TWM465560U - Wave-shaped heat sink fin and its heat sink - Google Patents

Abstract

The invention relates to a waved radiating fin and a radiator comprising the same. The waved radiating fin forms a waved surface with a large area by stamping, an inserting portion is arranged at the bottom end of the waved radiating fin and used for inserting a base in a matched manner, so that the radiator with the waved radiating fin is composed, the base can selectively comprise a single block or two slices, the base and a plurality of waved radiating fins are closely inserted in a matched manner, and the overall radiating efficiency is improved by increasing the radiating area through the waved radiating fins.

Description

Wave-shaped heat sink fin and its heat sink

The present invention relates to a heat sink fin and a heat sink thereof, and more particularly to an improved design having a wave-shaped heat sink fin and a heat sink thereof, which is formed by using a heat sink fin to form a large-area wavy surface for adding The overall heat dissipation area to improve the heat dissipation efficiency of the heat sink.

The conventional heat sink usually comprises a plurality of heat sink fins and a base, or a plurality of heat pipes are embedded in the base; the heat sink fins of the conventional heat sink have a flat shape, when the base or After the heat pipe absorbs heat, the heat sink fins are used for heat dissipation. Therefore, the number of heat sink fins and the area of the plate directly affect the overall heat dissipation efficiency. The number of heat sink fins is more and more dense, and the heat dissipation effect is of course better. .

For example, in the US Patent No. 5014776 or No. 6,752,262, the conventional heat sink has been stamped and bonded with a high-density heat-dissipating fin, so that on the same base, such as the number of heat-dissipating fins, The heat dissipation effect is of course better. However, since the heat sink fins are simple and flat, the area of the heat sink fins of the same size remains the same, so it is impossible to reproduce and increase the total. Cooling area.

The main purpose of this creation is to provide a wavy shape The heat fin design rapidly forms a wavy surface having a large area by punching, and has a planting portion at the bottom end for matching implanting and bonding to the base through the wavy fins. The increased heat dissipation area is used to improve the heat dissipation efficiency of the heat dissipation fins.

The second objective of the present invention is to provide a wave-shaped heat sink fin design in which the wavy surface of the heat sink fin has a wavy stripe distributed perpendicularly to the planting portion at the bottom end.

Another object of the present invention is to provide a wave-shaped heat sink fin design, wherein the wavy surface of the heat sink fin is between the wavy surface and the planting portion at the bottom end of the heat sink fin, forming a The surface of the transition zone that is locally deformed.

A further object of the present invention is to provide a wave-shaped heat sink fin design, wherein the heat sink fins can have one or more recesses in the center of the planting portion, and are cut and formed on both sides. a low-order groove, and a vertical flap between each of the groove and the lower-stage groove, so that the groove can be adapted to form a relatively matched flat fit of the heat pipe, and the lower-order grooves on both sides are respectively suitable for two strips The block-shaped base forms a tightly coupled implant, and each of the vertical flaps can be arranged in close proximity to form a continuous plane.

Another object of the present invention is to provide a heat sink component design having a wave-shaped heat sink fin, which comprises a plurality of heat sink fins and a base, and the planting part at the bottom end of each heat sink fin is matched and inserted into the base, so Increase the total heat dissipation area of the heat sink fins to improve the heat dissipation efficiency of the heat sink as a whole.

Another purpose of this creation is to provide a wave The heat sink is composed of a heat sink fin, wherein the base is optionally formed as a single block or by two strips, and the single block or two strips are arranged on the base. There are a plurality of grooves relative to the heat dissipating fins, so that the single block or two strip-shaped bases can form a tight fit with a plurality of wave-shaped heat radiating fins.

Another object of the present invention is to provide a heat sink component design having wavy fins, wherein the plurality of fins can open more than one corresponding perforation on the wavy surface, and The heat pipe can be embedded with a combined groove so that the heat pipe can be bent upward and penetrate the perforations bonded to the undulating surface to form a firm tight fit.

1, 1a, 1b, 1c‧‧‧ wave-shaped fins

11, 11a, 11b, 11c‧‧‧ implanting department

12, 12a, 12b, 12c‧‧‧ wavy surface

2, 2a, 2b‧‧‧ single block base

2'‧‧‧Block base

13, 13a, 13b, 13c‧‧‧ transition zone surface

21, 21’, 21a‧‧‧ trench

3‧‧‧heat pipe

121a, 121b, 121c‧‧‧ perforation

22a, 22b, 111c‧‧‧ slotted

112c‧‧‧low-order slot

113c‧‧‧Vertical Folds

The first figure is a perspective view of the wavy fins.

The second picture is a top view of the first figure.

The third figure is a partially exploded perspective view of the first embodiment of the creation heat sink.

The fourth figure is a schematic diagram of the combination of the first embodiment of the creation heat sink.

The fifth figure is an embodiment of an embodiment in which a perforation is created in a wave-shaped heat dissipation fin.

The sixth figure is a combined perspective view of the second embodiment of the creation heat sink.

The seventh figure is a top view of the sixth figure.

The eighth figure is another embodiment of the wavy fins.

The ninth drawing is a combined perspective view of the third embodiment of the creation heat sink.

The tenth figure is a top view of the ninth figure.

The eleventh figure is an exploded perspective view of the fourth embodiment of the creation heat sink.

Fig. 12 is a combined perspective view of the fourth embodiment of the creation heat sink.

The structural features and other functions and purposes of the present invention are described in detail in the following embodiments: as shown in the first and second figures, the wave-shaped heat sink fin 1 of the present invention is designed, and the heat sink fin 1 is in the shape of a plate. And the bottom end has a planting portion 11 which is quickly formed by punching to form a wavy surface 12 having a large area for matching implanting into a single block base 2 (as shown in the third figure), or can also be matched The planting is combined with two strip-shaped bases 2' (such as the eleventh figure), and the total heat dissipation area added by the wavy surface 12 is utilized to improve the overall heat dissipation efficiency of the heat dissipation fins or the heat sink.

The wavy fins 1 described above, the wavy strips of the wavy surface 12 are vertically distributed with the planting portion 11 at the bottom end, and between the undulating surface 12 and the planting portion 11 at the bottom end of the fins 1 And forming a partially deformed transition zone surface 13 during the stamping process. The wavy stripes of the wavy surface 12 are also vertically distributed with the joint surface of the base 2, so that the wavy surface 12 of the vertical wavy stripes can be utilized to form a heat sink having a better structural strength.

The above-mentioned planting portion 11 is not limited to the embodiment, and is suitable for inserting and fitting the corresponding groove 21 of the base 2 (or 2'), for example, the planting shown in the first figure. The portion 11 is in the shape of a reversely folded flat, or it can be understood that the implanting portion 11 can also be implemented in various configurations such as a relatively tight fit or a press fit, and the like. The end of the portion may also be an L-shaped bent shape.

As shown in the third and fourth figures, the wavy fins are created. 1 is applied to a first embodiment of a heat sink comprising a plurality of wave fins 1 and a single block base 2, and the implanting portions 11 at the bottom ends of the wave fins 1 are matched and inserted. The groove 21 of the base 2 is fitted and positioned so that each of the heat dissipation fins 1 can be firmly coupled to the joint surface of the base 2, and since each of the heat dissipation fins 1 has a wavy surface 12, the same size specifications are adopted. In terms of the heat dissipation fins, the total heat dissipation area of the heat dissipation fins can be effectively increased, so that the heat dissipation efficiency of the entire heat sink can be improved.

As shown in the fifth to seventh embodiments, the wavy fins are applied to the second embodiment of the heat sink. The wavy fins 1a also have a bottom implanting portion 11a and are vertically distributed. The wavy surface 12a and the transition surface 13a, and the heat sink includes a plurality of undulating fins 1a, a monolithic base 2a and one or more heat pipes 3, wherein the wavy fins 1a are attached to the waves The shape 12a defines one or more corresponding through holes 121a, and the base 2a has a plurality of grooves 21a which are oppositely matched with the wave-shaped heat radiating fins 1a, and one or more holes are provided on the bottom surface of the base 2a for the heat pipes 3 to be embedded. The combined recess 22a allows the heat pipe 3 to be bent upwardly through the perforations 121a bonded to the undulating surface 12a to form a stable tight fit.

The first embodiment and the second embodiment described above are both the type of heat sink specifically applicable to a computer CPU, and the latter is an addition of a heat pipe 3 component.

The third embodiment shown in the eighth to tenth embodiments is composed of a heat sink type of a computer display card, wherein the wave-shaped heat radiating fin 1b has a wide flat shape and also has a bottom. End implanting portion 11b, vertically distributed undulating surface 12b and transition surface 13b, and including a portion The deformed transition surface 13b and a corresponding through hole 121b are respectively formed on both sides of the undulating surface 12b, and each of the wavy fins 1b is matched with the groove 21b inserted into the base 2b, and the two heat pipes 3 are respectively embedded. In combination with the recess 22b of the base 2b, the heat pipe 3 can be bent upwardly and through the perforations 121b bonded to the undulating surface 12b to form a firm tight fit.

The fourth embodiment shown in FIG. 11 and FIG. 12 is another form of heat sink formed by the wave-shaped heat dissipation fin 1c of the present invention, which is composed of two strip-shaped bases 2'. The heat sink includes a plurality of wave fins 1c, two strip bases 2' and one or more heat pipes 3, but the heat pipes 3 may also be omitted, wherein the wave fins 1c are attached to the planting portion. One or more slots 111c are formed in the center of the 11c, and the two sides are respectively cut and formed into a low-order groove 112c, and a vertical flap 113c is disposed between the groove 111c and the lower-stage groove 112c to make the groove 111c. The heat pipe 3 can be adapted to form a relatively matched flat fit (as shown in the twelfth figure), and the lower-order grooves 112c on both sides are respectively adapted to the two strip-shaped bases 2' provided with the grooves 21', and The implanting portions 11c of the heat dissipating fins 1c form a mating combination with each other, and the vertical flaps 113c are arranged next to each other to form a continuous plane. The above-mentioned wave-shaped heat radiating fin 1c also has a bottom end implanting portion 11c, a vertically distributed wave-shaped surface 12c, a transition surface 13c and a corresponding through hole 121c.

The heat pipe 3 described above is bent upward and penetrates through the perforations 121c of the undulating surface 12c to form a tight fit.

When the undulating fins 1c have a plurality of cavities 111c, the cavities 111c may be in a continuous or separated abutting configuration. As shown in the eleventh embodiment, the two cavities 111c are Connected to each other, Therefore, the two heat pipes 3 embedded in the same can form a gap-free plane together (as shown in FIG. 12). Conversely, if the two grooves 111c are separated and adjacent, the two heat pipes 3 form a gap. flat.

The two strip-shaped bases 2', the heat pipes 3 and the contiguous planes formed by the vertical flaps 113c can all be at the same horizontal position to form a coplanar plane.

The above embodiments are merely illustrative of the main techniques of the present invention or their application examples, and are not intended to limit the technical scope of the present invention, and other simple changes or permutations related to the equivalent application or based on the main technical features of the present invention. They should still be considered as belonging to the technical scope of this case.

In summary, the creation is designed with wavy fins and heat sinks, especially for the large-area wavy surface formed by the fins, which is unprecedented in construction and can effectively increase the fins. The total heat dissipation area of the film or heat sink, so the heat dissipation efficiency is better, has been in line with the novelty and progressive requirements, to apply for this, and pray for patents according to law, the real sense of virtue.

1‧‧‧ Wave-shaped fins

11‧‧‧Planting Department

12‧‧‧ wavy surface

13‧‧‧ transition zone surface

2‧‧‧Base

21‧‧‧ trench

Claims (10)

A wave-shaped heat dissipation fin is a shape of a plate, characterized in that the bottom end of the heat dissipation fin has a planting portion and is formed by punching to form a wavy surface having a large area, and the wavy surface of the wave surface The system is vertically distributed with the planting part. The wave-shaped heat sink fin according to claim 1, wherein the wavy surface and the planting portion form a partially deformed transition surface during the stamping process. The wave-shaped heat sink fin according to claim 1, wherein the planting portion has a shape that is folded back and flat. The wave-shaped heat sink fin according to claim 1, wherein the center of the planting portion is provided with one or more recessed grooves, and the two sides are respectively cut and formed into a low-order groove, and the groove is A vertical flap is disposed between each of the lower step grooves. A heat sink composed of a wave-shaped heat sink fin comprises a plurality of wave-shaped heat sink fins and a single block-shaped base, characterized by: a wave-shaped heat sink fin having a planting portion at the bottom end and punching Forming a wavy surface having a large area, and the wavy stripes of the wavy surface are vertically distributed with the planting portion; the single-piece base is provided with a groove matching the insertion of the wave-shaped heat dissipation fins for Each of the wavy fins is tightly fitted and bonded to the joint surface of the base. The heat sink composed of a wave-shaped heat sink fin includes a plurality of wave fins, a single block base and more than one heat pipe The utility model is characterized in that: the wavy fins have a planting portion at the bottom end, and a wavy surface having a large area is formed by punching, and the wavy strips of the wavy surface are vertically distributed with the planting portion. One or more corresponding perforations are formed in the wavy surface; the single-piece base is provided with a groove matching the insertion of the wave-shaped heat dissipation fins, so that the wave-shaped heat dissipation fins are tightly fitted and integrated with the base. The joint surface and the bottom surface of the base are provided with more than one recessed groove; the heat pipe is embedded with the groove of the base and bent upward to penetrate the perforation coupled to the wavy surface to form a tight fit. The heat sink composed of a wave-shaped heat sink fin comprises a plurality of wave-shaped heat sink fins, two strip-shaped bases and one or more heat pipes, characterized in that: wave-shaped heat sink fins have a plug at the bottom end The planting portion is formed by punching to form a wavy surface having a large area, and the wavy stripe of the wavy surface is vertically distributed with the planting portion, and one or more slots are formed in the center of the planting portion, both sides are And respectively cutting and forming a low-order groove; two strip-shaped bases are provided with grooves which can be matched and inserted into the wave-shaped heat-dissipating fins, and two strip-shaped bases are respectively embedded in the wave-shaped heat-dissipating fins The lower low-order groove; the heat pipe is a matching groove that is fitted to the wave-shaped heat sink fin. The heat sink of the wave-shaped heat sink fin according to claim 7, wherein the wave-shaped heat sink fins are provided with more than one corresponding through hole on the wavy surface, and the heat pipe is bent upward and penetrates the wave. The perforations of the face are formed to form a tight fit. The heat sink of the wavy fins of claim 7, wherein the wavy fins are respectively provided with a vertical flap between the slot and the lower step slot, and are arranged adjacent to each other to form a continuation. flat. The radiant heat sink fin assembly of claim 7, wherein the wavy fins are connected or separated in a plurality of recesses in the center of the planting portion.