DE102005059819A1 - Heat dissipating system for personal computer, has blower placed at outlet of computer, and heat pipe with bar, which extends to outlet, where temperature of current supply is reduced by blowing bar with blower - Google Patents

Abstract

The system has a blower (16) placed at an outlet (18) of a computer (1), and a current supply (2) provided with a heat pipe (3). The heat pipe has a bar, which extends to the outlet. The temperature of the current supply is reduced by blowing the bar with the blower. The air flow of the blower is concentrated to the bar by covering the duct at the outlet of the computer. The heat flow from the computer is dissipated to the outer side of the computer. Independent claims are also included for the following: (1) a current supply of a computer, comprising a heat pipe (2) a method for dissipating the heat flow.

Description

The The present invention relates to a power supply of a Computer with a heat dissipating Device, and more particularly to a fanless power supply of a Computer with a heat dissipating Contraption.

The Power is used and integrated into most of the electrical appliances, or in the model of the integrated plug of the transformation rectifier housed, e.g. the power supply for the desk light.

however could not use the integrated power supply in the computer become. The situations of power supply are varied, because There are many types of devices which occur in the computer, e.g. the central processing unit, Main board, floppy disk, compact diskette, hard disk, graphics card and audio card. The many-sided situations of the power supply could not cope be through the simple integrated power supply and thus An integrated power supply is developed which reduces the current delivers in many ways.

The produced by the rectification and transformation functions Heat the Power supply is very large. The electrical appliances in the power supply would damaged be when the heat continues to accumulate. A heat dissipating System of a computer is designed to avoid the above Situation. At the moment, the most popular device that is in the wärmedissipatierenden System of the computer is used, a fan, and one occurring in the power supply name is Air quantity is thus sucked directly.

In living in such a modern life, people continue to pursue a high quality of life, so that by the blower caused noise through the people will not stand. To master the noise theme an airflow source should be improved externally of the blower. however could the noise theme not completely overcome by this improvement. Thus, a fanless Power to the public presented for mastering the noise theme. The feature of the fanless Power supply is that through the power supply produced heat to an outside the power supply over a heat pipe (or called a heatduct) is routed instead a blower, and that the noise theme, that by the blower was caused, mastered becomes.

There the blower in the power supply is no longer used, the heat is only through the natural Convection dissipates, which is produced by using the Heatpipe to warm up the air around the heatpipe when the heat too the outside the power supply was routed. Therefore, the dissipation efficiency becomes the fanless Power supply improved. By the way, it is in this case just doing a superfluous action, continue a fan to add to the power supply.

consequently will be a blow-out Power needed which improves the dissipation efficiency without the blower.

Of the The main aspect of the present invention is a heat dissipating System of a computer, with which of a power supply produced heat is efficiently dissipated.

In accordance with a first aspect of the present invention, contains the heat dissipating System of the computer a fan arranged at an outlet of the computer, and a power supply with a heat pipe with a web, wherein the web is extended to the outlet via the heatpipe, and a temperature of the power supply is reduced is by blowing the bridge with the blower.

Preferably includes the heat dissipating System of a computer further a shaft adjacent to the outlet the computer for concentrating an air flow of the blower to the web.

Preferably becomes a heat flow the computer to an outside of the computer by the blower dissipatiert.

Preferably the heatpipe gets out of the way extends from the computer.

Preferably becomes a heat flow the power supply received through the heat pipe and to an outside directed the power supply.

In accordance with a second aspect of the present invention is a fanless power supply a computer provided with a heat dissipating device and a housing. The intended blowerless Powering a computer with a heat-dissipating device and a housing contains one Power main body, a heat pipe having a first end abutting the power supply main body and one out of the way from the power main body extending second end, and a bridge connected to the heatpipe.

Preferably includes the heat dissipating Device a systematic blower.

Preferably becomes a heat flow the computer to an outside of the computer through the heat-dissipating Device dissipated.

Preferably becomes a heat flow of the power supply main body received by the first end and then to an outside of the power supply main body directed via the second end.

Preferably the bridge is connected to the heat dissipating Device of the computer for reducing a temperature of the power supply main body via the heat dissipating device of the computer.

Preferably is the power main body in the case of the computer.

Preferably includes the fanless power supply a computer further set one to an environment of the bridge Schacht.

Preferably becomes the bridge with the heat dissipating Device of the computer connected via the shaft.

Preferably becomes a suctioned air stream of the heat dissipating device to the dock, concentrated through the shaft.

• (1) Vorsehen einer Heatpipe erstreckt von einem Inneren der gebläselosen Stromversorgung zu einem Äußeren des Computers,
• (2) Ansetzen eines Steges an die Heatpipe,
• (3) Anbauen des Steges an einen spezifischen Ort, so dass er gekühlt wird durch die systematische wärmedissipatierende Vorrichtung des Computers, und
• (4) Einschalten der systematischen wärmedissipatierenden Vorrichtung.

In accordance with a third aspect of the present invention, a method is provided for dissipating heat flow from a bladeless power supply to a systematic heat dissipating device of a computer. The proposed method of dissipating a heat flux from a bladeless power supply attached to a systematic heat dissipating device of a computer includes steps of:

• (1) Providing a heat pipe extending from an interior of the fanless power supply to an exterior of the computer
• (2) applying a web to the heat pipe,
• (3) mounting the web to a specific location so that it is cooled by the system's systematic heat dissipating device, and
• (4) Turn on the systematic heat dissipating device.

Preferably becomes a heat flow the fanless Power received through the heat pipe and to an outside the fanless Power supplied.

Preferably the jetty is cultivated at a specific location via a manhole.

Preferably becomes a suctioned air stream of the systematic heat dissipating device to the dock, concentrated through the shaft.

The The above contents and advantages of the present invention will become Professionals can see more quickly after working through the following detailed descriptions and accompanying drawings, in which:

1 Fig. 12 is a perspective view of a non-bladed power supply of a computer in the present invention;

2 Fig. 11 is a rear view of a fanless power supply of the computer in the present invention;

3 an enlarged view of the in 2 shown heat pipe is;

4 a perspective view of a systematic blower and a shaft of the present invention;

5 Fig. 12 is a perspective view of a deflection flow tube of the computer in the present invention; and

6 Figure 4 is a perspective view of another deflection flow tube of the computer in the present invention.

The The present invention will now be more specifically described with reference to the following embodiments described. It is noted that the following descriptions of preferred embodiments this invention only for Purposes of illustration and description are presented; it is not intended, exhausting to be or be confined to the concrete form disclosed.

1 FIG. 12 is a perspective view of a non-bladed power supply of a computer in the present invention. FIG. The computer 1 contains a diskette cartridge field 12 , a motherboard 14 and a power supply 2 are arranged in it. Heat from the power supply 2 produced is sucked by a systematic blower 16 that at an outlet 18 of the central unit housing 10 is placed.

The main feature of the present invention is related to the application of Stromver supply 2 , The power supply 2 is a fanless power supply, the heat produced by it is not the outside of the power supply 2 aspirated by a forced convection method which uses a blower to set the air in motion. Instead, the heat becomes the outside of the power supply 2 through a heat pipe 3 passed, and a housing 20 is connected to the power supply 2 set to protect the electronic components in there (not shown). The heat pipe 3 is divided into a first section 30 and a second section 32 , The first paragraph 30 is placed on the inside of the case 20 to receive the heat generated by the power supply 2 is produced, and the second section 32 is extended from the first section 30 and passes through the housing 20 so that he gets the heat from the power supply 2 sucks. However, the dissipation efficiency of the fanless power supply would be poor if only the design of the heat pipe 3 is exploited. To further dissipate the heat of the heat pipe 3 with a stream of air from the systematic blower 16 , is the second section 32 the heat pipe 3 extends, or the length of the second section 32 is enlarged and extends to the direction of the systematic blower 16 , The heat dissipation area of the heat pipe 3 is increased because the length thereof is increased, and thus the dissipation efficiency is further improved. Because the second section 32 to the position of the systematic blower 16 is extended and thereby blown, the dissipation efficiency is improved by the aid of forced convection.

2 shows a rear view of a fanless power supply of the computer in the present invention. Out 2 is the relative configuration between the second section 32 the heat pipe 3 and the systematic blower 16 as well as the outlet 18 to see more clearly. As in 2 shown is the power supply 2 to the ceiling of the housing 10 set and the systematic blower 16 is set at a middle position thereof, through which the second section 32 is set to a place, which by the systematic blower 16 is blown. As above is the second section 32 not just from the case 20 extends, as disclosed in the prior art, but also further downwardly curved to a location which is in front of the outlet 18 lies, leaving the second section 32 the heat pipe 3 through the systematic blower 16 is blown. With the help of the systematic blower 16 that could be from the power supply 2 caused heat through the heat pipe 3 be sucked off. To promote the dissipation efficiency, the webs 34 to the second section 32 set to increase the heat dissipation area.

For the computer currently available in the market, especially a personal computer, the configuration of the hardware therein is diversified. The relative position between the power supply and the systematic fan of the computer may be different from that shown in the embodiment of the present invention, as in FIG 2 shown. Nevertheless, all configurations where the power supply heatpipe extends to the location blown by the systematic blower are the feature of the present invention. Thus, the extension method of the second section 32 the heat pipe 3 in the present invention, suitable for any relative position between the power supply and the systematic fan, both a left-right arrangement and a top-bottom arrangement.

In other words, the method of the present invention allows the heat pipe of the fanless power supply to be blown by the systematic blower. The from the power supply 2 originating heat could continue through the heatpipe 3 be dissipated with the help of the systematic blower 16 ,

The reason why the heat through the systematic blower 16 could be dissipated, is that the temperature of the extracted by the systematic blower air is low. The air is extracted by the blowers of a central processing unit and a graphics chip, so that the temperature thereof is relatively lower than the heat of the power supply. Therefore, the heat is not in the power supply 2 passed during the Bebla sens of the second section 32 the heat pipe 3 via the systematic fan 16 , That means the temperature of the second section 32 gets bigger than the one through the systematic blower 16 extracted air. According to the thermodynamic law, the heat of the second section 32 conducted to the ambient atmosphere, the dissipation efficiency is promoted by the forced convection of the systematic blower 16 ,

To promote dissipation efficiency, another embodiment is provided. 3 shows an enlarged view of the heat pipe in 2 , At least one jetty 34 is at the second section 32 the heat pipe 3 set to increase the Dissipationsgebietes the same, so that the heat flow to be extracted is increased, since the contacted with the air Dissipationsgebiet the second section 32 could be further increased.

To promote dissipation efficiency, another embodiment is provided. 4 shows a perspective view of a systematic blower and a shaft of the present invention. The shaft 36 is at the second section 32 the heat pipe 3 set to an airflow of the systematic blower 16 to induce the outlet 18 to flow through and join the second section 32 to concentrate. Furthermore, better dissipation efficiency is achieved when the in 4 embodiment shown with the in 2 shown bridge 34 combined.

The feature of the present invention is to use the airflow of the systematic blower to dissipate the heat from the fanless power supply. As explained above, the heat becomes the outside of the fanless power supply 2 directed via the heat pipe 3 which means that the second section 32 the heat pipe 3 extending to the place, which by the systematic blower 16 is blown. Nevertheless, another efficient method is provided further. In which the air flow of the systematic blower 16 is directed to the place where the second section 32 the heat pipe 3 is blown. 5 shows a perspective view of a curved power tube of the computer in the present invention. A curved flow tube 38 with an inlet 38a and an outlet 38b is at the outlet 18 set. The inlet 38a points to the systematic fan 16 and the exit 38b shows to a Dissipationssteg 32 ' the power supply 2 , The dissipation bridge 32 ' is extended from the first section 30 the heat pipe 3 and the shape of the same is deformed into a web. The air flow of the systematic blower 16 becomes the Dissipationssteg 32 ' the fanless power supply 2 over the curved flow tube 38 directed to increase the dissipation efficiency.

6 shows a perspective view of another curved power tube of the computer in the present invention. To rapidly apply the present invention in all of the existing fanless power supplies is an additional curved power tube 38 with an inlet 38a and an outlet 38b provided in the present invention. The inlet 38a points to the outlet 18 , and thus is the Dissipationssteg 32 ' through the curved flow tube 38 covered. Therefore, the air flow of the systematic blower could 18 to the Dissipationssteg 32 ' over the curved flow tube 38 be directed. That is, the heat pipe 3 the fanless power supply 2 , eg the Dissipationssteg 32 ' or the in 1 shown second section 32 , could through the systematic blower 16 to achieve the feature of the present invention. The dissipation bridge 32 ' is still a kind of modification of the second section 32 the heat pipe 3 wherein the tubular form thereof is deformed into a shallow cannular shape.

Both the embodiments where the heatpipe 3 extends to the place and is bent, which through the systema tables blower 16 is blown, as in 1 to 4 shown as well as the embodiments where the air flow direction of the systematic blower 16 over the curved flow tube 38 is changed, as in 5 to 6 2, the feature of the present invention shows that the heat from the fanless power supply is dissipated via blowing the heat pipe with the systematic fan.

Claims (18)

A heat dissipating system of a computer, comprising: a blower ( 16 ) placed at an outlet ( 18 ) of the computer ( 1 ); and a power supply ( 2 ) with a heat pipe ( 3 ) with a bridge ( 34 ), wherein the bridge ( 34 ) to the outlet ( 18 ) is via the heat pipe ( 3 ), and a temperature of the power supply ( 2 ) is lowered via Beblasen the bridge ( 34 ) with the blower ( 16 ). The heat dissipating system of a computer as claimed in claim 1, characterized by comprising a well ( 36 ) at the outlet ( 18 ) of the computer ( 1 ) for concentrating an air flow of the blower ( 16 ) to the footbridge ( 34 ). The heat dissipating system of a computer as claimed in claim 1, characterized in that a heat flow of the computer ( 1 ) to an outside of the computer ( 1 ) is dissipated by the blower ( 16 ). The heat dissipating system of a computer as claimed in claim 1, characterized in that the heat pipe ( 3 ) away from the computer ( 1 ) is extended. The heat dissipating system of a computer as claimed in claim 1, characterized in that a heat flow of the power supply ( 2 ) from the heatpipe ( 3 ) and to an outside of the power supply ( 2 ). A blown power supply of a computer having a heat dissipating device and a housing, comprising: a power supply main body (10); 2 ); a heat pipe ( 3 ) with a first end ( 30 ) on the power supply main body ( 2 ) and a second end extending outwardly from the power supply main body (FIG. 2 ); and a jetty ( 34 ) connected to the heat pipe ( 3 ). The fanless power supply of a computer as claimed in claim 6, characterized ge indicates that the heat dissipating device is a systematic blower ( 16 ) contains. The fanless power supply of a computer as claimed in claim 6, characterized in that a heat flow of the computer ( 1 ) to an outside of the computer ( 1 ) is dissipated by the heat-dissipating device. The fanless power supply of a computer as claimed in claim 6, characterized in that a heat flow of the power supply main body ( 2 ) through the first end ( 30 ) and then to an outside of the power supply main body ( 2 ) over the second end ( 32 ). The fanless power supply of a computer as claimed in claim 6, characterized in that the bridge ( 34 ) with the heat dissipating device of the computer ( 1 ) is connected for reducing a temperature of the power supply main body ( 2 ) via the heat-dissipating device of the computer ( 1 ). The fanless power supply of a computer as claimed in claim 6, characterized in that the power supply main body ( 2 ) in the housing ( 10 ) of the computer is set. The fanless power supply of a computer as claimed in claim 6, characterized by a to an environment of the web ( 34 ) set shaft ( 36 ). The fanless power supply of a computer as claimed in claim 12, characterized in that the bridge ( 34 ) with the heat dissipating device of the computer ( 1 ) is connected via the shaft ( 36 ). The fanless power supply of a computer as claimed in claim 13, characterized in that a suctioned air stream of the heat dissipating device to the web ( 34 ) is concentrated through the shaft ( 36 ). A method of dissipating a heat flux from a bladeless power supply attached to a systematic heat dissipating device of a computer, comprising the steps of: (1) providing a heat pipe ( 3 ) extends from an interior of the fanless power supply ( 2 ) to an exterior of the computer ( 1 ); (2) setting a bridge ( 34 ) to the heat pipe ( 3 ); (3) Attaching the bridge ( 34 ) to a specific location so that it can be read by the system's systematic heat dissipating device ( 1 ) is cooled; and (4) turning on the systematic heat dissipating device. The method of dissipating a heat flux from a fanless power supply as claimed in claim 15, characterized in that a heat flow of the fanless power supply ( 2 ) through the heat pipe ( 3 ) and to an outside of the fanless power supply ( 2 ). The method of dissipating a heat flux of a fanless power supply as claimed in claim 15, characterized in that the web ( 34 ) to the specific location via a manhole ( 36 ) is grown. The method of dissipating a heat flux from a fanless power supply as claimed in claim 17, characterized in that an aspirated air stream of the systematic heat dissipating device at the web ( 34 ) through the shaft ( 36 ) is concentrated.