CN206162360U - Computer cluster cooling system - Google Patents

Abstract

The utility model belongs to the technical field of computer cooling. It is relatively poor for computer cooling in solving prior art, make the computer operation become slow, concentrate the relatively poor technical problem of radiating effect when using the computer, provide the heat exchanger that a computer cluster cooling system includes the coolant liquid storage tank, is arranged in to make refrigerating plant, circulating line, the circulating pump of the coolant liquid cooling of coolant liquid storage tank and is used for the computer cooling, the play liquid end of coolant liquid storage tank links to each other with the one end of circulating pump, the other end of circulating pump links to each other with the one end of circulating line, the other end of circulating line links to each other with the feed liquor of coolant liquid storage tank end, the quantity of heat exchanger just connects in parallel on the circulating line for a plurality of, still be equipped with the cooling liquid exit valve on the coolant liquid storage tank, the feed liquor end and the play liquid end of heat exchanger are connected with the circulating line through first valve and second valve respectively. The utility model discloses a radiating effect is good, the noiselessness, and extension computer life is fit for many computers and uses simultaneously.

Description

Computer cluster cooling system

Technical field

The utility model belongs to computer heat radiation technical field, and in particular to a kind of computer cluster with liquid-cooling heat radiation structure Cooling system.

Background technology

With the development of science and technology, with computer office or the internal office work network that establishes the company, set up Internet bar etc. and enter to do business Industry activity has become the main flow of society.And the heat dispersion of computer performance often to computer and life-span cause larger shadow Ring.When using, the radiating of single personal computer is bad, caused to affect less；But when such as Internet bar, office space etc. use, by More in computer quantity, using frequently, the computer running time is long, causes each computer heat radiation bad, and maintenance times are frequent for computer, Cause maintenance cost high；Radiating is bad to cause chip hot soak condition, and performance is greatly reduced with service life；Its The form of expression is available machine time prolongation, and running software speed is slow.The radiating for being additionally, since computer is bad, makes computer temperature mistake Height, high temperature makes the harmful substance volatilization in the organic material of computer cause to have a strong impact on to person health again.In general computer All radiated by air-cooled mode by built-in fan, when computer quantity is more, needed more using wind-cooling heat dissipating The indoor environment of ventilation, and computer housing inside can be made to enter dust, it is unfavorable for that long-term maintenance is used.

Utility model content

The purpose of this utility model is to solve technical problem present in above prior art, there is provided a kind of radiating effect Good, noiselessness extends computer service life, is adapted to multiple computers computer cluster cooling system used at the same time.

The purpose of this utility model is achieved through the following technical solutions：

A kind of computer cluster cooling system, including for storing the coolant storage tank of coolant, for making coolant storage tank In coolant cooling refrigerating plant, circulating line, circulating pump and for computer cooling heat exchanger；The coolant storage tank Outlet end be connected with one end of circulating pump, the other end of the circulating pump is connected with one end of circulating line；The circulation pipe The other end in road is connected with the liquid feeding end of coolant storage tank；The quantity of the heat exchanger is for several and is connected in parallel on circulating line On；Cooling liquid outlet valve is additionally provided with the coolant storage tank；The liquid feeding end and outlet end of the heat exchanger is respectively by the One valve and the second valve are connected with circulating line.

Further improvement is that the heat exchanger is First Heat Exchanger；The First Heat Exchanger include the first metal master, The first cooling duct inside the first metal master, the first liquid feeding end located at the first cooling duct two ends and first go out liquid End；First liquid feeding end and the first outlet end of each First Heat Exchanger is respectively by the first valve and the second valve in parallel in circulation On pipeline.

Further improvement is that first cooling duct is helicoidal structure.

Further improvement is that the heat exchanger is the second heat exchanger；Second heat exchanger includes more than two cold But block；The cooling block includes the second metal master, the second cooling duct inside the second metal master, cold located at second But second liquid feeding end and the second outlet end at passage two ends；All of cooling block series connection；The liquid feeding end of the cooling block after series connection and Outlet end is respectively by the first valve and the second valve in parallel on circulating line.

Further improvement is that second cooling duct is helicoidal structure.

Further improvement is that second cooling duct is serpentine configuration.

Further improvement is that second cooling duct includes the square cooling duct of more than two；It is described square cold But the two ends of passage communicate respectively with square duct liquid feeding end and square duct outlet end.

The utility model is relative to the beneficial effect of prior art：Computer cluster cooling system of the present utility model is adopted Cooling device is coolant cooling, and coolant is delivered on the part lowered the temperature installed in the need of each computer by circulating line Heat exchanger, when needing large area to be concentrated use in computer by realizing using various heat exchangers with different cooling-down effects, The heat dissipation problem of computer；By arranging the timely replacing that cooling liquid outlet valve realizes coolant on coolant storage tank；By One valve and the second valve make needs change or when safeguarding heat exchanger, be easy to prevent the leakage of coolant so that the system more It is safe and practical.

Description of the drawings

Fig. 1 overall structure diagrams of the present utility model.

The cross-sectional view of Fig. 2 serpentine channel cooling blocks of the present utility model.

The cross-sectional view of Fig. 3 spirality channel cooling blocks of the present utility model.

The cross-sectional view of Fig. 4 square duct cooling blocks of the present utility model.

Wherein, in accompanying drawing corresponding reference be 1- refrigerating plants, 2- circulating pumps, 3- coolant storage tanks, 4- coolants Outlet valve, 5- heat exchangers, the valves of 6- first, the valves of 7- second, 8- circulating lines, 9- serpentine channel liquid feeding ends, 10- is snakelike logical Road outlet end, 11- serpentine channel cooling blocks, 12- serpentine cooling channels, 13- spirality channel cooling blocks, 14- spirality channels Outlet end, 15- spirality channel liquid feeding ends, 16- spiral cooling channels, 17- square duct liquid feeding ends, 18- square ducts go out liquid End, the square cooling ducts of 19-, 20- square duct cooling blocks.

Specific embodiment

The technical solution of the utility model is described in detail below in conjunction with drawings and Examples, so that this area Technical staff can be sufficiently complete on the basis of the utility model specification has been read realize technical side of the present utility model Case, and solve problems of the prior art to be solved in the utility model.It should be noted that being only below this practicality New preferred embodiment, for the person of ordinary skill of the art, without departing from the utility model design is being created Under the premise of, some deformations and improvement can also be made, these should belong to protection domain of the present utility model.

Embodiment

As Figure 1-4, a kind of computer cluster cooling system, including for store coolant coolant storage tank, use In the refrigerating plant, circulating line, circulating pump and the heat exchanger for computer cooling that make the coolant in coolant storage tank lower the temperature； The outlet end of coolant storage tank is connected with one end of circulating pump, the other end of the circulating pump and one end phase of circulating line Even；The other end of the circulating line is connected with the liquid feeding end of coolant storage tank；The quantity of the heat exchanger for several and and It is associated on circulating line；Cooling liquid outlet valve is additionally provided with the coolant storage tank；The liquid feeding end of the heat exchanger and go out liquid End is connected respectively by the first valve and the second valve with circulating line.

As shown in Figure 1, a kind of computer cluster cooling system, the coolant that refrigerating plant 1 is used in coolant storage tank 3, It can also be by equipment made by the refrigeration principle same with refrigerator ice cabinet that the refrigerating plant 1 can be refrigerator, refrigerator-freezer；System When device for cooling 1 is cooled down to the coolant in coolant storage tank 3, can be by the way that described coolant storage tank 3 be placed in into cooling device It is interior by way of heat transfer to cool down coolant；Can also be treated by the way that coolant is passed through into pipeline to cooling device The mode for being transmitted back to coolant storage tank 3 after cooling again is cooled down.It is cold that the coolant can be commonly used for water and on the market But liquid, it is preferable that adopt low boiling point, nontoxic, nonflammable coolant, it is to avoid caused security incident when coolant is leaked Occur；Coolant in coolant storage tank 3 by cooling device cooling after, by the effect of circulating pump 2, by coolant storage tank 3 In coolant pump into the liquid feeding end of circulating line 8, the outlet end of circulating line 8 is linked back coolant storage tank 3；In order to can basis Actually used situation changes coolant, and the coolant storage tank 3 is provided with cooling liquid outlet valve 4, is easy to need to change cooling During liquid the coolant in coolant storage tank 3 is discharged by the valve；The circulating pump 2 can be according to the actual coolant for being used The suitable circulating pump 2 of type selecting provide power for coolant；As shown in figure 1, being connected with heat exchange on the lateral wall of circulating line 8 Device, the liquid feeding end and outlet end of heat exchanger are connected in parallel respectively by the first valve 6 and the second valve 7 with circulating line 8；When need Will more switching heat-exchanger when, after the first valve 6 and the second valve 7 are closed, heat exchanger is pulled down and is changed, so as to prevent more Coolant flows out the coolant leakage for causing during switching heat-exchanger.

Further improvement is that the heat exchanger is First Heat Exchanger；The First Heat Exchanger include the first metal master, The first cooling duct inside the first metal master, the first liquid feeding end located at the first cooling duct two ends and first go out liquid End；First liquid feeding end and the first outlet end of each First Heat Exchanger is respectively by the first valve and the second valve in parallel in circulation On pipeline.

As it is a kind of preferred embodiment, the liquid feeding end and outlet end of more than one First Heat Exchanger are respectively by the One valve 6 and the second valve 7 are simultaneously connected on circulating line 8.Preferably, the first metal master adopts the heat conduction such as metallic copper or aluminium Preferably metal material is made, or the preferable alloy material of heat conduction is made.First Heat Exchanger is placed in when using desk-top Computer or notebook are needed on the part of cooling, and the heat that the part is produced raises the temperature of the first metal master, circulation pipe The first cooling duct that coolant in road 8 is entered inside the first metal master by the first liquid feeding end, coolant is cold from first But the first outlet end of passage flows out, so that the temperature of the first metal master is reduced.When using, First Heat Exchanger be one with On, each First Heat Exchanger is connected respectively by flexible pipe with the first valve 6 and the second valve 7, is easy to adjust the first heat exchange at any time Device is arranged on the position on the heat generating components of computer, and multiple First Heat Exchangers can be placed in each computer, can be by the first heat exchange Device is fixed on computer the part for needing to lower the temperature（Such as CPU, video card etc.）On.Preferably, the flexible pipe can be igelite Flexible pipe or LDPE: Low-density polyethylene plastics flexible pipe.As shown in figure 1, by by more than one First Heat Exchanger and being connected in circulation On pipeline 8, so as to keep each First Heat Exchanger in coolant at a lower temperature, so as to improve heat transfer effect.

Further improvement is that the heat exchanger is the second heat exchanger；Second heat exchanger includes more than two cold But block；The cooling block includes the second metal master, the second cooling duct inside the second metal master, cold located at second But second liquid feeding end and the second outlet end at passage two ends；All of cooling block series connection；The liquid feeding end of the cooling block after series connection and Outlet end is respectively by the first valve and the second valve in parallel on circulating line.

Used as another preferred embodiment, the heat exchanger is the second heat exchanger, and each second heat exchanger includes two Cooling block more than individual；Preferably, the second metal master is made using the preferable metal material of the heat conduction such as metallic copper or aluminium, also may be used Being made of the preferable alloy material of heat conduction.Preferably, the number of part lowered the temperature is needed on the quantity of the cooling block and computer It is identical.All of cooling block is connected by way of series connection；Second liquid feeding end of multiple cooling blocks of the coolant by connecting Into the second cooling duct of each cooling block connected, then flow out from the second outlet end of multiple cooling blocks, so that string The temperature of each cooling block of connection is reduced, and realizes cooling.When using, each cooling block is separately fixed at interior each of computer needs drop The part of temperature（Such as CPU, video card etc.）On, the part transfers heat to cooling block, so as to realize the cooling of the part.Pass through By each cooling block series connection, so as to increased the total time of staying on all parts of the coolant inside computer, so that Obtain coolant farthest to take away the heat of each thermal component in computer, so as to improve cooling-down effect.

In order to the second heat exchanger reaches preferable heat transfer effect, each cooling block of second heat exchanger can be using such as Serpentine channel cooling block 11, spirality channel cooling block 13 or square duct cooling block 20 shown in Fig. 2-3.

Further improvement is that second cooling duct is helicoidal structure.

When the cooling block of the second heat exchanger adopts spirality channel cooling block 13 as shown in Figure 3, the cooling block is Spirality channel cooling block 13, second cooling duct is helicoidal structure, and the second cooling duct is spiral cooling channel 16, Second liquid feeding end and the second outlet end at second cooling duct two ends is respectively spirality channel liquid feeding end 15 and spirality Passage outlet end 14.Preferably, the spirality channel outlet end 14 is located in the helicoidal structure of spiral cooling channel 16 On heart position, the spirality channel liquid feeding end 15 is located on one end of outermost curved channel of the helicoidal structure.When When second heat exchanger is using the such as cooling block of Fig. 3, flowed in the passage of helicoidal structure by coolant, increased coolant The time of staying in cooling block, while being partially formed reverse flow, its cooling effect is more aobvious compared with the such as cooling block of Fig. 2 Write.

Further improvement is that second cooling duct is serpentine configuration.

When the cooling block of the second heat exchanger adopts serpentine channel cooling block 11 as shown in Figure 2, the cooling block is snake Shape passage cooling block 11, the second cooling duct inside the second metal master is the serpentine cooling channel with serpentine configuration 12, second liquid feeding end and the second outlet end at the second cooling duct two ends are respectively serpentine channel liquid feeding end 9 and serpentine channel goes out Liquid end 10, the serpentine channel liquid feeding end 9 and serpentine channel outlet end 10 are respectively positioned at the two ends of serpentine cooling channel 12.

When the second heat exchanger is using the such as cooling block of Fig. 2, by the circuitous flow in the cooling channel of coolant, office Portion forms reverse flow, so as to improve the efficiency of heat exchange, realizes preferable heat-transfer effect, so that cooling becomes apparent from.

Further improvement is that second cooling duct includes the square cooling duct of more than two；It is described square cold But the two ends of passage communicate respectively with square duct liquid feeding end and square duct outlet end.

When the cooling block of the second heat exchanger adopts square duct cooling block 20 as shown in Figure 4, second cooling is logical Road is the square cooling duct 19 of two more parallels, second liquid feeding end and the second outlet end at second cooling duct two ends Respectively square duct liquid feeding end 17 and square duct outlet end 18.As shown in figure 4, on plural square cooling duct 19 Lower parallel arranged, its left and right two ends are connected respectively with square duct outlet end 18 and square duct liquid feeding end 17.

When the 3rd heat exchanger is using the such as cooling block of Fig. 4, by coolant in the square cooling duct 19 of three parallel connections In flowing realizing cooling, because square cooling duct enhances coolant consumption in the cooling channel, pass through Stop of the substantial amounts of coolant in square cooling duct 19, so as to realize the local to the part near square cooling duct 19 Realize preferable cooling effect.

Further improvement is that first cooling duct is helicoidal structure.

In order to improve the heat transfer effect of First Heat Exchanger, the first cooling duct can be substituted for such as Fig. 2-3 according to actual conditions Shown square cooling duct 19, serpentine cooling channel 12 or spiral cooling channel 16.Preferably, first cooling duct is Helicoidal structure.

The technical solution of the utility model can preferably be realized according to the record of this specification.

Claims (7)

1. a kind of computer cluster cooling system, it is characterised in that include for storing the coolant storage tank of coolant, cold for making But the coolant in liquid storage tank is lowered the temperature refrigerating plant, circulating line, circulating pump and the heat exchanger for computer cooling；It is described cold But the outlet end of liquid storage tank is connected with one end of circulating pump, and the other end of the circulating pump is connected with one end of circulating line；Institute The other end for stating circulating line is connected with the liquid feeding end of coolant storage tank；The quantity of the heat exchanger is for several and is connected in parallel on and follows On endless tube road；Cooling liquid outlet valve is additionally provided with the coolant storage tank；The liquid feeding end of the heat exchanger and outlet end are distinguished It is connected with circulating line by the first valve and the second valve.

2. computer cluster cooling system according to claim 1, it is characterised in that the heat exchanger is First Heat Exchanger； The First Heat Exchanger includes the first metal master, the first cooling duct inside the first metal master, cold located at first But first liquid feeding end and the first outlet end at passage two ends；First liquid feeding end of each First Heat Exchanger and the first outlet end are distinguished By the first valve and the second valve in parallel on circulating line.

3. computer cluster cooling system according to claim 2, it is characterised in that first cooling duct is helical form Structure.

4. computer cluster cooling system according to claim 1, it is characterised in that the heat exchanger is the second heat exchanger； Second heat exchanger includes the cooling block of more than two；The cooling block is including the second metal master, located at the second metal master In vivo second cooling duct in portion, located at second liquid feeding end and the second outlet end at the second cooling duct two ends；All of cooling Block is connected；The liquid feeding end and outlet end of the cooling block after series connection is respectively by the first valve and the second valve in parallel in circulating line On.

5. computer cluster cooling system according to claim 4, it is characterised in that second cooling duct is helical form Structure.

6. computer cluster cooling system according to claim 4, it is characterised in that second cooling duct is snakelike knot Structure.

7. computer cluster cooling system according to claim 4, it is characterised in that second cooling duct includes two Square cooling duct above；The two ends of the square cooling duct respectively with square duct liquid feeding end and square duct outlet end Communicate.