CN204291654U - A kind of data center, server module and refrigeration module - Google Patents

Abstract

The utility model discloses a kind of data center, server module and refrigeration module, belong to field of Internet communication.Described method comprises: field of Internet communication.Described data center comprises: server module and refrigeration module, and described server module comprises multiple server cabinet and at least one first transport case; The air inlet of described refrigeration module and air outlet communicate with the air outlet of described first transport case and air inlet respectively, described multiple server cabinet divides arranged in rows in described first transport case, adjacent two row server cabinets vis-a-vis time form cold passage or the back side relative time composition the passage of heat.The utility model reduces the time of building data center.

Description

A kind of data center, server module and refrigeration module

Technical field

The utility model relates to field of Internet communication, particularly a kind of data center, server module and refrigeration module.

Background technology

Data center is the set of numerous equipment composition, and large portion is all server cabinet in such devices, and these server cabinets are placed in data center according to layout requirements.Because server cabinet can send a large amount of heat when normally working, server cabinet temperature is raised, therefore when setting up data center, if cooling server cabinet is also one of problem needing consideration.

As shown in Figure 1, the data center of prior art comprises: machine room, raised floor a, server cabinet b and air-conditioning equipment c; Raised floor a is laid on the ground d of machine room, and there is passage e between raised floor a and ground d.Air-conditioning equipment c is placed on the raised floor a of the one-sided of this machine room or both sides, on the raised floor a that server cabinet b divides many rows to be closely placed in the middle part of this machine room; Raised floor a below air-conditioning equipment c has air outlet h, and the raised floor a between two server cabinet b has ventilation hole m.Cold wind is produced in air-conditioning equipment c; To be blown to by this cold wind in the passage e between raised floor a and ground d by the air outlet h of raised floor a below it, the ventilation hole m that the cold wind then in passage e has from raised floor a delivers to server cabinet b, cools server cabinet b to complete.

Realizing in process of the present utility model, inventor finds that prior art at least exists following problem:

Data center comprises a large amount of server cabinets, needs to build machine room and places, and builds machine room and lay raised floor and all need the longer time, makes to build time of data center longer.

Utility model content

In order to reduce the time of building data center, the utility model provides data center, server module and refrigeration module.Described technical scheme is as follows:

A kind of data center, described data center comprises:

Server module and refrigeration module, described server module comprises multiple server cabinet and at least one first transport case;

The air inlet of described refrigeration module and air outlet communicate with the air outlet of described first transport case and air inlet respectively, described multiple server cabinet divides arranged in rows in described first transport case, adjacent two row server cabinets vis-a-vis time form cold passage or the back side relative time composition the passage of heat.

A kind of server module, comprising:

Multiple server cabinet and at least one first transport case;

Described multiple server cabinet divides arranged in rows in described first transport case, adjacent two row server cabinets vis-a-vis time form cold passage or the back side relative time composition the passage of heat, described first transport case comprises air inlet and air outlet.

A kind of refrigeration module, described refrigeration module comprises:

Second blower fan, heat exchanger, the first filter and the second transport case;

Described second blower fan, described heat exchanger and described first filter are arranged in described second transport case, described heat exchanger is between described second blower fan and described first filter, described second blower fan is between the air outlet and the first air outlet of described heat exchanger of described second transport case, and described first filter bits is between the air inlet and the first air inlet of described heat exchanger of described second transport case.

In the utility model embodiment, multiple server cabinet is arranged in the first transport case and just forms server module, so in factory, can carry out Prefabrication to server module, and can facilitate transportation servers module.When will build data center in certain place, only need that server module and refrigeration module are transported to this place and assemble, just can set up a data center, improve the efficiency of building data center, greatly reduce the time of building required for data center.

Accompanying drawing explanation

Fig. 1 is a kind of data center structural representation that prior art provides;

Fig. 2 is the first data center's structural representation that the utility model embodiment 1 provides;

Fig. 3 a and 3b is the first server module structure schematic diagram that the utility model embodiment 1 provides;

Fig. 4 a and 4b is the second data center structural representation that the utility model embodiment 1 provides;

Fig. 5 is the fan housing that provides of the utility model embodiment 1 and server module position graph of a relation;

Fig. 6 is a kind of fan housing structure schematic diagram that the utility model embodiment 1 provides;

Fig. 7 is the second server module structure schematic diagram that the utility model embodiment 1 provides;

Fig. 8 is the third data center's structural representation that the utility model embodiment 1 provides;

Fig. 9 is the first refrigeration module structural representation that the utility model embodiment 1 provides;

Figure 10 is the heat exchanger structure schematic diagram that the utility model embodiment 1 provides;

Figure 11 is the building block structural representation of the refrigeration module that the utility model embodiment 1 provides;

Figure 12 is the second refrigeration module structural representation that the utility model embodiment 1 provides;

Figure 13 is the 4th kind of data center's structural representation that the utility model embodiment 1 provides;

Figure 14 is the 5th kind of data center's structural representation that the utility model embodiment 1 provides;

Figure 15 is the 6th kind of data center's structural representation that the utility model embodiment 1 provides.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model execution mode is described in further detail.

Embodiment 1

See Fig. 2, the utility model embodiment provides a kind of data center, comprising:

Server module 1 and refrigeration module 2, server module 1 comprises multiple server cabinets 11 and at least one first transport case 12;

The air inlet of refrigeration module 2 and air outlet communicate with the air outlet of the first transport case 12 and air inlet respectively, the plurality of server cabinet 11 points of arranged in rows in the first transport case 12, adjacent two row server cabinets 11 vis-a-vis time form cold passage or the back side relative time composition the passage of heat.

Wherein, refrigeration module 2 extracts hot-air out from the air outlet of the first transport case 12, cooling is carried out to this hot-air and obtains cold air, again by the cold passage that this cold air consists of any two row's server cabinets 11 that the air inlet of the first transport case 12 blows in the first transport case 12, to cool this two rows server cabinet 11.

Wherein, multiple server cabinet 11 is arranged in the first transport case 12 and just forms server module 1, so in factory, can carry out Prefabrication to server module 1, and can facilitate transportation servers module 1.Refrigeration module 2 can be the refrigeration plants such as air-conditioning, when will build data center in certain place, only need that server module 1 and refrigeration module 2 are transported to this place to assemble, just a data center can be set up, improve the efficiency of building data center, greatly reduce the time of building required for data center.

See Fig. 3 a and Fig. 3 b, present embodiments provide a kind of preferred implementation of server module 1, in this preferred implementation:

First transport case 12 can comprise: one or more air inlet, on the side that the air inlet of the first transport case 12 is positioned at the first transport case 12 or top (air outlet of the first transport case 12 shown in Fig. 3 b is positioned on a side), and the below of each air inlet is the cold passage that two row's server cabinets 11 form.

Preferably, immediately below each air inlet be the cold passage that two row's server cabinets 11 form.

Further, see Fig. 4 a, Fig. 4 b and Fig. 5, this data center also comprises:

Fan housing 3, fan housing 3 is positioned at the top of the first transport case 12, the air inlet of fan housing 3 and the air outlet slitless connection of refrigeration module 2, the lower air port of fan housing 3 and the air inlet slitless connection of the first transport case 12.

See Fig. 4 a and Fig. 6, fan housing 3 comprises air-supply passage 31 and at least one lower air port 32;

The air inlet of air-supply passage 31 and the air outlet slitless connection of refrigeration module 2, each lower air port 32 at least one lower air port 32 is fixed on air-supply passage 31.

Wherein, the air outlet of refrigeration module 2 is by the air inlet slitless connection of airduct and fan housing 3, and the air inlet of refrigeration module 2 is by the air outlet slitless connection of airduct and the first transport case 12.

Refrigeration module 2 extracts hot-air out from the air outlet of the first transport case 12, cooling is carried out to this hot-air and obtains cold air, this cold air is blowed in the air-supply passage 31 of fan housing 3 by the air inlet of the first transport case 12, cold air transmits and the cold passage consisted of any two row's server cabinets 11 that each lower air port 32 blows in the first transport case 12 in air-supply passage 31, to cool this two rows server cabinet 11.

See Fig. 7 and Fig. 8, present embodiments provide the another kind of preferred implementation of server module 1, in this another kind of preferred implementation:

First transport case 12 comprises: casing 121, air-supply passage 122 and at least one lower air port 123, and air-supply passage 122 is positioned at the top of casing 121, the air inlet of air-supply passage 122 and the air outlet slitless connection of refrigeration module 2;

Each lower air port 123 at least one lower air port 123 is arranged on air-supply passage 122, and the below in each lower air port 123 is the cold passage that two row's server cabinets 11 form.

Preferably, immediately below each lower air port 123 be the cold passage that two row's server cabinets 11 form.

Further, the first transport case 12 also comprises:

At least one first blower fan (not drawing in the drawings), corresponding one or more first blower fan in each lower air port 123.For any one lower air port 123, the first assembling of this lower air port 123 correspondence is in this lower air port 123.

Wherein, refrigeration module 2 extracts hot-air out from the air outlet of the first transport case 12, cooling is carried out to this hot-air and obtains cold air, from the air outlet of himself, this cold air is blowed in air-supply passage 122 by the air inlet of air-supply passage 122, cold air transmits in air-supply passage 122, the first blower fan be arranged in each lower air port 123 on air-supply passage 122 extracts cold air from air-supply passage 122, again cold air is blown to the cold passage that any two row's server cabinets 11 in the first transport case 12 form, to cool this two rows server cabinet 11.

Further, the first transport case 12 also comprises:

At least one air velocity transducer (not drawing in the drawings), the corresponding one or more air velocity transducer in each lower air port 123.For any one lower air port 123, the air velocity transducer of this lower air port 123 correspondence to be arranged in this lower air port 123 and to be positioned at the below of first blower fan in this lower air port 123.

In order to ensure that often arranging server cabinet 11 is cooled all uniformly, detect that each lower air port 123 blows out the wind speed of cold air by air velocity transducer, according to the wind speed detected, the power of the first blower fan in lower air port 123 is installed in adjustment, makes the wind speed of the cold air blown out from each lower air port 123 identical.

See Fig. 9, refrigeration module 2 comprises:

Second blower fan 21, heat exchanger 22, first filter 23 and the second transport case 24;

Second blower fan 21, heat exchanger 22 and the first filter 23 are arranged in the second transport case 24, heat exchanger 22 is between the second blower fan 21 and the first filter 23, second blower fan 21 is between the air outlet and the first air outlet of heat exchanger 22 of the second transport case 24, and the first filter 23 is between the air inlet and the first air inlet of heat exchanger 22 of the second transport case 24;

The air outlet of the second transport case 24 communicates with the air inlet of the first transport case 12, and the air inlet of the second transport case 24 communicates with the air outlet of the first transport case 12.

Preferably, the air outlet of the second transport case 24 and the air inlet slitless connection of fan housing 3, or, the air inlet slitless connection of the air-supply passage 122 in the air outlet of the second transport case 24 and the first transport case 12.

Wherein, first blower fan 21 rotates the cold air extracted in heat exchanger 22, make to be arranged in the filtration of hot-air through the first filter 23 of the first transport case 12, to filter out the materials such as dust in hot-air, hot-air after filtering is delivered to heat exchanger 22, heat exchanger 22 carries out cooling to this hot-air and obtains cold air, and then extract cold air by the first blower fan 21 and the cold air of extraction is transported to the cold passage of any two row's server cabinets 11 in the first transport case 12, to cool this two rows server cabinet 11 from air outlet.

Wherein, heat exchanger 22 can be air-conditioning equipment, and heat exchanger 22 can cool the hot-air flowed into wherein.Or can input cooling agent from outside to heat exchanger 22, heat exchanger 22 can be cooled the hot-air flowed into wherein by cooling agent.

See Figure 10, there are the first air inlet and the first air outlet in the left and right sides of heat exchanger 22, and also has the second air inlet and the second air outlet at the top of heat exchanger 22.

Further, see Figure 11, refrigeration module 2 also comprises:

The middle part of the 3rd blower fan 25, second filter 26 and the 3rd transport case the 27, three transport case 27 separates with a baffle plate, and the bottom of the 3rd transport case 27 has the first air port and the second air port, and the first air port and the second air port are positioned at the both sides of this plate washer;

See Figure 12, the second air inlet being positioned at the top of heat exchanger 22 communicates with the second air port, and the second filter 26 is arranged in the 3rd transport case 27, and between the second air port and the air inlet of the 3rd transport case 27; The second air inlet being positioned at the top of heat exchanger 22 communicates with the first air port, and the 3rd blower fan 25 is arranged in the 3rd transport case 27, and between the first air port and the air outlet of the 3rd transport case 27.

Wherein, air inlet and the air outlet of the 3rd transport case 27 communicate with external environment, and the air themperature in external environment will lower than the air themperature in the first transport case 12.Comprise heat exchanger coils in heat exchanger 22, one end of heat exchanger coils is connected with the second air inlet of heat exchanger 22, and the other end of heat exchanger coils is connected with the second air outlet of heat exchanger 22.

Second blower fan 25 rotates the air extracting and be arranged in heat exchanger coils, make the cold air in external environment through the filtration of the second filter 26, to filter the materials such as dust in this cold air, cold air after filtration enters heat exchanger coils from the second air inlet of heat exchanger 22 again, second blower fan 25 extracting air from heat exchanger coils, and from the air outlet of the 3rd delivery casing 27, the air of extraction is blowed to the external world.

First blower fan 21 rotates the air extracting and be arranged in heat exchanger 22, the hot-air in the first transport case 12 is made to enter heat exchanger 22 after the filtration of the first filter 23, in heat exchanger 22, hot-air carries out heat exchange with the cold air being arranged in heat exchanger coils, and convert cold air to, first blower fan 21 extracts cold air from heat exchanger 22, and is blown in the first transport case 12 by the cold air of extraction.

Wherein, the size of the first transport case 12, second transport case 24 and the 3rd transport case 27 is all the standard dimensions of transport case.The standard dimensions of transport case to be the length of casing be 12 meters, wide be 2.4 meters and height be 2.4 meters, 6 meters, wide be 2.4 meters and height be 2.4 meters, 12 meters, wide be 2.4 meters and height be 2.9 meters, or, 12 meters, wide be 2.4 meters and height be 2.9 meters.So make server module 1 and refrigeration module 2 can transport in each highway in the whole nation.

Wherein, server module 1 and refrigeration module 2 can be powered by current already present power distribution room.See Figure 13, in order to improve the flexibility setting up data center, in data center, Power entry module 4 can also be comprised.

Power entry module 4 comprises: power distribution cabinet, at least one battery and at least one rectification circuit, and power distribution cabinet comprises the output of the different electric current of multiple output;

One or more outputs in the corresponding power distribution cabinet of refrigeration module 2, the one or more outputs in each server cabinet 11 difference a corresponding battery, a rectification circuit and power distribution cabinet in server module 1;

Output electrical connection in the power distribution cabinet that refrigeration module 2 is corresponding with it; Output in server cabinet 11 in server module 1 and its corresponding battery, rectification circuit and power distribution cabinet is connected successively.

Wherein, power distribution cabinet receives civil power, civil power is changed the electric current of different size, and exports different outputs to.Output for refrigeration module 2 correspondence exports electric current to refrigeration module 2, powers to give refrigeration module 2.For each server cabinet 11 in the first transportation module 12, electric current is exported to the rectification circuit of this server cabinet 11 correspondence by the output of this server cabinet 11 correspondence, this current conversion is direct current by this rectification circuit, this direct current is exported to the battery of this server cabinet 11 correspondence, to charge to this battery, this battery simultaneously exports direct current to this server cabinet 11.

Further, see Figure 13, this data center can also comprise:

Monitoring module 5, monitoring module 5 is connected with Power entry module 4 with server module 1, refrigeration module 2 respectively;

The operational factor of oneself, in the process run, is sent to monitoring module 5 by each server cabinet 11 in server module 1, refrigeration module 2 and Power entry module 4.Monitoring module 5 receives the operational factor that each server cabinet 11, refrigeration module 2 and Power entry module 4 send, and the operational factor that display receives is to technical staff.

Wherein, monitoring module can comprise the first collector, the second collector, the 3rd collector and monitoring server.

First collector, the second collector are all connected with monitoring server with the 3rd collector, and the first collector is also connected with each server cabinet 11 in server module 1; Second collector is also connected with refrigeration module 2, and the 3rd collector is also connected with Power entry module 4.First collector receives the operational factor that each server cabinet 11 sends, and the operational factor of each server cabinet 11 is sent to monitoring server; Second collector receives the operational factor that refrigeration module 2 sends, and the operational factor of refrigeration module 2 is sent to monitoring server; 3rd collector receives the operational factor that Power entry module 4 sends, and the operational factor of Power entry module 4 is sent to monitoring server; Monitoring server receives and shows the operational factor of the operational factor of each server cabinet 11, the operational factor of refrigeration module 2 and Power entry module 4.

The number of the server cabinet required for each data center is different, and server cabinet number that can be required as required, carrys out deploying servers module.Such as, see Figure 12, deploying servers module comprises four the first transport cases 12, and in these four the first transport cases 12, arrange eight row's server cabinets 11.

Sometimes in order to expand data center further, multiple server module 1, refrigeration module 2 and Power entry module 4 can also be arranged in the heart in the data.Such as, data center shown in Figure 13 comprises a monitoring module, first server module, second server module, the first refrigeration module, the second refrigeration module, the first Power entry module and the second Power entry module.

First refrigeration module cools to the server cabinet in first server module, and the first Power entry module is first server module, the first refrigeration module and monitoring module are powered; Second refrigeration module cools to the server cabinet in second server module, and the second Power entry module is that second server module and the second refrigeration module are powered.

In the utility model embodiment, multiple server cabinet is arranged in the first transport case and just forms server module, so in factory, can carry out Prefabrication to server module, and can facilitate transportation servers module.Refrigeration module is also arranged in the second transport case, so in factory, can carry out Prefabrication to refrigeration module, and can facilitate transport refrigeration module.When will build data center in certain place, only need that server module and refrigeration module are transported to this place and assemble, just can set up a data center, improve the efficiency of building data center, greatly reduce the time of building required for data center.

Embodiment 2

See Fig. 3 a and Fig. 3 b, the utility model embodiment provides a kind of server module, comprising:

Multiple server cabinets 11 and at least one first transport case 12;

Described multiple server cabinet 11 points of arranged in rows in described first transport case 12, adjacent two row server cabinets 11 vis-a-vis time form cold passage or the back side relative time composition the passage of heat, described first transport case 12 comprises air inlet and air outlet.

See Fig. 3 a and Fig. 3 b, on the side that the air inlet of the first transport case 12 is positioned at the first transport case 12 or top, and the below of the air inlet of transport case is the cold passage that two row's server cabinets 11 form.

Preferably, see Fig. 7, the first transport case 12 comprises:

Casing 121, air-supply passage 122 and at least one lower air port 123, air-supply passage 122 is positioned at the top of casing 121, and air-supply passage 122 comprises air inlet;

Each lower air port 123 at least one lower air port 123 is arranged on air-supply passage 122, and the below in each lower air port 123 is the cold passage that two row's racks 11 form.

Further, the first transport case 12 also comprises:

First blower fan of each lower air port 123 correspondence, this first assembling is in the lower air port 123 of its correspondence.

Further, the first transport case 12 also comprises:

The air velocity transducer of each lower air port 123 correspondence, is positioned at the below of first blower fan in the lower air port 123 of its correspondence in the lower air port 123 that this air velocity transducer is arranged on its correspondence.

Embodiment 3

See Fig. 9, the utility model embodiment provides a kind of refrigeration module, comprising:

Second blower fan 21, heat exchanger 22, first filter 23 and the second transport case 24;

Second blower fan 21, heat exchanger 22 and the first filter 23 are arranged in the second transport case 24, heat exchanger 22 is between the second blower fan 21 and the first filter 23, second blower fan 21 is between the air outlet and the first air outlet of heat exchanger 22 of the second transport case 24, and the first filter 23 is between the air inlet and the first air inlet of heat exchanger 22 of the second transport case 24.

Further, see Figure 12, refrigeration module also comprises:

The middle part of the 3rd blower fan 25, second filter 26 and the 3rd transport case the 27, three transport case 27 separates with a baffle plate, and the bottom of the 3rd transport case 27 has the first air port and the second air port, and the first air port and the second air port are positioned at the both sides of plate washer;

The second air outlet being positioned at the top of heat exchanger 22 communicates with the first air port, and the 3rd blower fan 25 is arranged in the 3rd transport case 27, and between the first air port and the air outlet of the 3rd transport case 27; The second air inlet being positioned at the top of heat exchanger 22 communicates with the second air port, and the second filter 26 is arranged in the 3rd transport case, and between the second air port and the air inlet of the 3rd transport case.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.

Claims (19)

1. a data center, is characterized in that, described data center comprises:

Server module and refrigeration module, described server module comprises multiple server cabinet and at least one first transport case;

The air inlet of described refrigeration module and air outlet communicate with the air outlet of described first transport case and air inlet respectively, described multiple server cabinet divides arranged in rows in described first transport case, adjacent two row server cabinets vis-a-vis time form cold passage or the back side relative time composition the passage of heat.

2. data center as claimed in claim 1, is characterized in that,

The air inlet of described first transport case is positioned at the top of described first transport case, and the below of the air inlet of described transport case is the cold passage of two row's server cabinet compositions.

3. data center as claimed in claim 1 or 2, is characterized in that, also comprise:

Fan housing, described fan housing is positioned at the top of described transport case, the air inlet of described fan housing and the air outlet slitless connection of described refrigeration module, the lower air port of described fan housing and the air inlet slitless connection of described transport case.

4. data center as claimed in claim 3, it is characterized in that, described fan housing comprises:

Air-supply passage and at least one lower air port;

The air inlet of described air-supply passage and the air outlet slitless connection of described refrigeration module, each lower air port at least one lower air port described is fixed on described air-supply passage.

5. data center as claimed in claim 1, it is characterized in that, described first transport case comprises:

Casing, air-supply passage and at least one lower air port, described air-supply passage is positioned at the top of described casing, the air inlet of described air-supply passage and the air outlet slitless connection of described refrigeration module;

Each lower air port at least one lower air port described is arranged on described air-supply passage, and the below in described each lower air port is the cold passage of two row's rack compositions.

6. data center as claimed in claim 5, it is characterized in that, described first transport case also comprises:

The first blower fan that described each lower air port is corresponding, described first assembling is in the lower air port of its correspondence.

7. data center as claimed in claim 6, it is characterized in that, described first transport case also comprises:

The air velocity transducer that described each lower air port is corresponding, is positioned at the below of first blower fan in the lower air port of its correspondence in the lower air port that described air velocity transducer is arranged on its correspondence.

8. data center as claimed in claim 1, it is characterized in that, described refrigeration module comprises:

Second blower fan, heat exchanger, the first filter and the second transport case;

Described second blower fan, described heat exchanger and described first filter are arranged in described second transport case, described heat exchanger is between described second blower fan and described first filter, described second blower fan is between the air outlet and the first air outlet of described heat exchanger of described second transport case, and described first filter bits is between the air inlet and the first air inlet of described heat exchanger of described second transport case;

The air outlet of described second transport case communicates with the air inlet of described first transport case, and the air inlet of described second transport case communicates with the air outlet of described first transport case.

9. data center as claimed in claim 8, it is characterized in that, described refrigeration module also comprises:

3rd blower fan, the second filter and the 3rd transport case, the middle part of described 3rd transport case separates with a baffle plate, and the bottom of described 3rd transport case has the first air port and the second air port, and described first air port and described second air port are positioned at the both sides of described baffle plate;

The second air outlet being positioned at described heat exchanger communicates with described first air port, described 3rd assembling in described 3rd transport case, and between described first air port and the air outlet of described 3rd transport case; The second air inlet being positioned at described heat exchanger communicates with described second air port, and described second filter is arranged in described 3rd transport case, and between described second air port and the air inlet of described 3rd transport case.

10. data center as claimed in claim 1, is characterized in that, also comprise:

Power entry module, described Power entry module is connected with described refrigeration module with described server module, for described server module and described refrigeration module are powered.

11. data centers as claimed in claim 10, it is characterized in that, described Power entry module comprises:

Power distribution cabinet, at least one battery and at least one rectification circuit, described power distribution cabinet comprises the output of the different electric current of multiple output;

One or more outputs in the corresponding described power distribution cabinet of described refrigeration module; One or more outputs in each server cabinet difference a corresponding battery, a rectification circuit and described power distribution cabinet in described server module;

Output electrical connection in the described power distribution cabinet that described refrigeration module is corresponding with it; Output in server cabinet in described server module and its corresponding battery, rectification circuit and described power distribution cabinet is connected successively.

12. data centers as claimed in claim 1, it is characterized in that, described data center also comprises:

Monitoring module, described monitoring module is connected with described refrigeration module with described server module respectively.

13. 1 kinds of server modules, is characterized in that, comprising:

Multiple server cabinet and at least one first transport case;

Described multiple server cabinet divides arranged in rows in described first transport case, adjacent two row server cabinets vis-a-vis time form cold passage or the back side relative time composition the passage of heat, described first transport case comprises air inlet and air outlet.

14. server modules as claimed in claim 13, is characterized in that,

The air inlet of described first transport case is positioned at the top of described first transport case, and the below of the air inlet of described transport case is the cold passage of two row's server cabinet compositions.

15. server modules as claimed in claim 13, it is characterized in that, described first transport case comprises:

Casing, air-supply passage and at least one lower air port, described air-supply passage is positioned at the top of described casing, and described air-supply passage comprises air inlet;

Each lower air port at least one lower air port described is arranged on described air-supply passage, and the below in described each lower air port is the cold passage of two row's rack compositions.

16. server modules as claimed in claim 15, it is characterized in that, described first transport case also comprises:

The first blower fan that described each lower air port is corresponding, described first assembling is in the lower air port of its correspondence.

17. server modules as claimed in claim 16, it is characterized in that, described first transport case also comprises:

The air velocity transducer that described each lower air port is corresponding, is positioned at the below of first blower fan in the lower air port of its correspondence in the lower air port that described air velocity transducer is arranged on its correspondence.

18. 1 kinds of refrigeration modules, is characterized in that, described refrigeration module comprises:

Second blower fan, heat exchanger, the first filter and the second transport case;

Described second blower fan, described heat exchanger and described first filter are arranged in described second transport case, described heat exchanger is between described second blower fan and described first filter, described second blower fan is between the air outlet and the first air outlet of described heat exchanger of described second transport case, and described first filter bits is between the air inlet and the first air inlet of described heat exchanger of described second transport case.

19. refrigeration modules as claimed in claim 18, it is characterized in that, described refrigeration module also comprises:

3rd blower fan, the second filter and the 3rd transport case, the middle part of described 3rd transport case separates with a baffle plate, and the bottom of described 3rd transport case has the first air port and the second air port, and described first air port and described second air port are positioned at the both sides of described baffle plate;

The second air outlet being positioned at described heat exchanger communicates with described first air port, described 3rd assembling in described 3rd transport case, and between described first air port and the air outlet of described 3rd transport case; The second air inlet being positioned at described heat exchanger communicates with described second air port, and described second filter is arranged in described 3rd transport case, and between described second air port and the air inlet of described 3rd transport case.