CN102759971B - Container-type data center group - Google Patents

Abstract

A kind of container-type data center group, including n container-type data center and n+1 refrigeration system, wherein, n is natural number.Each equal center of described container type data includes first container and multiple server system being arranged in the first container, described n+1 refrigeration system is the most alternately arranged with described n container-type data center, makes the opposite sides of each container-type data center be respectively provided with a refrigeration system.Each described refrigeration system all includes second container and multiple refrigeration plant being arranged in the second container, each described second container is all connected with the first container being adjacent, and each described container-type data center is by two the refrigeration system refrigeration being adjacent.

Description

Container-type data center group

Technical field

The present invention relates to a kind of data center, particularly relate to a kind of container-type data center group.

Background technology

One container-type data center includes the server system in container and container and refrigeration plant.Refrigeration plant and server system are positioned in same container, not manageability and arranging on a large scale；Additionally, due to limited space in container, in the design process of container-type data center, it is accomplished by considering server system and refrigeration plant reasonable placement, difficulty certainly will be brought to the design of container-type data center, and server system is positioned in same container with refrigeration plant, and the space in container can be made to seem crowded, affect air circulation, unfavorable to heat radiation.

Summary of the invention

In view of the above circumstances, the invention provides a kind of design, convenient management and can the container-type data center group of fairly large setting.

A kind of container-type data center group, including n container-type data center and n+1 refrigeration system, each described container-type data center all includes first container and multiple server system being arranged in the first container, described n+1 refrigeration system is the most alternately arranged with described n container-type data center, the opposite sides making each container-type data center is respectively provided with a refrigeration system, each described refrigeration system all includes second container and multiple refrigeration plant being arranged in the second container, each described second container is all connected with the first container being adjacent, each described container-type data center is by two the refrigeration system refrigeration being adjacent, wherein, n is natural number.

Compared to prior art, the refrigeration system of the container-type data center group that the present invention provides and data center's diversity vanning setting, make production and maintenance management the most very convenient, and, this container-type data center group includes n container-type data center and n+1 refrigeration system, each described container-type data center is by two the refrigeration system refrigeration being adjacent, and n can arbitrarily be arranged, therefore can arrange on a large scale.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the first embodiment of the container-type data center group of the present invention.

Fig. 2 is the schematic diagram of the second embodiment of the container-type data center group of the present invention.

Main element symbol description

Container-type data center group	10,20
		Container-type data center	12,22
Refrigeration system	14,24
		First container	121,221
Server system	122,222
		First roof	1211
First diapire	1212
		The first side wall	1213
First cold passage	123
		Second cold passage	125
The passage of heat	124
		First perforate	1214
Second perforate	1215
		Raised floor	1216
Ventilation gate hole	1217
		Dividing plate	1218
Air guide channel	1219
		Second container	141,241
Refrigeration plant	142,242
		Extractor fan	143,243
Second roof	1411,2411
		Second diapire	1412,2412
Second sidewall	1413,2413
		3rd perforate	1414,2414
4th perforate	1415,2415

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Refer to Fig. 1, the container-type data center group 10 of the technical program first embodiment includes a container-type data center 12 and two refrigeration systems 14, described container-type data center 12 is between said two refrigeration system 14 and close-packed arrays, and described container-type data center 12 is freezed by two refrigeration systems 14 being adjacent.

Described container-type data center 12 includes first container 121 and multiple server system 122 being arranged in described first container 121.Described first container 121 includes 1211, first diapire 1212 relative with described first roof 1211 of first roof and connects two relative the first side walls 1213 of described first roof 1211 and the first diapire 1212.The plurality of server system 122 is arranged in described first container 121, and the plurality of server system 122 is arranged to two rows, is disposed adjacent with these two the first side walls 1213 respectively, often arranges and all include multiple server system 122.The the first cold passage 123 server system 122 cooled down for cold air circulation it is provided with between two row's server systems 122, and be provided with between the adjacent server system 122 in same row and circulate the second cold passage 125 that server system 122 is cooled down for cold air, being provided with the passage of heat 124 of heating air circulation between the first side wall 1213 of described first container 121 that server system 122 is adjacent, the hot-air that the described passage of heat 124 is formed after absorbing heat in by the first cold passage 123 and the second cold passage 125 is discharged.The first side wall 1213 of described first container 121 offers multiple first perforate 1214 near the position of the first roof 1211, and the first perforate 1214 is used as the import of cold air；The first side wall 1213 of described first container 121 offers multiple second perforate 1215 near the position of the first diapire 1212, and described second perforate is used as hot air outlet.The internal position near the first diapire 1212 of described first container 121 is provided with raised floor 1216, and described raised floor 1216 is provided with ventilation gate hole 1217 at the intersection with the described passage of heat 124, described ventilation gate hole 1217 communicates with described second perforate 1215.The position of internal neighbouring first roof 1211 of described first container 121 is provided with dividing plate 1218 and connecting partition 1218 and multiple baffle plate (not shown) of the first roof 1211, space between described first roof 1211 and described dividing plate 1218 is divided into multiple air guide channel 1219 for air circulation by the plurality of baffle plate, the one end open of the plurality of air guide channel 1219 is corresponding with the plurality of first perforate 1214 respectively to be connected, and the other end opening of described air guide channel 1219 communicates with described first cold passage 123.

Described refrigeration system 14 includes second container 141, multiple refrigeration plant 142 being arranged in described second container 141 and multiple extractor fan 143 being correspondingly arranged on described refrigeration plant 142.Described second container 141 includes 1411, second diapire 1412 relative with described second roof 1411 of second roof and connects relative two second sidewalls 1413 of described second roof 1411 and the second diapire 1412.Described second sidewall 1413 leans said two the first side wall 1213 with one of two the second containers 141 respectively.Described refrigeration plant 142 is disposed in proximity to the side of described the first side wall 1213, and cold wind air outlet is towards described second roof 1411.The second sidewall 1413 near described the first side wall 1213 offers multiple 3rd perforate 1414, described 3rd perforate 1414 and described first perforate 1214 position alignment also connect, described 3rd perforate 1414 is used as inlet of cold air, the second sidewall 1413 near described the first side wall 1213 offers multiple 4th perforate 1415, and described 4th perforate 1415 is corresponding with described second perforate 1215 position and connects.In the present embodiment, described refrigeration plant 142 is air-conditioning.Described extractor fan 143 can be fan or aerator.

Wind direction in first container 121 and the second container 141 is as shown in direction arrow A, B, C, D, E.nullDuring work，Refrigeration plant 142 and extractor fan 143 operate，The cold air that refrigeration plant 142 produces flows through the 3rd perforate 1414 successively along A direction、First perforate 1214 and air guide channel 1219，Then the cold passage 123 of first between two row's server systems 122 is flowed downwardly into along B direction，Thus form malleation in this first cold passage 123，Air is continued along C direction and flows into the second cold passage 125 between each row's server system 122，Server system 122 is cooled down，Now，Cold air absorbs the heat of server system 122 and forms hot-air and the effect due to air pressure continues to flow to the passage of heat 124，And hot-air flows along D direction due to the air-extraction function of free convection and refrigeration plant 142，It is directed under raised floor by described ventilation gate hole 1217，Thereafter，Hot-air does cold and hot exchange in sucking refrigeration plant 142 along E direction by the 4th perforate 1415 and the second perforate 1215，Produce cold air again to flow along A direction，As above circulate.

It is appreciated that described server system 122 can also be in multiple rows of arrangement or random be arranged in described first container 121；Described air guide channel 1219 can also be the pipeline directly connected with described first perforate 1214, such as plastic tube and steel pipe etc., dividing plate 1218 and baffle plate will replace with breather line, and the other end of described pipeline communicates with described first cold passage 123；Described first perforate the 1214, the 3rd perforate 1414 can also be arranged at other position of the first container, the second container, on the first roof and the second roof, now the first perforate 1214 can be connected with the 3rd perforate 1414 by guide pipeline；Described first perforate 1214 and the 3rd perforate 1414 and the second perforate 1215 can also be arranged to not align with the position of the 4th perforate 1415, pass through pipeline communication respectively between described 3rd perforate 1414 and described first perforate 1214 and between the 4th perforate 1415 and described second perforate 1215.

Refer to Fig. 2, the container-type data center group 20 of the technical program the second embodiment includes two container-type data centers 22 and three refrigeration systems 24, described container-type data center 22 is the most alternately arranged with described refrigeration system 24, and each described container-type data center 22 is freezed by two refrigeration systems 24 being adjacent.

Described container-type data center 22 is identical with the container-type data center 12 of first embodiment.

Two described refrigeration systems 24 in the outside of container-type data center group 20 are identical with the structure of the two of first embodiment refrigeration systems 14.

Described refrigeration system 24 between two container-type data centers 22 includes second container 241, multiple refrigeration plant 242 being arranged in described second container 241 and multiple extractor fan 243 being correspondingly arranged in above described refrigeration plant 242.Described second container 241 includes 2411, second diapire 2412 relative with described second roof 2411 of second roof and connects described second roof 2411 and relative two second sidewalls 2413 of the second diapire 2412.Leaning on mutually of two container-type data centers 22 that described two second sidewalls 2413 are adjacent respectively.242 point of two row of described refrigeration plant is respectively arranged at said two the second sidewall 2413 side, in order to provide cold air to two neighbouring described server systems 222 respectively.It is corresponding the most identical in the position of the second sidewall 1413 and effect with the 3rd perforate 1414 in first embodiment and the 4th perforate 1415 that described second sidewall 2413 offers multiple 3rd perforates 2414 and multiple 4th perforate 2415 being connected with adjacent container-type data center 22, described 3rd perforate 2414 and the position at the second sidewall 2413 of the 4th perforate 2415 and effect.Described extractor fan 243 can be fan or aerator.

Airflow direction in first container 221 of two container-type data centers 22 and the second container 241 of three refrigeration systems 24 is similar with first embodiment.

It is appreciated that, described container-type data center group 20 can extend to include n container-type data center 22 and n+1 refrigeration system 24, wherein, n is natural number, described n container-type data center 22 arranges with described n+1 refrigeration system 24 spacing side by side, and described container-type data center 22 is freezed by two refrigeration systems 24 being adjacent.

Compared to prior art, the refrigeration system of the container-type data center group 10,20 that the technical program provides and data center's diversity vanning setting, make production and maintenance management the most very convenient；Additionally, because refrigeration system removes from the container of container-type data center, in making to arrange the container of data center, space increases, and is more prone to so that design is put in the inside of container-type data center, become with time space and ventilate greatly faster, better heat-radiation effect.And, the container-type data center group 10,20 that the technical program provides can include n container-type data center 12,22 and n+1 refrigeration system 14,24, described container-type data center 12,22 is by two refrigeration systems 14,24 refrigeration being adjacent, n can arbitrarily be arranged, and makes container-type data center group 10,20 to arrange on a large scale.

It addition, those skilled in the art can also do other change, certainly, these changes done according to present invention spirit in spirit of the present invention, within all should being included in scope of the present invention.

Claims (9)

1. a container-type data center group, including: n container-type data center, wherein, N is natural number, each described container-type data center all include first container and Multiple server systems being arranged in the first container；And n+1 refrigeration system, described N+1 refrigeration system is the most alternately arranged with described n container-type data center, makes every The opposite sides of individual container-type data center is respectively provided with a refrigeration system, each described refrigeration System all includes that second container and multiple refrigeration being arranged in the second container set Standby, each described second container is all connected with the first container being adjacent, each Container-type data center is freezed by two refrigeration systems being adjacent, and each described first The opposite sides of container is provided with multiple first perforate and multiple second perforate, Qi Zhongsuo State multiple first perforate and lay respectively at the relative of described first container with multiple second perforates Upper and lower, the sides adjacent with described first container of described second container is provided with Multiple 3rd perforates and the 4th perforate, described 3rd perforate is positioned at the upper of described second container Portion is also connected with the first perforate this described, and described 4th perforate is positioned at described second container Bottom and be connected with described second perforate, described refrigeration plant has a cold air outlet, Described cold air outlet is adjacent with described 3rd perforate, and described 3rd perforate is described first packaging The inlet of cold air of case, described 4th perforate is the hot air outlet of described first container.

2. container-type data center group as claimed in claim 1, it is characterised in that Mei Gesuo State refrigeration system and farther include the extractor fan that arrange neighbouring with described 3rd perforate, be used for Cold air produced by described refrigeration plant is pumped to the 3rd tapping.

3. container-type data center group as claimed in claim 2, it is characterised in that respectively service It is provided with multiple cold passage between device system, sets between server system and the first container side wall The passage of heat, described cold passage is had to be used for being passed through by described 3rd perforate described first packaging of entrance Server system is cooled down by the cold air of case, and the described passage of heat is in order to will inhale in cold passage Receiving the air after heat to discharge, the described passage of heat communicates with described second perforate.

4. container-type data center group as claimed in claim 3, it is characterised in that described the One container includes first roof and first end relative with described first roof Wall, described first internal container is provided with raised floor near the position of the first diapire, institute State raised floor and be provided with ventilation gate hole, described ventilation gate hole at the intersection with the described passage of heat Connect the described passage of heat and described second perforate.

5. container-type data center group as claimed in claim 4, it is characterised in that described the One internal container is provided with multiple air guide channel, and described air guide channel connects described first perforate And described cold passage.

6. container-type data center group as claimed in claim 5, it is characterised in that described the One internal container is provided with dividing plate and connecting partition and roof adjacent to the position of the first roof Multiple baffle plates, described first roof, dividing plate and baffle plate form multiple leading for air circulation Gas passage, the one end open of described air guide channel is connected with described first perforate, the other end Opening communicates with described cold passage.

7. container-type data center group as claimed in claim 5, it is characterised in that described in lead Gas passage system's described first perforate of connection and the pipeline of described cold passage.

8. container-type data center group as claimed in claim 7, it is characterised in that described system Cold charge is set to air-conditioning, and described extractor fan is fan.

9. container-type data center group as claimed in claim 1, it is characterised in that described the One container includes the first side wall adjacent with described second container, described second container Including second sidewall adjacent with described first container, described first perforate and the second perforate Being opened in described the first side wall, described 3rd perforate and the 4th perforate are opened in described second side Wall.