CN203340497U - Modularization data center - Google Patents

Abstract

The utility model discloses a modularization data center, which forms a seal space possessing an air flow fixed channel. The modularization data center comprises cabinet sub-systems, refrigeration sub-systems, structure-sealing sub-systems which are structurally separated. A channel for forming the cool channel is formed between server cabinets in the cabinet sub-systems; refrigeration units of the refrigeration sub-systems are positioned between every two server cabinets; the structure-seal sub-system comprises the cool channel and a hot channel for realizing the circulation of between the cold air in the cool channel and the hot air. The hot channel is isolated from the cold channel by the sub-systems. The modularization data center realizes fast establishment of data center with various scales on the operation site through modularized assembly, improves data center establishment efficiency, seals the circulation of the cold air and the hot air within the seal space for preventing refluence and improves the cooling efficiency.

Description

A kind of modular data center

Technical field

The utility model relates to electronic applications, relates in particular to a kind of modular data center.

Background technology

Following two problems of conventional data centers ubiquity: (1), from demand to building complete overlong time, can not meet the Client application demand.(2) the low situation of cooling effectiveness such as data center's ubiquity backflow, cause data center's energy consumption too high.Visible, there is long, the problem such as cooling effectiveness is low of construction period in conventional data centers.

The utility model content

In view of this, main purpose of the present utility model is to provide a kind of modular data center, to improve construction efficiency and the cooling effectiveness of data center.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of modular data center, this modular data center has formed the enclosure space with air-flow stationary conduit, and described modular data center comprises structurally relatively independent rack subsystem, cooling subsystem, structure closed subsystem; Wherein,

There is the passage that forms cold passage in the middle of server cabinet in described rack subsystem;

Cooling unit in described cooling subsystem is arranged between every two described server cabinets;

Described structure closed subsystem comprises described cold passage, also comprise for and the cold air of described cold passage realize the passage of heat of the circulation between cold air, hot gas, this passage of heat and described cold passage are isolated by above-mentioned subsystem.

Described server cabinet is two rows, and two row's server cabinets are placed face-to-face.

Described cooling unit abuts against between every two server cabinets; The air outlet of described server cabinet is in the face of described cold passage.

Be provided with a cooling unit after each server cabinet, or be provided with a cooling unit after every two server cabinets.

The described passage of heat is installed on the back side of described server cabinet, and each side of the not service-oriented device rack of the described passage of heat is sealed;

Described cold passage does not seal towards each side of described server cabinet.

Described modular data center also comprises one or more in structurally relatively independent following subsystem:

Distribution subsystem, cable subsystem, fire-fighting subsystem, monitoring, ADMINISTRATION SUBSYSTEM.

Described distribution subsystem comprises power distribution cabinet, is installed on an end of described server cabinet, as a row power distribution cabinet;

Described cable subsystem comprises the network layout cabinet, and this network layout cabinet inside is equipped with wiring unit and watch-dog;

Described fire-fighting subsystem comprises comprehensive FHC＝fire hydrant cabinet, and this comprehensive FHC＝fire hydrant cabinet contains fire fighting gas steel cylinder and fire-fighting control box;

The monitoring host computer that described monitoring, ADMINISTRATION SUBSYSTEM comprise modular data center, respective sensor and management software.

Described power distribution cabinet is two, and a station power distribution cabinet wherein is installed on an end of row's server cabinet of whole modular data center, and another station power distribution cabinet is installed on an identical or different end of another row's server cabinet of whole modular data center;

Totally one, described network layout cabinet, be installed on an end of the described server cabinet of a row;

Totally one of described comprehensive FHC＝fire hydrant cabinet, be installed on an end of another relative with described network layout cabinet row server cabinet.

This modular data center also comprises passive base.

Described cooling unit is cold water type cooling unit in the ranks.

Data center of the present utility model becomes the modularization setting, comprise by structurally relatively independent different sub-systems, therefore can realize fast building of various scale data center in operation site by modular assembly form, improve the construction efficiency of data center.And, having formed the enclosure space with air-flow stationary conduit in modular data center, backflow phenomenon has been avoided in the cold air in this enclosure space, the circulation of hot gas, has improved the cooling effectiveness of data center.

The accompanying drawing explanation

The modular data center vertical view that Fig. 1 is the utility model embodiment;

The modular data center stereogram that Fig. 2 is the utility model embodiment;

Description of reference numerals:

101, server cabinet; 102, cooling unit; 103, a row power distribution cabinet; 104, network layout cabinet; 105, comprehensive FHC＝fire hydrant cabinet; 106, the passage of heat; 107, cold passage; 108, base.

Embodiment

Modular data center of the present utility model can comprise and one or more in following subsystem generally at least comprises rack subsystem, cooling subsystem, structure closed subsystem:

(1) rack subsystem;

Can comprise two row's server cabinets, two row's server cabinets can be placed face-to-face, and the passage in the middle of two row's server cabinets forms cold passage.Server cabinet can comprise the high opening rate Qianmen or not be with forward and backward door.

(2) cooling subsystem;

Can be 300mm or 600mm width, 1000mm or the 1200mm degree of depth, and the cooling unit contour with server cabinet (as: cold water type is cooling unit in the ranks).Described cooling unit setting (as: near) between every two server cabinets.If 0 representative server rack, 1 represents cooling unit, so can server cabinet and cooling unit between position relationship be set to the relation as 1010101, a cooling unit is set after each server cabinet; Also can server cabinet and cooling unit between position relationship be set to the relation as 1001001001, after every two server cabinets, a cooling unit is set.No matter how the position relationship between server cabinet and cooling unit arranges, as long as it is cooling to guarantee have cooling unit to participate in for each server cabinet.

The air outlet of server cabinet can be faced cold passage.

(3) distribution subsystem;

Comprise two power distribution cabinets that 300mm is wide or 600mm is wide, can respectively every station power distribution cabinet be installed on to an end of every row's server cabinet, as a row power distribution cabinet, as: wherein a station power distribution cabinet is installed on an end of row's server cabinet of whole modular data center, another station power distribution cabinet is installed on to an identical or different end of another row's server cabinet of whole modular data center.

(4) cable subsystem;

Comprise a network layout cabinet, this network layout cabinet inside is equipped with wiring unit and watch-dog (can contain touch-screen).

(5) fire-fighting subsystem;

Comprise a comprehensive FHC＝fire hydrant cabinet formed with the standard cabinet transformation, can contain the fire-fighting equipments such as fire fighting gas steel cylinder and fire-fighting control box in this comprehensive FHC＝fire hydrant cabinet.

(6) monitoring, ADMINISTRATION SUBSYSTEM;

The monitoring host computer that comprises modular data center, respective sensor and management software.

(7) structure closed subsystem;

Comprise cold passage, the passage of heat and for the base that supports whole modular data center etc.

It should be noted that, in above-mentioned each subsystem comprise device quantity can be one, two or more, concrete quantity can arrange flexibly according to the practical application scene; In addition, in above-mentioned each subsystem comprise device size also can arrange flexibly according to the practical application scene; Have again, if can guarantee the safety and stability of installing, also can save described base.

Below in conjunction with accompanying drawing, the utility model is described.

In actual applications, can carry out setting as shown in Figure 1, 2, modular data center of the present utility model can comprise server cabinet 101, cooling unit 102, a row power distribution cabinet 103, network layout cabinet 104, comprehensive FHC＝fire hydrant cabinet 105, the passage of heat 106, cold path 10 7 and base 108.

Wherein, server cabinet 101 is totally two rows, and two row's server cabinets 101 can be placed face-to-face, and the passage in the middle of two row's server cabinets 101 forms cold passage, between every two server cabinets 101, a cooling unit 102 is set.

Be listed as totally two of power distribution cabinets 103, be arranged on respectively the mutually same end of every row's server cabinet 101.

Totally one, network layout cabinet 104, be installed on an end of row's server cabinet 101.Network layout cabinet 104 inside, except installation wiring equipment, also are equipped with monitoring host computer and touch-screen.

Comprehensively FHC＝fire hydrant cabinet 105 is totally one, is installed on an end of another the row server cabinet 101 relative with network layout cabinet 104.Comprehensive FHC＝fire hydrant cabinet 105 inside are equipped with fire fighting gas steel cylinder and fire-fighting control box.

As shown in Figure 2, the passage of heat 106 is installed on the back side of server cabinet 101, and each side of the not service-oriented device rack 101 of the passage of heat 106 is sealed.Each side of the not service-oriented device rack 101 of cold path 10 7 is also sealed, as: guaranteed the sealing of cold path 10 7 by the cold access door of cold passage top cover and both sides.Above-mentioned set-up mode makes data center of the present utility model become the modularization setting, comprise by structurally relatively independent different sub-systems, therefore can realize fast building of various scale data center in operation site by modular assembly form, improve the construction efficiency of data center.And, formed the enclosure space with air-flow stationary conduit in modular data center: cold airflow enters cold path 10 7 from cooling unit 102, then be inhaled into server cabinet 101, cold air becomes hot gas and enters the passage of heat 106 because of the heat that has absorbed server cabinet 101, and hot gas is inhaled into cooling unit 102 and is cooled afterwards.Backflow phenomenon has been avoided in circulation between above-mentioned cold air, hot gas, guarantees that cold air can carry out the heat-producing device of server cabinet 101 inside with high efficiency cooling, has improved the cooling effectiveness of data center.

Visible in conjunction with above description, modular data center of the present utility model, improved construction efficiency and the cooling effectiveness of data center.

The above, be only preferred embodiment of the present utility model, is not intended to limit protection range of the present utility model.

Claims (10)

1. a modular data center, it is characterized in that, this modular data center has formed the enclosure space with air-flow stationary conduit, and described modular data center comprises structurally relatively independent rack subsystem, cooling subsystem, structure closed subsystem; Wherein,

There is the passage that forms cold passage in the middle of server cabinet in described rack subsystem;

Cooling unit in described cooling subsystem is arranged between every two described server cabinets;

Described structure closed subsystem comprises described cold passage, also comprise for and the cold air of described cold passage realize the passage of heat of the circulation between cold air, hot gas, this passage of heat and described cold passage are isolated by above-mentioned subsystem.

2. modular data center according to claim 1, is characterized in that, described server cabinet is two rows, and two row's server cabinets are placed face-to-face.

3. modular data center according to claim 2, is characterized in that, described cooling unit abuts against between every two server cabinets; The air outlet of described server cabinet is in the face of described cold passage.

4. modular data center according to claim 3, is characterized in that, is provided with a cooling unit after each server cabinet, or be provided with a cooling unit after every two server cabinets.

5. according to the described modular data center of claim 1 to 4 any one, it is characterized in that,

The described passage of heat is installed on the back side of described server cabinet, and each side of the not service-oriented device rack of the described passage of heat is sealed;

Described cold passage does not seal towards each side of described server cabinet.

6. modular data center according to claim 5, is characterized in that, described modular data center also comprises one or more in structurally relatively independent following subsystem:

Distribution subsystem, cable subsystem, fire-fighting subsystem, monitoring, ADMINISTRATION SUBSYSTEM.

7. modular data center according to claim 6, is characterized in that,

Described distribution subsystem comprises power distribution cabinet, is installed on an end of described server cabinet, as a row power distribution cabinet;

Described cable subsystem comprises the network layout cabinet, and this network layout cabinet inside is equipped with wiring unit and watch-dog;

Described fire-fighting subsystem comprises comprehensive FHC＝fire hydrant cabinet, and this comprehensive FHC＝fire hydrant cabinet contains fire fighting gas steel cylinder and fire-fighting control box;

The monitoring host computer that described monitoring, ADMINISTRATION SUBSYSTEM comprise modular data center, respective sensor.

8. modular data center according to claim 7, is characterized in that,

Described power distribution cabinet is two, and a station power distribution cabinet wherein is installed on an end of row's server cabinet of whole modular data center, and another station power distribution cabinet is installed on an identical or different end of another row's server cabinet of whole modular data center;

Totally one, described network layout cabinet, be installed on an end of the described server cabinet of a row;

Totally one of described comprehensive FHC＝fire hydrant cabinet, be installed on an end of another relative with described network layout cabinet row server cabinet.

9. modular data center according to claim 1, is characterized in that, this modular data center also comprises passive base.

10. modular data center according to claim 1, is characterized in that, described cooling unit is cold water type cooling unit in the ranks.

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