KR200310717Y1 - Heat pipe type cpu cooling - Google Patents

Abstract

The present invention relates to a heat pipe type sipe oil cooling device for cooling a central processing unit of a computer, the main configuration of which has a heat pipe fastening hole (15) in the center and a plurality of radial cooling fan (12) is provided on one surface And the other surface and the cooling plate 10 is provided with a flat surface to facilitate the contact of the sieve oil; Heat pipe having a sealed cavity inside the heat pipe is injected into the heat pipe in a vacuum state to the phase change heat transfer to one side of the heat pipe is inserted into the heat pipe fastening hole 15 of the cooling plate (10) 30); A plurality of heat pipe heat dissipation fins 31 having one side joined to the outer peripheral portion of the heat pipe 30 in a radial direction and the other one joined to one side of the cooling plate 10; Blowing fans configured to be spaced apart at regular intervals by the support bar 20 to face the surface formed by the plurality of cooling fins 12 and the plurality of heat pipe heat dissipation fins 31 of the cooling plate 30 ( By providing a heat pipe type sipe oil cooling device (1) characterized by consisting of 40) has the effect of improving the cooling effect of the sipe oil by the latent heat transfer by the phase change of the heat pipe, and reduces the noise by the radial air flow Have an effect

Description

Heat pipe type cpu cooling device

The present invention relates to the cooling of electronic components, and more particularly, to a heat pipe type liquid cooling system for cooling a central processing unit (hereinafter referred to as 'cipi oil') of a computer.

The computer oil is a device that processes electronic information. For high performance, high integration and high speed processing products with 0.13 micron line width and high speed processing of 2 gigahertz or more are commercially available.

Since the heat generation of the shepherd oil leads to an increase in the temperature of the shepherd oil and eventually causes a malfunction and breakage of the shepherd oil, the heat of generation of the shepherd oil should be appropriately released to the outside to cool the sheath oil. To this end, the sieve oil cooler is attached to the sieve oil and cooled.

The prior art related to the sipe oil cooling device employs a forced convection cooling method in which a heat sink having a plurality of cooling fans is mounted on the sieve oil and cooled by causing an air flow between the cooling fans of the heat sink with a blower fan. In detail, the heat sink is configured by arranging the cooling fins of a plurality of aluminum materials in parallel and spaced apart at regular intervals to increase the heat transfer area.

The cooling action in the sipe oil cooling device of the prior art is that the heat generated from the sipe oil is heat-conducted through the contact portion of the sipe oil to the heat sink mounted on the sipe oil and the heat-conducted heat is transferred to the plurality of cooling fans to the plurality of heat This is achieved by releasing the heated air through the convection heat and air that flows between them.

However, the above-described prior art has the following problems.

The heat of the sipe oil generated through the contact portion between the sipe oil and the heat sink is transferred to the plurality of cooling fans only by heat conduction, which is a heat transfer performance in comparison with the latent heat transfer method having a phase change in the sensible heat transfer method due to the temperature difference. This is because it does not cool the oil efficiently.

In addition, since the plurality of cooling fans are configured in parallel, the flow of air introduced from the blower fan is forced in the parallel direction of the cooling fan, so that noise is generated by collision between the air and the cooling fan due to a sudden change in the air flow direction. There was a growing problem.

Therefore, an object of the present invention is to solve the problems of the prior art as described above, and to provide a heat pipe type sipe oil cooling device to increase the cooling effect of the sipe oil by applying a latent heat transfer type heat pipe.

Another object of the present invention is to provide a heat pipe-type sipe oil cooling device that is configured to cool the flow of the cooling fan in the radial direction to reduce the noise generated by the active flow of air.

1 is a heat pipe type sipe oil cooling device according to the present invention.

Figure 2 is an exploded assembly view of the heat pipe type sipe oil cooling device according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Heat Pipe Type Sipeu Cooler

10: cooling plate

11: bottom plate

12: cooling fan

14: support bar fastening hole

15: heat pipe fastener

20: support bar

30: heat pipe

31: Heat pipe heat sink

40: air blowing

41: air blowing fastener

42: air blowing fastener

The present invention for achieving the above object has a heat pipe fastening hole 15 in the center and provided with a plurality of cooling fans 12 in a radial direction on one side and a flat surface on the other side so as to smoothly contact the oil. A cooling plate 10; A heat pipe having a sealed cavity therein and a heat container in which a heat medium is injected in a vacuum state to perform phase change heat transfer, and one side of which is inserted into a heat pipe fastening hole 15 of the cooling plate 10 and joined to the heat pipe ( 30); A plurality of heat pipe heat dissipation fins 31 having one side joined to the outer peripheral portion of the heat pipe 30 in a radial direction and the other one joined to one side of the cooling plate 10; Blowing fans configured to be spaced apart at regular intervals by the support bar 20 to face the surface formed by the plurality of cooling fins 12 and the plurality of heat pipe heat dissipation fins 31 of the cooling plate 10 ( It provides a heat pipe type sipe oil cooling device (1), characterized in that consisting of 40).

Hereinafter, the configuration of the present invention will be described in more detail with reference to the accompanying drawings. 1 is a perspective view showing a heat pipe type sipe oil cooling device according to the present invention, Figure 2 is an exploded assembly view of the heat pipe type sipe oil cooling device according to the present invention.

1 and 2, the heat pipe-type sipe oil cooling device 1 according to the present invention is roughly formed in the center of the cooling plate 10 and the cooling plate 10 having a substantially rectangular shape in which the lower portion contacts the sieve oil to absorb heat. It is composed of a blow pipe (40) fastened by a heat pipe (30) and a support bar (20) joined to the formed heat pipe fastening hole (15).

The cooling plate 10 has a lower plate 11 having a flat lower structure is formed in the lower portion in order to facilitate contact with the sieve oil in the lower portion as shown in Figure 2 and has a distance by a predetermined center angle in the radial direction on the upper portion of the lower plate 11 A plurality of cooling fans 12 are formed perpendicular to the lower plate 11, and the heat pipe fastening holes 15 are formed to charge-couple the heat pipe to the central portion of the lower plate 11.

The plurality of cooling fans 12 in the cooling plate 10 may be configured by joining the cooling fan 12 prepared by being integrated with the lower plate 11 or prepared separately. As for heat transfer performance, the cooling fan 12 integrated with little contact resistance is more preferable.

The cooling plate 10 and the cooling fan 12 are made of metal having good thermal conductivity, either copper or aluminum, or the lower plate 11 of the cooling plate 10 is made of aluminum, and the cooling fan 12 is made of copper. Alternatively, the lower plate 11 of the cooling plate 10 may be made of copper, and the cooling fan 12 may be composed of a combination of aluminum. However, in the case of the integrated cooling fan 12, it consists of one material of said copper or aluminum.

The outer shape of the heat pipe 30, which is inserted into the heat pipe fastening hole 15 of the cooling plate 10 and joined thereto, has one side of a cylindrical cylinder having a circular cross section so as to be easily inserted into the heat pipe fastening hole 15. In order to increase the heat transfer area on the other side of the other side, the heat pipe heat dissipation fins 31 are spaced apart by a predetermined center angle in the radial direction to facilitate cooling. One side of the heat pipe heat dissipation fin 31 is alternately disposed between the cooling fins 12 formed on the lower plate 11 of the cooling plate 10 and is joined to one surface of the lower plate 11.

One end surface of the heat pipe 30 charged through the heat pipe fastening hole 15 is charged to form the same plane as the lower plate 11 of the cooling plate 10, and one end surface of the heat pipe 30 is The position of the heat pipe fastening hole 15 is determined to be in contact with the sipe oil.

Although not shown in the heat pipe 30, a cavity is formed, and the cavity is evacuated, and then a liquid working medium is injected and sealed under vacuum. The type of the working medium selects a working medium in which a liquid phase and a gas phase can change in the operating temperature range of the heat pipe 30.

The heat pipe 30 is made of a metal material which has excellent thermal conductivity and can maintain the cavity inside in a vacuum state. For example, it is preferable to comprise one of copper, stainless steel, and aluminum.

One side of the support bar 20 is coupled to the support bar fastening hole 14 formed at the rectangular corner portion of the cooling plate 10, and the air blow fastening member 42 is connected to the air blow fastening hole 41 formed at the other side. Blower fan 50 is configured to be used. The blower fan 50 is an apparatus for causing air flow in the heat pipe 30 and the cooling plate 10, and both the axial flow fan and the centrifugal fan can be used, but the axial flow fan is more preferable for miniaturization.

The heat pipe type sipe oil cooling device of the present invention is contact-mounted using a fastening ring (not shown) to the computer sipe oil, and the cooling fan 50 is operated to exert cooling performance.

The flow of air in the heat pipe type sipe oil cooling device of the present invention completed by the above configuration is seen in FIG. 1 by the blower fan (50). After passing through the space formed by the space is formed by the cooling fan 12 of the cooling plate 10 is discharged to the outside. At this time, the air flow flows in the axial direction by the blower fan 50 and flows out radially by the heat pipe heat radiation fan 31 and the cooling fan 12 to induce a smooth flow without a sudden change of the flow path. Noise generation due to rapid flow path change is suppressed.

The cooling principle of the present invention is that one side end surface of the heat pipe 30 is in contact with the computer sipe oil, so that the heat generated from the sipe oil is heat-conducted through one side cross section of the heat pipe 30 and the heat-conducted heat is the heat pipe ( Heat is transferred to the working medium in the interior 30 and simultaneously to the lower plate 11 of the cooling plate 10. The heat transferred to the working medium of the heat pipe 30 heats the working medium from the liquid phase to the gaseous phase, and the gaseous working medium having the latent evaporative heat at this time is rapidly moved from the internal cavity of the heat pipe 30 to the other side. It moves and is heat-conducted by the heat pipe heat dissipation fin 31 provided in the outer circumferential portion of the heat pipe 30 and conducts convective heat transfer with air flowing between the heat pipe heat dissipation fin 31 to cool and discharge the heat to the outside. In addition, the heat transferred to the lower plate 11 of the cooling plate 10 is transferred to the plurality of cooling fans 12 by heat conduction, and the convection heat transfer between the air flowing between the plurality of cooling fans 12 to heat the outside By releasing the cooling through the heat pipe 30 and the cooling through the cooling fan 12 at the same time to further increase the cooling effect of the heat pipe type sipe oil cooling device 1 of the present invention.

The present invention as described in detail above has the effect of improving the cooling oil cooling effect by adding the latent heat method by the phase change by the heat pipe to the heat conduction method by the conventional cooling fan and reduce the noise by the radial air flow. It can be effective.

Claims (1)

Cooling plate 10 having a heat pipe fastening hole 15 in the center and provided with a plurality of cooling fans 12 radially on one surface and a flat lower plate 11 on the other surface to smoothly contact the oil. ; Heat pipe (30) having a cavity inside and the heat medium is injected into the cavity in a vacuum state in which the heat medium is inserted into the heat pipe fastening hole (15) of the cooling plate (10) as a sealed container for phase change heat transfer. Wow; A plurality of heat pipe heat dissipation fins 31 having one side joined to the outer peripheral portion of the heat pipe 30 in a radial direction and the other one joined to one side of the cooling plate 10; Heat pipe type sipe oil, characterized in that composed of a plurality of cooling fins 12 of the cooling plate 10 and a blower fan 40 facing the surface formed by one side of the plurality of heat pipe heat dissipation fins 31. Chiller (1).