CN205726834U - Server cabinet with liquid cooling system - Google Patents

Abstract

This utility model relates to providing a kind of server cabinet with liquid cooling system, including cabinet body, the cold allocation unit of liquid and heat pipe for thermal conductivity unit, the cold allocation unit of described liquid includes feed tube, drain pipe, feed pipe and liquid back pipe, described heat pipe for thermal conductivity unit, described heat pipe for thermal conductivity unit includes liquid cooled module, heat pipe, heat-absorbing model, one end of described feed pipe is connected with described feed tube, the other end of described feed pipe is connected with the inlet of described liquid cooled module, one end of described liquid back pipe is connected with described drain pipe, the other end of described liquid back pipe is connected with the liquid outlet of described liquid cooled module, one end of described heat pipe is connected with described liquid cooled module, the other end of heat pipe is connected with heat-absorbing model, described heat-absorbing model contacts with the server thermal source of cabinet body.The utilization of heat pipe avoids coolant and enters server, the risk that reduction coolant leaks and makes server damage, and layout is simple, safeguards easy for installation, and server can increase and decrease flexibly.

Description

Server cabinet with liquid cooling system

Technical field

This utility model relates to server cabinet technical field of heat dissipation, particularly relates to a kind of with liquid cooling system Server cabinet.

Background technology

Along with advancing by leaps and bounds of information technology, data center also changes constantly occurring: equipment performance is rapid Promoting, power density dramatically increases, and high performance rack boxlike server and blade server and storage set Standby application is more and more universal, and Intel Virtualization Technology is increasingly being used for integrated service device and storage.This change Change directly results in data center's heat dissipation capacity and may rise to hundreds of kilowatt from original several kilowatts, data center The power density of machine room is continuously increased, and the cooling system of data center machine room is proposed challenge.

The radiating mode that data center machine room is traditional is by reducing whole data center machine room temperature to reach cold But the purpose of the data center machine room equipment such as server, this method not only serious waste electric power and also produce effects very It is micro-, it is impossible to thoroughly solving the hot issue of data center, it is the highest that a lot of data centers all exist row freight charges, The problems such as the poorest with extendibility can be safeguarded.Then heat dissipation technology is focused on and server internal thermal source, propose to work as Front more efficient, feasible liquid-cooling heat radiation scheme.The liquid cooling system of general device and frame and equipment close-coupled, Pipe-line layout, frame design, equipment cabling and plant maintenance are installed and are brought a lot of difficulty by this.And it is general Using and be placed directly on each main pyrotoxin by cold drawing, coolant flows through cold drawing, takes away heat from heat source, Pipe interface is more, and risk of leakage is big.

Summary of the invention

Based on this, it is necessary to for the defect of prior art, it is provided that a kind of server machine with liquid cooling system Cabinet, safeguards easy for installation, and disclosure risk is little.

Its technical scheme is as follows:

A kind of server cabinet with liquid cooling system, leads including cabinet body, the cold allocation unit of liquid and heat pipe Hot cell, the cold allocation unit of described liquid includes feed tube, drain pipe, feed pipe and liquid back pipe, described heat pipe Heat-conducting unit, described heat pipe for thermal conductivity unit includes liquid cooled module, heat pipe, heat-absorbing model, described feed pipe One end is connected with described feed tube, and the other end of described feed pipe is connected with the inlet of described liquid cooled module, One end of described liquid back pipe is connected with described drain pipe, the other end of described liquid back pipe and described liquid cooled module Liquid outlet connects, and one end of described heat pipe is connected with described liquid cooled module, the other end of heat pipe and heat-absorbing model Connecting, described heat-absorbing model contacts with the server thermal source of cabinet body.

Its further technical scheme is as follows:

One end that described feed pipe, liquid back pipe are connected with liquid cooled module is respectively equipped with the first snap joint, described The inlet of liquid cooled module, liquid outlet are respectively equipped with the second snap joint, described first snap joint, second Snap joint is mutually matched, and described first snap joint, the second snap joint have cutoff function.

Be provided with cooling duct in described liquid cooled module, the two ends of described cooling duct respectively with described inlet, Liquid outlet connects, and is connected by many heat pipes, the one of described heat pipe between described liquid cooled module and heat-absorbing model End is embedded in described liquid cooled module and near described cooling duct, second on described liquid cooled module quickly connects Head exposes to the server of described cabinet body.

It is provided with the first tapping valve near its porch, near its exit on described drain pipe on described feed tube It is provided with the second tapping valve.

The top of described feed tube is provided with first row air valve, and the top of described drain pipe is provided with second row air valve.

The described server cabinet with liquid cooling system also includes catch tray, and described catch tray is arranged on described First tapping valve, the lower section of the second tapping valve.

The described server cabinet with liquid cooling system includes multiple heat pipe for thermal conductivity unit, the cold distribution of described liquid Unit includes many feed pipes, many liquid back pipes, described feed tube along its axial direction spaced apart be provided with multiple First installing hole, described drain pipe is provided with multiple second installing hole, described in many along its axial direction is spaced apart One end of feed pipe connects with described first installing hole respectively, the other end of many described feed pipes respectively with heat Pipe heat-conducting unit connects, and one end of many described liquid back pipes connects with described second installing hole respectively, many institutes The other end stating liquid back pipe is connected with heat pipe for thermal conductivity unit respectively.

The described server cabinet with liquid cooling system includes two cold allocation units of described liquid, described in two The cold allocation unit of liquid is fixed on the front of described cabinet body or the not homonymy at the back side, cold point of same described liquid The feed tube joining unit is positioned at same side with liquid back pipe.

The described server cabinet with liquid cooling system includes multiple heat pipe for thermal conductivity unit, described feed tube with Described liquid back pipe is separately fixed at the front of cabinet body or the limit, two opposite sides at the back side, the cold distribution of described liquid Unit includes many feed pipes, many liquid back pipes, many first transverse tubes and many second transverse tubes, described in many One end of first transverse tube connects with described feed tube respectively, and the other end of many described first transverse tubes is fixed respectively In described cabinet body, one end of many described second transverse tubes connects with described drain pipe respectively, many institutes The other end stating the second transverse tube is separately fixed in described cabinet body, described first transverse tube is interval with many Individual 3rd installing hole, described second transverse tube is interval with multiple 4th installing hole, many described feed pipes One end connects with described 3rd installing hole respectively, the other end of many described feed pipes respectively with heat pipe for thermal conductivity list Unit connects, and one end of many described liquid back pipes connects with described 4th installing hole respectively, many described liquid back pipes The other end be connected with heat pipe for thermal conductivity unit respectively.

Described cabinet body includes frame and the multiple servers being arranged in frame, described heat pipe for thermal conductivity list Unit is respectively placed in described server, uses hydraulic equilibrium design in described feed pipe and liquid back pipe.

Advantage or principle to preceding solution illustrate below:

The above-mentioned server cabinet with liquid cooling system, low-temperature receiver inflow coolant, to feed tube, is redistributed to supply Liquid pipe enters liquid cooled module, flows into liquid back pipe again after absorbing heat, flows out to low-temperature receiver, release heat through drain pipe Amount, completes the natural cooling of server cabinet, has cooling effectiveness high, and power savings advantages is obvious, cool down uniformly, Without hot-spot, the feature little to ambient temperature effect；Heat-absorbing model contacts with the thermal source of server, will clothes Business device heat from heat source passes to be attached thereto the heat absorbing end of heat pipe, and heat is constantly delivered to by heat pipe from heat absorbing end Release end of heat, the heat of heat pipe release end of heat passes to flow through the coolant of liquid cooled module, and the utilization of heat pipe avoids Coolant enters server, the risk that reduction coolant leaks and makes server damage, and is somebody's turn to do cold with liquid The server cabinet of system, its pipe-line layout is simple, safeguards easy for installation, and server can increase and decrease flexibly.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the cold allocation unit of liquid described in this utility model embodiment；

Fig. 2 is the schematic diagram of this utility model embodiment addressed heat pipe for thermal conductivity unit；

Fig. 3 is the cold allocation unit of liquid described in this utility model embodiment and the assembling of two heat pipe for thermal conductivity unit is shown It is intended to；

Fig. 4 is the schematic diagram one of the server cabinet described in this utility model embodiment with liquid cooling system；

Fig. 5 is the schematic diagram two of the server cabinet described in this utility model embodiment with liquid cooling system；

Fig. 6 is the schematic diagram three of the server cabinet described in this utility model embodiment with liquid cooling system.

Description of reference numerals:

10, cabinet body, 110, frame, 120, server, 20, the cold allocation unit of liquid, 210, feed liquor Pipe, the 212, first tapping valve, 214, first row air valve, the 216, first installing hole, 220, drain pipe, 222, the second tapping valve, 224, second row air valve, the 226, second installing hole, 230, feed pipe, 240, Liquid back pipe, the 250, first snap joint, the 260, first transverse tube, the 262, the 3rd installing hole, 270, second Transverse tube, the 272, the 4th installing hole, 30, heat pipe for thermal conductivity unit, 310, liquid cooled module, 320, heat pipe, 330, Heat-absorbing model, the 340, second snap joint, 40, catch tray.

Detailed description of the invention

As shown in Figures 1 to 6, a kind of server cabinet with liquid cooling system, including cabinet body 10, liquid Cold allocation unit 20 and heat pipe for thermal conductivity unit 30, the cold allocation unit of described liquid 20 includes feed tube 210, goes out Liquid pipe 220, feed pipe 230 and liquid back pipe 240, described heat pipe for thermal conductivity unit 30, described heat pipe for thermal conductivity unit 30 include liquid cooled module 310, heat pipe 320, heat-absorbing model 330, and one end of described feed pipe 230 is with described Feed tube 210 connects, and the other end of described feed pipe 230 is connected with the inlet of described liquid cooled module 310, One end of described liquid back pipe 240 is connected with described drain pipe 220, the other end of described liquid back pipe 240 and institute The liquid outlet stating liquid cooled module 310 connects, and one end of described heat pipe 320 is connected with described liquid cooled module 310, The other end of heat pipe 320 is connected with heat-absorbing model 330, described heat-absorbing model 330 and the clothes of cabinet body 10 Business device 120 thermal source contact.

Low-temperature receiver inflow coolant, to feed tube 210, is redistributed to feed pipe 230 and enters liquid cooled module 310, inhale Flow into liquid back pipe 240 again after receiving heat, flow out to low-temperature receiver through drain pipe 220, discharge heat, complete server The natural cooling of 120, has cooling effectiveness high, and power savings advantages is obvious, cooling uniformly, without hot-spot, right The feature that ambient temperature effect is little；Heat-absorbing model 330 contacts with the thermal source of server 120, by server 120 Heat from heat source passes to be attached thereto the heat absorbing end of heat pipe 320, heat pipe 320 by heat from heat absorbing end not stealpass Being delivered to release end of heat, the heat of heat pipe 320 release end of heat passes to flow through the coolant of liquid cooled module 310, heat pipe The utilization of 320 avoids coolant and enters server 120, reduces coolant leakage and makes server 120 damage Risk, and should be with the server cabinet of liquid cooling system, its pipe-line layout is simple, safeguards easy for installation.

As Figure 1-3, one end that described feed pipe 230, liquid back pipe 240 are connected with liquid cooled module 310 is divided Not being provided with the first snap joint 250, the inlet of described liquid cooled module 310, that liquid outlet is respectively equipped with second is fast Quick coupling 340, described first snap joint the 250, second snap joint 340 is mutually matched, and described first Snap joint the 250, second snap joint 340 has cutoff function.By being provided with the first of cutoff function Snap joint the 250, second snap joint 340, makes between the cold allocation unit of liquid 20 and heat pipe for thermal conductivity unit 30 Hot plug can be realized, reduce risk of leakage further, and server 120 increases and decreases easily flexibly.During disconnection, First snap joint the 250, second snap joint 340 automatic-sealed, prevents coolant from leaking, when normally plugging, Zero water clock；Described first snap joint the 250, second snap joint 340 uses temperature range-50 DEG C～100 DEG C, Plug maximum pressure with pressure reaches 0.3Mpa.

As shown in Fig. 2,4-6, in described liquid cooled module 310, it is provided with cooling duct, the two of described cooling duct End connects with described inlet, liquid outlet respectively, logical between described liquid cooled module 310 and heat-absorbing model 330 Too much root heat pipe 320 connects, and one end of described heat pipe 320 is embedded in described liquid cooled module 310 and close Described cooling duct, the second snap joint 340 on described liquid cooled module 310 exposes to described cabinet body The server 120 of 10.Many of described heat pipe 320 quantity, heat pipe 320 shown in Fig. 2 is 3, many Heat pipe 320 can synchronize to be transferred to the heat on heat-absorbing model 330 liquid cooled module 310, described liquid cooled module The heat of described heat pipe 320 release end of heat is constantly passed to the coolant flow through from cooling duct by 310, improves Radiating efficiency, described heat pipe 320 is internal has the low volatile liquid of boiling point, and described heat pipe 320 has Plurality of specifications and shape, be applicable to different servers 120.Described liquid cooled module 310 is near server Outside 120, described second snap joint 340 exposes to server 120, can further avoid coolant and enter Enter server 120, reduce the risk of coolant leakage.

As Fig. 1,3, shown in 4-6, described feed tube 210 is provided with the first tapping valve 212 near its porch, It is provided with the second tapping valve 222 near its exit on described drain pipe 220.First discharge opeing described in the present embodiment Valve the 212212, second tapping valve 222 is manual drain valve, is located at described feed tube 210, drain pipe 220 Bottom, the convenient liquid discharged in described feed tube 210, drain pipe 220.The top of described feed tube 210 Being provided with first row air valve 214, the top of described drain pipe 220 is provided with second row air valve 224.In the present embodiment Described first row air valve 214, second row air valve 224 are automatic exhaust steam valve or manual exhaust valve, be located at described in enter Liquid pipe 210, drain pipe 220 top, for discharging the incoagulability in described feed tube 210, drain pipe 220 Gas.The described server cabinet with liquid cooling system also includes that catch tray 40, described catch tray 40 are arranged In the lower section of described first tapping valve the 212, second tapping valve 222, it is used for collecting and discharge described first discharge opeing The liquid that valve the 212, second tapping valve 222 is discharged.

As in Figure 3-5, the described server cabinet with liquid cooling system includes multiple heat pipe for thermal conductivity unit 30, the cold allocation unit of described liquid 20 includes many feed pipes 230, many liquid back pipes 240, described feed tube 210 are provided with multiple first installing hole 216 along its axial direction is spaced apart, and described drain pipe 220 is axially square along it Being provided with multiple second installing hole 226 to spaced apart, one end of many described feed pipes 230 is respectively with described first Installing hole 216 connects, and the other end of many described feed pipes 230 is connected with heat pipe for thermal conductivity unit 30 respectively, One end of many described liquid back pipes 240 connects with described second installing hole 226 respectively, many described liquid back pipes The other end of 240 is connected with heat pipe for thermal conductivity unit 30 respectively.Fig. 4 is unilateral manifold-type liquid cold allocation unit liquid The server cabinet of cooling system, its feed tube 210 and drain pipe 220 be positioned at described cabinet body 10 the same side, Fig. 5 is the server cabinet of bilateral manifold-type liquid cold allocation unit liquid cooling system, and it includes that two described liquid are cold Allocation unit 20, two cold allocation units of described liquid 20 are fixed on front or the back side of described cabinet body 10 Not homonymy, the feed tube 210 of the same cold allocation unit of described liquid 20 and liquid back pipe 240 are positioned at the same side Limit.Can realize multiple servers 120 are dispelled the heat simultaneously, and be easy to the increase of server 120 or subtract Few, it is more suitable for rack boxlike server 120.

Fig. 6 is the server cabinet of lattice liquid cold allocation unit liquid cooling system, and it includes multiple heat pipe for thermal conductivity Unit 30, described feed tube 210 and described liquid back pipe 240 be separately fixed at cabinet body 10 front or The limit, two opposite sides at the back side, the cold allocation unit of described liquid 20 include many feed pipes 230, many liquid back pipes 240, Many first transverse tubes 260 and many second transverse tubes 270, one end of many described first transverse tubes 260 respectively with institute Stating feed tube 210 to connect, the other end of many described first transverse tubes 260 is separately fixed at described cabinet body On 10, one end of many described second transverse tubes 270 connects with described drain pipe 220 respectively, many described The other end of two transverse tubes 270 is separately fixed in described cabinet body 10, and described first transverse tube 260 is spaced It is provided with multiple 3rd installing hole 262, described second transverse tube 270 is interval with multiple 4th installing hole 272, One end of many described feed pipes 230 connects with described 3rd installing hole 262 respectively, many described feed pipes The other end of 230 is connected with heat pipe for thermal conductivity unit 30 respectively, one end of many described liquid back pipes 240 respectively with Described 4th installing hole 272 connects, the other end of many described liquid back pipes 240 respectively with heat pipe for thermal conductivity unit 30 connect.Can realize multiple servers 120 are dispelled the heat simultaneously, and be easy to server 120 increase or Person reduces, and is more suitable for blade server 120.

As Figure 4-Figure 6, described cabinet body 10 includes frame 110 and is arranged in frame 110 many Individual server 120, described heat pipe for thermal conductivity unit 30 is respectively placed in described server 120, described feed pipe 230 and liquid back pipe 240 in use hydraulic equilibrium design, the cold allocation unit of described liquid 20 can be realized to each service Described heat pipe for thermal conductivity unit 30 uniform distribution coolant on device 120.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the most right The all possible combination of each technical characteristic in above-described embodiment is all described, but, if these skills There is not contradiction in the combination of art feature, is all considered to be the scope that this specification is recorded.

Embodiment described above only have expressed several embodiments of the present utility model, its describe more concrete and In detail, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, For the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to Making some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, this utility model The protection domain of patent should be as the criterion with claims.

Claims (10)

1. the server cabinet with liquid cooling system, it is characterised in that include cold point of cabinet body, liquid Joining unit and heat pipe for thermal conductivity unit, the cold allocation unit of described liquid includes feed tube, drain pipe, feed pipe and returns Liquid pipe, described heat pipe for thermal conductivity unit, described heat pipe for thermal conductivity unit includes liquid cooled module, heat pipe, heat-absorbing model, One end of described feed pipe is connected with described feed tube, the other end of described feed pipe and described liquid cooled module Inlet connects, and one end of described liquid back pipe is connected with described drain pipe, the other end of described liquid back pipe and institute The liquid outlet stating liquid cooled module connects, and one end of described heat pipe is connected with described liquid cooled module, another of heat pipe End is connected with heat-absorbing model, and described heat-absorbing model contacts with the server thermal source of cabinet body.

2. as claimed in claim 1 with the server cabinet of liquid cooling system, it is characterised in that described confession One end that liquid pipe, liquid back pipe are connected with liquid cooled module is respectively equipped with the first snap joint, described liquid cooled module Inlet, liquid outlet are respectively equipped with the second snap joint, described first snap joint, the second snap joint phase Coupling, and described first snap joint mutually, the second snap joint have cutoff function.

3. as claimed in claim 2 with the server cabinet of liquid cooling system, it is characterised in that described liquid Being provided with cooling duct in chill block, the two ends of described cooling duct connect with described inlet, liquid outlet respectively, Being connected by many heat pipes between described liquid cooled module and heat-absorbing model, one end of described heat pipe is embedded at described In liquid cooled module and near described cooling duct, the second snap joint on described liquid cooled module exposes to described The server of cabinet body.

4. as claimed in claim 2 with the server cabinet of liquid cooling system, it is characterised in that described in enter It is provided with the first tapping valve near its porch on liquid pipe, described drain pipe is provided with second row near its exit Liquid valve.

5. as claimed in claim 2 with the server cabinet of liquid cooling system, it is characterised in that described in enter The top of liquid pipe is provided with first row air valve, and the top of described drain pipe is provided with second row air valve.

6. as claimed in claim 4 with the server cabinet of liquid cooling system, it is characterised in that it also wraps Including catch tray, described catch tray is arranged on described first tapping valve, the lower section of the second tapping valve.

7. the server cabinet with liquid cooling system as described in any one of claim 1 to 6, its feature exists In, it includes that multiple heat pipe for thermal conductivity unit, the cold allocation unit of described liquid include many feed pipes, many times liquid Pipe, described feed tube is provided with multiple first installing hole along its axial direction is spaced apart, and described drain pipe is along its axle Spaced apart to direction be provided with multiple second installing hole, one end of many described feed pipes respectively with described first peace The connection of dress hole, the other end of many described feed pipes is connected with heat pipe for thermal conductivity unit respectively, returns liquid described in many One end of pipe connects with described second installing hole respectively, and the other end of many described liquid back pipes is led with heat pipe respectively Hot cell connects.

8. as claimed in claim 7 with the server cabinet of liquid cooling system, it is characterised in that it includes Two cold allocation units of described liquid, two cold allocation units of described liquid be fixed on described cabinet body front or The not homonymy at the back side, the feed tube of the same cold allocation unit of described liquid and liquid back pipe are positioned at same side.

9. the server cabinet with liquid cooling system as described in any one of claim 1 to 6, its feature exists In, it includes that multiple heat pipe for thermal conductivity unit, described feed tube and described liquid back pipe are separately fixed at cabinet body Front or the limit, two opposite sides at the back side, the cold allocation unit of described liquid include many feed pipes, many return liquid Pipe, many first transverse tubes and many second transverse tubes, one end of many described first transverse tubes respectively with described feed liquor Pipe connects, and the other end of many described first transverse tubes is separately fixed in described cabinet body, many described the One end of two transverse tubes connects with described drain pipe respectively, and the other end of many described second transverse tubes is separately fixed at In described cabinet body, described first transverse tube is interval with multiple 3rd installing hole, on described second transverse tube Being interval with multiple 4th installing hole, one end of many described feed pipes connects with described 3rd installing hole respectively, The other end of many described feed pipes is connected with heat pipe for thermal conductivity unit respectively, and one end of many described liquid back pipes is divided Not connecting with described 4th installing hole, the other end of many described liquid back pipes is connected with heat pipe for thermal conductivity unit respectively.

10. as claimed in claim 7 with the server cabinet of liquid cooling system, it is characterised in that described Cabinet body includes frame and the multiple servers being arranged in frame, and described heat pipe for thermal conductivity unit is put respectively In described server, in described feed pipe and liquid back pipe, use hydraulic equilibrium design.