly, and the process is troublesome, and thermal resistance is also generated. Therefore, there is a need for improvement.

For example, the invention patent of No. 094142916 (I270339) provides a method for forming a heat pipe and a heat sink fin, which mainly comprises a through hole in the heat dissipation fin, a through hole and a ring protruding wall, and then cooperates with the fixture and the side pressure. The technology, after the heat pipe is inserted into the through hole, the assembly is deformed to achieve the urgent combination effect of the heat pipe and the heat sink fin; however, the aforementioned invention patent is only for the single side of the upper end of the heat pipe, and is made by the side pressure deformation mode. The annular wall of the hole is deformed in combination with the heat pipe, so that regardless of the heat pipe or the annular wall of the through hole, only a single side of the pressing effect can be produced, and in fact, an average and stable tight combination cannot be achieved.

In the above invention patent, since the pressing force is completely deflected and concentrated on a single side of the deformation, it is impossible to accurately control the deformation amount of the through-hole ring wall and the heat pipe, so it is difficult to control the deformation amount of the two to be completely phase. Similarly, if the amount of deformation of the through-hole ring is greater than the deformation of the heat pipe, the ring wall will excessively compress the heat pipe body, which may easily cause damage to the heat pipe, such as the inner wall of the heat pipe. The capillary structure may collapse and detach, and reduce the function of heat transfer; or, if the deformation of the through-hole ring is smaller than the deformation of the heat pipe, the ring wall cannot completely compress the heat pipe body, The gap is created, so the effect of pressing the combination cannot be achieved at all.

The main purpose of the present invention is to provide a heat-dissipating fin and a heat pipe which are tightly coupled, and include a plurality of heat-dissipating fins and a heat pipe, each of the heat-dissipating fins being provided with at least one through hole, the through hole having an extension a convex ring, and the convex ring defines an adjacent arc-shaped hole on the two sides of the symmetry, so that the partial ring wall on both sides of the convex ring is separated from the body of the heat-dissipating fin, and the plurality of heat-dissipating fins are juxtaposed in series, and The heat pipe penetrates through the through hole of the heat dissipation fin, and then deforms the partial ring wall on both sides of the convex ring to deform, so that the heat dissipation fin and the heat pipe system form a tightly coupled side of the heat pipe, so that the local ring of the through hole can be accurately controlled. The deformation of the wall and the heat pipe is completely the same, and the best stable tight fit is obtained, and the pipe body of the heat pipe is not excessively pressed, so that the partial ring wall of the through hole and the heat pipe are completely tightly fitted. Therefore, there is no gap between the partial ring wall and the heat pipe, and the expected effect of the urgent combination is truly implemented.

The second objective of the present invention is to provide a heat-dissipating fin and a heat pipe which are tightly coupled, wherein the partial ring wall and the heat pipe on both sides of the through-hole of the heat-dissipating fin can be combined with each other in a plane matching manner. In order to achieve the tight fit of the average compression on both sides.

Another object of the present invention is to provide a heat-dissipating fin and a heat pipe which are tightly coupled, wherein the partial ring wall and the heat pipe on the two sides of the heat-dissipating fin are symmetrically combined with each other. In order to achieve the tight fit of the average compression on both sides.

1‧‧‧Heat fins

2‧‧‧heat pipe

11‧‧‧through hole

111‧‧‧ convex ring

12‧‧‧Arc hole

111a‧‧‧Local ring wall

2'‧‧‧ flat thin, thin, elliptical heat pipe

The first picture is an exploded perspective view of the creation.

The second figure is a combined perspective view of the creation before stamping.

The third figure is a combined sectional view of the creation before stamping.

The fourth picture is a combined perspective view of the creation after stamping.

The fifth figure is a combined sectional view of the creation after stamping.

The sixth figure is a combined perspective view of the creation of a concave stamping combination.

The seventh picture is a cross-sectional view of the sixth figure.

The eighth figure is a combined sectional view of the creation of a flat thin heat pipe stamping combination.

The ninth figure is a combined sectional view of the creation of a flat thin heat pipe and a concave stamping combination.

The structural features and other functions and purposes of the present invention are described in detail below with reference to the accompanying drawings. As shown in the first to fifth figures, the present invention is a "tightly coupled heat sink fin and heat pipe", which mainly includes a plurality of heat sinks. Fin 1 and a heat pipe 2, wherein: a plurality of fins 1 are juxtaposed in series, and each fin 1 At least one through hole 11 is formed, and the through hole 11 has an extended convex ring 111, and the convex ring 111 defines an adjacent arcuate hole 12 on both sides of the symmetry, so that the partial ring wall 111a on both sides of the convex ring 111 The heat pipe 2 is separated from the through hole 11 of the parallel heat dissipation fin 1; The through hole 11 of the heat dissipation fin 1 (such as the second and third figures) is further deformed by pressing the partial ring wall 111a on both sides of the convex ring (such as the fourth and fifth figures) so that the two sides of the heat dissipation fin 1 are partially The annular wall 111a forms a tight fit with the heat pipe 2 on both sides of the symmetry.

According to the original design, the deformation amount of the partial ring wall 111a and the heat pipe 2 of the through hole 11 is precisely controlled by the symmetrical sides, so that the deformation amount of the partial ring wall 111a and the heat pipe 2 can be accurately controlled to be completely average. The same, the best stable tight fit can be obtained without excessively compressing the tube of the heat pipe 2, and no gap between the partial ring wall 111a and the heat pipe 2 is generated.

As shown in the above embodiment, the punching of the partial ring wall 111a on the symmetrical sides of the through hole 11 and the heat pipe 2 means that the partial ring wall 111a on both sides of the symmetry and the heat pipe 2 form a plane matching punching combination. Achieve the tight fit of the average compression on both sides.

Similarly, the present invention is a tight-fitting combination structure, and is not limited to a tight fit of planar stamping. For example, in another embodiment shown in FIGS. 7 and 7, the partial annular wall 111a and the heat on both sides of the through hole 11 are symmetric. The stamping joint of the duct 2 can also form a mutual partial wall 111a on both sides of the symmetry and the heat pipe 2 to form a mutual The matching concave stamping combination can also achieve the tight fit effect of the average pressing on both sides.

The shape of the conventional heat pipe, in addition to the difference in size, is not limited to a heat pipe having only a circular pipe body, such as a conventional flat thin elliptical heat pipe, and the pipe body is flat and elliptical, similarly The present invention is also applicable to a flat thin heat pipe. As shown in the eighth figure, the partial ring wall 111a created on the symmetrical sides of the through hole convex ring 111 only needs to be matched by the tube body of the flat thin elliptical heat pipe 2'. The flat stamping combination achieves the tight fit of the average press on both sides.

The same means, as shown in the ninth figure, the present invention is combined with the stamping of the flat thin elliptical heat pipe 2', and the partial ring wall 111a on both sides of the symmetry and the flat thin elliptical heat pipe 2' may be mutually formed. The matching concave stamping combines to achieve the tight fit of the average press on both sides.

In summary, the creation of the heat sink fins and heat pipes is closely related to the conventional application, especially the combination of the symmetrical sides and the heat sink fins and the heat pipes. It is more accurate to control the local ring wall of the through hole and the deformation of the heat pipe to be completely average. Therefore, the heat pipe can be fully protected, and the best stable tight combination effect is obtained, so that remarkable progress has been achieved. Please review and grant patents according to law.

1‧‧‧Heat fins

2‧‧‧heat pipe

111‧‧‧ convex ring

12‧‧‧Arc hole

111a‧‧‧Local ring wall

Claims (6)

A heat-dissipating fin and a heat pipe comprising a plurality of heat-dissipating fins and a heat pipe are characterized in that: a plurality of heat-dissipating fins are arranged in series, and each of the heat-dissipating fins is provided with at least one through hole. The through hole has an extended convex ring, and the convex ring defines an adjacent arc hole on the two sides of the symmetry, so that the partial ring wall on both sides of the convex ring is separated from the system of the heat dissipating fin; the heat pipe, a through hole extending through the parallel heat dissipation fins; according to the plurality of heat dissipation fins and the heat pipe, the heat pipe is inserted through the through hole of the heat dissipation fin, and then the partial ring wall on both sides of the convex ring is stamped to be deformed In order to make the partial ring wall on both sides of the heat dissipation fin and the heat pipe form a tight joint on both sides. The heat dissipating fin and the heat pipe are tightly coupled as described in claim 1 , wherein the deformation of the local ring wall and the heat pipe on the two sides of the through hole are on average. The heat-dissipating fin and the heat pipe are tightly coupled according to the first aspect of the patent application, wherein the partial ring wall on both sides of the through-hole symmetry and the heat pipe system form a matching plane punching combination. The heat-dissipating fin and the heat pipe are tightly coupled as described in claim 1 , wherein the partial ring walls on both sides of the through-hole symmetry form a matching concave-face stamping joint with the heat pipe. The heat-dissipating fin and the heat pipe are tightly coupled as described in claim 1 of the patent application, wherein the heat pipe has a circular tube system. The heat-dissipating fins and heat are tightly combined as described in the first paragraph of the patent application. The catheter, wherein the tube system of the heat conduit is flat and elliptical.