TW200919155A - Miniaturized ice water cooling circulatory system - Google Patents

Abstract

A miniaturized ice water cooling circulatory system includes an ice water tank having a drowned water pump disposed therein for pumping and conveying refrigerant into the ice water tank to convert the water in the ice water tank into ice water to be conveyed out for cooling off the heating elements in a computer host. After the heating elements are cooled off, the ice water is converted into cold water to be conveyed back into the ice water tank, thus attaining effect of cooling circulation. The refrigerant with absorbed heat is outputted to a compressor for compressing the refrigerant with absorbed heat. After exhausting heat by a condenser, a refrigerant controller is employed to reduce the refrigerant pressure transmitted by the condenser, so as to allow the refrigerant to absorb heat in ice water and circulate again, thereby attaining effect of cooling circulation. The drowned water pump is positioned in the ice water tank so the volume of the cooling circulatory system can be diminished for facilitating the cooling circulatory system to be assembled in a computer host for carrying out heat dissipation for the heating elements, thereby achieving excellent effect in heat dissipation.

Description

200919155

* I. INSTRUCTION DESCRIPTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a cooling cycle species that can be installed in a computer mainframe as a small-sized ice water cooling circulation system. [Previous technology] (4) The first indication is the conventional ice water cooling system, such as temperature, such as, _, power crystal, etc.;: main: the heating element of the board has a - box 1, in The box = one:;, 2 = system system setting:: connected with - refrigerant transmission eight tubes 3 and - cold two, and respectively connected - ice water output tube 5 and 4 phase 2 other end tube 5 and the cold water input tube 6 f input Lu 6' the ice water output connection 'for the heat-generating component to be connected to the phase box 2 and externally connected with a pumping water to make the taste 7, the heat sinking effect, and the water ο refrigerant input pipe 3 becomes the ice water pass In the ice water outlet pipe 5, the water tank 2 is passed through the cold water inlet pipe 6 and the water tank 2 is taken into the water phase 2, and the water tank 2 is searched for a refrigerating machine 8 to discharge the circulating refrigerant. After the other end is externally connected, it is required to be transferred into the water tank 2 = 懕: condensed by the condenser 9 to a cooling cycle. And the heart medium [force' to recirculate, up to [invention] box 2, pumping: the device of the conventional cooling cycle system is large, because the water phase 2, pump 7 and compressor 8 port are placed in the computer host In addition, the equipment of the branch must be set up separately, and it is not beautiful. Therefore, how to make the 200919155 忒 cooling and slash system reduce the volume, so as to achieve convenient installation and use, it is a place to be improved. The invention provides a miniaturized ice water cooling circulation system, which comprises an ice water water, wherein a submerged water pump is arranged therein, and the submersible water pump is respectively connected with a refrigerant input pipe and a refrigerant output f. The other end is respectively connected to an ice water outlet pipe and a cold water inlet pipe, and the other end of the ice water outlet pipe is connected: an input end of the object, and the other end of the cold water input pipe is connected to the output end of the object, The ice water outlet pipe is connected to the cold water inlet pipe, and the refrigerant after the heat absorption is output from the refrigerant output pipe to a compressor to compress the heat-absorbing refrigerant through the compressor, and is arranged by a condenser. After the heat is condensed, the refrigerant pressure transmitted from the condenser is reduced by a refrigerant controller, so that the refrigerant absorbs heat again in the ice water device to recirculate. The miniaturized ice water cooling circulation system provided by the invention is arranged in the ice water device by the submersible water pump to reduce the volume of the circulation system, and is convenient for the women's clothing to be disposed inside a host body. Heat-generating components for heat dissipation. [Embodiment], First, please refer to the second diagram, which is a schematic diagram of the cycle of the miniaturized ice water cooling system of the present invention, which can be installed in a computer mainframe, and the cooling cycle system mainly includes There is a water chiller 10, a heat collector 20, a compressor 30, a condenser 4 〇 and a drying filter 5 〇 and a controller 60; wherein: the ice control water 10 is provided with a normal temperature therein Water, and a submerged water chestnut 11 is arranged. The left end of the submersible water pump 11 is respectively connected with a refrigerant input pipe 12, and a refrigerant output pipe 13-end 'right end is respectively connected to a person--ice water output official 14 and a cold water inlet pipe 15 connected to the other end of the 200919155*, cold water inlet pipe 15. The collector 20 is a metal plate having a suitable thickness for the purpose. The heat generating component of the computer main body that is intended to be cooled and cooled, has a power supply and a output terminal 22, and the input end 21 is connected to the other end of the ice water outlet pipe 14 and the output end 22 is connected to the The other end of the cold water inlet pipe 15 and the ice water outlet pipe 14 and the cold water The tube 15 is connected to the heat collector 20, and the cold water inlet pipe 15 is cooled by the heat generating element to become cold water = the cold water inlet pipe 15 is transported back into the ice water tank 1 。. Adjacent to the chiller 10, the refrigerant output pipe 13 is externally connected to one end, and the other end is connected to the other end of the refrigerant input pipe 12, and the refrigerant after the heat absorption is compressed by the compressor 3, and transmitted to the chiller. a refrigerant inlet pipe 12. The condenser 40 is connected to the refrigerant inlet pipe 12 between the compressor 3 and the ice water tank 1 to condense the refrigerant gas input from the compressor 3〇 and the condenser A fan 41 is disposed on one side of the fan for heat removal. The drying filter 50 is disposed on the refrigerant wheel outlet 13 and is connected to the condenser 40. The cold, controller 60 is attached thereto. The condenser 4 is connected to the drying medium inlet pipe 12 of the drying device to reduce the pressure of the refrigerant gas transmitted by the condenser 4, so that the refrigerant absorbs heat again in the ice water, and follows each other. Please refer to the figure shown in the third figure for the cooling cycle system device outside the computer host 8G. Viewing, the cooling circulation system is installed in a box = inside _' and fixed in the left end of the computer main body 8 ,, the box 7 〇 top end and has a through hole 71 for the ice water outlet pipe 14 and the The other end of the cold water inlet pipe 15 has a perforation 71 extending outwardly to the casing 7 , wherein the ice 200919155 •, the water outlet pipe 14 is connected to the submersible water pump 11, and the ice water outlet pipe 14 is externally connected to the top end of the ice water heater, and the ice water outlet pipe 14 and the other end of the cold water wheel inlet pipe 15 are connected to the heat collector 2, so that the heat collector 20 and the computer host 8 are connected. The heating element 82 on the main board 81 is used as a junction s 'the compressor 30 is connected to the chiller 1 有 to the refrigerant output tube U, and the condenser 40 and the compressor 30 are input by the refrigerant. The tube is connected to the η phase and connected to the ice water heater 1 through the refrigerant inlet pipe 14, so that the refrigerant output pipe 13 and the refrigerant inlet pipe 14 are η in the chiller 1 , to circulate The refrigerant is transported, and the left side of the condenser 4 is provided with an angle fan 41 'the right side of the box 7 is adjacent to the condenser 40 and is disposed The ventilation net 72' is used to discharge the heat absorbed by the cooling circulation system to the chamber for further understanding of the structural features, technical means and expected effects of the present invention. The manner of use of the present invention will be described. Further, the present invention has a deeper and more specific understanding, as follows: The chilled water generated by absorbing the heating element 82 is heated to become cold water, and the refrigerant cold water is input from the cold water inlet pipe 15 when the cooling circulation system is used. By starting the submersible water pump 11, the refrigerant supply 4 12 transfers the low pressure (four) refrigerant gas to the ice water 10, and the normal temperature water in the ice water 1G becomes low temperature ice water, and the ice water is The output tube 14 is transported and passes through the collector 2〇 to cool the collector 2〇 to make the ice water outlet tube 14

The above-mentioned ones are merely the preferred embodiments of the present invention, and the equivalents of the present invention are intended to be included in the scope of the present invention. 200919155 The refrigerant input pipe 12 is transferred to the condenser 4〇, and the high-pressure gaseous refrigerant is condensed into a liquid refrigerant of a high temperature and a normal temperature, and is absorbed by the fan 41 into the casing 70 or the host of the cold circulation system. The heat of the plate 81 is discharged to the outside by the ventilation net 72, and the liquid medium of the high-pressure normal temperature passing from the condenser 40 is further transported by the refrigerant input pipe 12 and dried via the dry filter, and then the refrigerant controller 60 The pressure is reduced, so that the refrigerant gas flowing through becomes the low-pressure liquid refrigerant required for the water_10, and finally, (4) is transferred from the refrigerant input Lu 12 back to the ice water tank 10, and another cooling cycle is repeated to a cooling cycle. effect. Therefore, the present invention can be installed in the ice water device by the submersible water pump to reduce the volume of the circuit, and the branch wire is disposed inside or outside the computer host to cool the main body. The heating element is used for convenient installation and space occupation. 4, the above-mentioned invention has its excellent progress in the products, and at the same time, it has checked the technical information about such structures at home and abroad, and the phase (4) structure has not been found in the literature. This rhyme has been a new type of patent, and it is submitted in accordance with the law. A 200919155 • . . . BRIEF DESCRIPTION OF THE DRAWINGS The first figure is an assembly view of a conventional ice water cooling cycle % system. The second figure is a cycle diagram of a preferred embodiment of the present invention. The third drawing is a combined appearance of a preferred embodiment of the present invention. [Main component symbol description] [Authentic] 1 Case 3 Refrigerant input pipe 5 Ice water output pipe 7 Pumping fruit 9 Condenser (invention) 10 Ice water 11 Submersible water pump 13 Refrigerant output pipe 15 Cold water inlet pipe 20 Collector 21 Input 30 Compressor 40 Condenser 41 Fan 50 Drying filter 60 Refrigerant controller 70 Box 71 Perforation

Ο 22 Water tank Refrigerant output pipe Cold water inlet pipe Compressor Inlet pipe Ice water outlet pipe Outlet end Ventilation net 72 200919155 80 Computer main unit 81 Main board 82 Heating element

Claims (1)

200919155 < X. Patent application scope: 1. A miniaturized ice water cooling circulation system, comprising: an ice water device, wherein a submersible water pump is arranged therein, and the submerged water 1 has a refrigerant medium Input pipe and - refrigerant output pipe, the other end =::: two:! Out: and - cold water input pipe, the ice water: a play g and connected to a computer host to dissipate heat ο hot element 'to The ice water in the ice water device is heated by the ice water to receive the heat of the heating element, and then the cold water input pipe is transmitted back to the second sister 12' to achieve the cooling cycle, and the refrigerant after the heat absorption is output by the refrigerant. Output; to the ^ system is connected to the refrigerant output pipe, the other end is connected to the other end of the department, the refrigerant after the endothermic is compressed by the compressor, and transmitted to the refrigerant input pipe; phase, check Z condenser, And connecting a refrigerant input pipe between the compressor and the ice water device, 'to condense and discharge heat from the refrigerant input by the compressor; and arranging the medium control 11' between the condensing 11 and the ice water device The refrigerant is transferred into the cold by the condenser Pressure, and so in the interests of ice-water absorbs heat, a cooling cycle to achieve the effect. The miniaturized ice water cooling circuit according to the first item of the ring system of the ring system is the input end/, the i, the ice water outlet pipe is connected to the other end and connected to a collector, and the water is cooled out to the other end of the water wheel. And connected to the collector output end, the "t: input pipe system is connected to the collector, so that T',, is in contact with the heating element to achieve cooling. The ring system is limited to the miniaturized ice water cooling cycle described in item 2, and the °Hi collector is a metal plate. According to the application of patent scope, item i, the miniaturized ice water cooling cycle 12 200919155 'in the ring system', the cooling is placed in the body, the box body: in the phase body' and the outlet pipe and the cold water input The tube is perforated for the ice water to be collected into the collector, so that the collector is tied to the heating element. 5 j Please request the miniaturized ice water cooling cycle described in item 4 of the patent scope ^ ^ 〇 ^ There is a fan on one side of the condenser, and the box is provided with a ventilation net opposite the condenser to the circulation system The absorbed heat is discharged to the outside of the ventilation net by the fan.小型 6. The miniaturized ice water cooling circulation system of the first aspect of the patent application is disposed on the refrigerant inlet pipe adjacent to the condenser end and provided with a drying filter. 7. The miniaturized ice water cooling circulation system according to the first aspect of the patent scope of the invention, wherein the circulating refrigerant is compressed by the compressor to be a high pressure gaseous refrigerant and transmitted to the condenser. The gaseous refrigerant is condensed into a liquid refrigerant having a high pressure and a normal temperature, and then reduced to a low-pressure liquid refrigerant via the refrigerant controller, and then transferred back to the ice water container. 13