CN201196763Y - Heat radiating device used for removing heat generated by computer device - Google Patents

Abstract

The utility model discloses a heat dissipating system for dissipating the heat generated by a computer device. The heat removal system comprises a heat dissipating seat which is integrated with the computer device to absorb the heat generated by the computer device; a delivery pipe which is arranged inside the heat dissipating seat for delivering an operating fluid; a driving device which is connected to a first end of the delivery pipe and is separately arranged outside the heat dissipating seat for driving the operating fluid to flow so that the operating fluid brings the heat generated by the computer device out of the heat dissipating seat; and a cooling device which is connected to a second end of the delivery pipe and the driving device, and is separately arranged outside the heat dissipating seat to cool the operating fluid delivered by the driving device so as to remove the heat generated by the computer device.

Description

Be used for loose removing the heat abstractor of heat that computer apparatus produces

Technical field

The utility model relates to a kind of heat abstractor that is used for loosing except that a heat that computer apparatus produces, and especially relates to a kind of water-cooled cooling system that is used for loosing except that a heat that computer apparatus produces.

Background technology

Heat dissipation problem still is the bottleneck that a urgent need overcomes in the application of Portable removable computer now, and in the streets various dissimilar Portable removable computers also adopt various different radiating mode, yet existing heat dissipation technology has not been applied and has been solved processor and a large amount of heats that produce of each element, so have the application of many heat dissipation technologys just to arise at the historic moment, under normal working temperature, use to keep electronic installation.The present air cooling system that generally uses, no matter how the usefulness of cooling fan improves, solving still some restriction on the heat production problem, for example under the pattern of conventional fan forced air convection, heat dissipation capacity is limited after all, deposit dust easily, and only rely on fan to dispel the heat and to produce excessive noise, thereby destroy the peacefulness of environment.

The utility model content

The purpose of this utility model is to provide a kind of water-cooled power converter that is used for loosing except that a heat that computer apparatus produces, to solve the above problems.

The purpose of this utility model is achieved in that and promptly discloses a kind of heat abstractor that is used for loose removing a heat that computer apparatus produces, and this heat abstractor includes a radiating seat, and it is used for being incorporated into this computer apparatus, is used to absorb the heat that this computer apparatus produces; One delivery pipe, it is installed in this radiating seat, is used for carrying a working fluid; One drive unit, its one first end and separation that is connected in this delivery pipe is arranged at outside this radiating seat, is used for driving flowing of this working fluid so that this working fluid with heat band that this computer apparatus produced from this radiating seat; And a cooling device, it is connected in one second end and this drive unit of this delivery pipe, and separates and be arranged at outside this radiating seat, is used for cooling off this working fluid that is transported by this drive unit, is used for loosing removing the heat that this computer apparatus produced.

Advantage of the present utility model is, be compared to background technology, the utility model water-cooled power converter can efficiently loose and remove the heat that computer apparatus produced, and because the fan of cooling work fluid can be away from user's setting, just can reduce the influence of fan noise to the user thus.

Description of drawings

Fig. 1 is connected in the synoptic diagram of computer apparatus for the utility model heat abstractor;

Fig. 2 is the synoptic diagram of the utility model heat abstractor;

Fig. 3 is the synoptic diagram of the utility model cooling device.

The main element symbol description

50 heat abstractors, 52 computer apparatus

54 radiating seats, 56 delivery pipes

561 first ends, 562 second ends

58 drive units, 60 cooling devices

62 first mozzles, 64 second mozzles

66 the 3rd mozzles, 68 fans

70 cooling tubes, 701 first ends

702 second ends

Embodiment

See also Fig. 1 and Fig. 2, Fig. 1 is the synoptic diagram that the utility model one heat abstractor 50 is connected in a computer apparatus 52, and Fig. 2 is the synoptic diagram of the utility model heat abstractor 50.Computer apparatus 52 can be a portable computer, as notebook computer etc., heat abstractor 50 includes a radiating seat 54, a delivery pipe 56, a drive unit 58, a cooling device 60, one first mozzle 62, one second mozzle 64, and one the 3rd mozzle 66.Radiating seat 54 is used for being installed on the below of computer apparatus 52 and is incorporated into computer apparatus 52, be used to absorb the heat that computer apparatus 52 is produced, absorb the computer apparatus 52 thermal conduction of heat speed that produces in order to quicken radiating seat 54, the material of radiating seat 54 can be heat-conducting, as metal material or plastic cement material etc.; Delivery pipe 56 is installed on the inside of radiating seat 54, and it is used for carrying a working fluid, and wherein this working fluid can be water or heat radiation wet goods, delivery pipe 56 can be U type bending pipeline, be used to increase its volume in radiating seat 54 inside, and then increase radiating efficiency, delivery pipe 56 can be an aluminum pipe; Drive unit 58 is connected in one first end 561 of delivery pipe 56 and is connected in cooling device 60 by second mozzle 64 by first mozzle 62, drive unit 58 separation are arranged at outside the radiating seat 54, be used for driving flowing of this working fluid, meaning is about to this working fluid and is sent to cooling device 60 by delivery pipe 56 ends, so that the heat band discrete heat seat 54 that this working fluid is produced computer apparatus 52, drive unit 58 can be a pump (pump); Cooling device 60 is to be connected in drive unit 58 and to be connected in one second end 562 of delivery pipe 56 by the 3rd mozzle 66 by second mozzle 64, cooling device 60 separation are arranged at outside the radiating seat 54, be used for cooling off this working fluid that transports by drive unit 58, be used for the heat that looses and produced except that computer apparatus 52; First mozzle 62, second mozzle 64, and the 3rd mozzle 66 can be made up of plastic cement material, meaning is that it can be bent arbitrarily.

Be described below in this action principle the utility model heat abstractor 50, at first the heat that produced of computer apparatus 52 can be passed to radiating seat 54 by heat exchange pattern, this workflow cognition that flows in the delivery pipe 56 of radiating seat 54 inside causes temperature to rise because radiating seat 54 absorbs the heats that computer apparatus 52 produced, because this working fluid is activated the driving of device 58, so it can flow in delivery pipe 56, drive the flow direction of this working fluid shown in arrow among the figure as for drive unit 58, thus this working fluid of rising of temperature can be by first end 561 of delivery pipe 56 by band from radiating seat 54, and then be sent to first mozzle 62, this workflow cognition that temperature rises is back to second mozzle 64 by drive unit 58 pressurizations, is used to transfer to cooling device 60.See also Fig. 3, Fig. 3 is the synoptic diagram of the utility model cooling device 60, and cooling device 60 comprises a fan 68, and a cooling tube 70, it is contacted with fan 68, and one second end 702 that one first end 701 of cooling tube 70 is connected in second mozzle 64 and cooling tube 70 is connected in the 3rd mozzle 66.This working fluid that temperature rises can be flowed into first end 701 of cooling tube 70 by second mozzle 64, and fan 68 rotates the heat that can loose and bring except that this working fluid, and then cool off this working fluid, this working fluid that is cooled afterwards flows to the 3rd mozzle 66 by second end 702 of cooling tube 70, so that second end 562 of this working fluid of cooling by delivery pipe 56 is back in the delivery pipe 56, the running that so goes round and begins again just can reach the effect of circulation heat radiation.

In sum, because water-cooled radiating seat 54 is very big with the contact area of computer apparatus 52, so dispel the heat compared to the part of conventional fan, radiating seat 54 is that comprehensive cooling mechanism and radiating rate is very fast; Moreover, because drive unit 58 separates with cooling device 60 and is arranged at outside the radiating seat 54, so it can be away from the user of computer apparatus 52, just can avoid the noise effect user of fan 68 thus, and because drive unit 58 is not to be installed in the radiating seat 54 with cooling device 60, so can be convenient to the replacing of drive unit 58 and cooling device 60.

Be compared to background technology, the utility model water-cooled cooling system can efficiently loose and remove the heat that computer apparatus produced, and because the fan of cooling work fluid can be away from user's setting, just can reduce the influence of fan noise to the user thus.

Claims (20)

1. a heat abstractor is used for loosing and removes the heat that a computer apparatus is produced, and it is characterized in that this heat abstractor includes: radiating seat, and it is used for being incorporated into this computer apparatus, is used to absorb the heat that this computer apparatus produces; Delivery pipe, it is installed in this radiating seat, is used for carrying a working fluid; Drive unit, its one first end and separation that is connected in this delivery pipe is arranged at outside this radiating seat, is used for driving flowing of this working fluid so that this working fluid with heat band that this computer apparatus produced from this radiating seat; And cooling device, it is connected in one second end and this drive unit of this delivery pipe, and separates and to be arranged at outside this radiating seat, is used for cooling off this working fluid that is transported by this drive unit, is used for loosing removing the heat that this computer apparatus produced.

2. heat abstractor as claimed in claim 1 is characterized in that this radiating seat is by being made up of metal material.

3. heat abstractor as claimed in claim 1 is characterized in that this radiating seat is made up of plastic cement material.

4. heat abstractor as claimed in claim 1 is characterized in that, this delivery pipe is a U type bending pipeline.

5. heat abstractor as claimed in claim 1 is characterized in that, this delivery pipe is an aluminum pipe.

6. heat abstractor as claimed in claim 1 is characterized in that, this drive unit is a pump.

7. heat abstractor as claimed in claim 1 is characterized in that, this heat abstractor comprises one first mozzle in addition, and this first end and this drive unit that it is connected in this delivery pipe transmit this working fluid to this drive unit with this delivery pipe of cause.

8. heat abstractor as claimed in claim 7 is characterized in that, this first mozzle is made up of plastic cement material.

9. heat abstractor as claimed in claim 1 is characterized in that, this heat abstractor comprises one second mozzle in addition, and it is connected in this drive unit and this cooling device, transmits this working fluid to this cooling device with this drive unit of cause.

10. heat abstractor as claimed in claim 9 is characterized in that, this second mozzle is made up of plastic cement material.

11. heat abstractor as claimed in claim 1 is characterized in that, this heat abstractor comprises one the 3rd mozzle in addition, and this second end that it is connected in this cooling device and this delivery pipe transmits this working fluid to this delivery pipe with this cooling device of cause.

12. heat abstractor as claimed in claim 11 is characterized in that, the 3rd mozzle is made up of plastic cement material.

13. heat abstractor as claimed in claim 1 is characterized in that, this cooling device comprises a fan.

14. heat abstractor as claimed in claim 13 is characterized in that, this cooling device comprises a cooling tube in addition, and it is contacted with this fan, and its two ends are connected to this drive unit and this delivery pipe.

15. heat abstractor as claimed in claim 14 is characterized in that, this cooling tube is a U type bending pipeline.

16. heat abstractor as claimed in claim 14 is characterized in that, this cooling tube is an aluminum pipe.

17. heat abstractor as claimed in claim 13 is characterized in that, this heat abstractor comprises one second mozzle in addition, and it is connected in this cooling tube of this drive unit and this cooling device, transmits this working fluid to this cooling device with this drive unit of cause.

18. heat abstractor as claimed in claim 13, it is characterized in that, this heat abstractor comprises one the 3rd mozzle in addition, and it is connected in this cooling tube of this cooling device and this second end of this delivery pipe, transmits this working fluid to this delivery pipe with this cooling device of cause.

19. heat abstractor as claimed in claim 1 is characterized in that, this working fluid is a water.

20. heat abstractor as claimed in claim 1 is characterized in that, this working fluid is heat radiation oil.

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