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

Modular data center

Technical Field

The utility model relates to an electron field especially relates to a modularization data center.

Background

The following two problems are common in the conventional data center: (1) the time from the requirement to the completion of the construction is too long, and the requirement of the client application cannot be met. (2) The data center generally has the condition of low cooling efficiency such as backflow, which causes the energy consumption of the data center to be too high. Therefore, the traditional data center has the problems of long construction period, low cooling efficiency and the like.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention is directed to a modular data center to improve the construction efficiency and cooling efficiency of the data center.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

a modular data center forming an enclosure with fixed airflow pathways, the modular data center comprising structurally relatively independent cabinet subsystems, cooling subsystems, structural enclosure subsystems; wherein,

a channel for forming a cold channel is arranged in the middle of a server cabinet in the cabinet subsystem;

a cooling unit in the cooling subsystem is arranged between every two server cabinets;

the structural closed subsystem comprises the cold channel and a hot channel for realizing circulation between cold air and hot air with cold air in the cold channel, and the hot channel and the cold channel are isolated by the subsystem.

The server cabinets are arranged in two rows, and the two rows of server cabinets are arranged face to face.

The cooling unit is closely arranged between every two server cabinets; an air outlet of the server cabinet faces the cold aisle.

One cooling unit is disposed behind each server rack, or one cooling unit is disposed behind every two server racks.

The hot channel is arranged on the back of the server cabinet, and the sides of the hot channel, which do not face the server cabinet, are closed;

the cold aisle is closed on sides not facing the server rack.

The modular data center also includes one or more of the following subsystems that are relatively structurally independent:

the system comprises a power distribution subsystem, a wiring subsystem, a fire-fighting subsystem, a monitoring subsystem and a management subsystem.

The power distribution subsystem comprises a power distribution cabinet which is arranged at one end of the server cabinet and is used as a column head power distribution cabinet;

the wiring subsystem comprises a network wiring cabinet, and wiring equipment and monitoring equipment are installed in the network wiring cabinet;

the fire-fighting subsystem comprises a comprehensive fire-fighting cabinet, and the comprehensive fire-fighting cabinet contains a fire-fighting gas steel cylinder and a fire-fighting control box;

the monitoring and management subsystem comprises a monitoring host of the modular data center, a corresponding sensor and management software.

The power distribution cabinets are arranged on the same side or different sides of the whole modularized data center;

the network wiring cabinets are arranged at one end of the row of server cabinets;

the comprehensive fire-fighting cabinets are arranged at one end of the other row of server cabinets opposite to the network wiring cabinet.

The modular data center also includes a base for supporting.

The cooling unit is a cold water type inter-row cooling unit.

The utility model discloses a data center becomes modularization setting, contains by structurally relatively independent different subsystems, consequently can realize rapidly building of various scale data center at the operation scene through the modular form of assembling, has improved data center's construction efficiency. And moreover, a closed space with an airflow fixing channel is formed in the modular data center, the circulation of cold air and hot air in the closed space avoids the backflow phenomenon, and the cooling efficiency of the data center is improved.

Drawings

Fig. 1 is a top view of a modular data center according to an embodiment of the present invention;

fig. 2 is a perspective view of a modular data center according to an embodiment of the present invention;

description of reference numerals:

101. a server cabinet; 102. a cooling unit; 103. a column head power distribution cabinet; 104. a network wiring cabinet; 105. a comprehensive fire-fighting cabinet; 106. a hot aisle; 107. a cold aisle; 108. a base.

Detailed Description

The utility model discloses a modularization data center can include one or more among the following subsystems, generally includes rack subsystem, cooling subsystem, structure closed subsystem at least:

(1) a cabinet subsystem;

two rows of server cabinets can be contained, the two rows of server cabinets can be placed face to face, and a cold channel is formed by a channel between the two rows of server cabinets. The server rack may include a high open area front door or no front and back doors.

(2) A cooling subsystem;

cooling units (e.g., cold water type inter-row cooling units) that may be 300mm or 600mm wide, 1000mm or 1200mm deep and are at the same height as the server racks. The cooling units are disposed (e.g., in close proximity) between every two server racks. If 0 represents a server cabinet and 1 represents a cooling unit, the positional relationship between the server cabinet and the cooling unit may be set to a relationship such as 1010101, that is, one cooling unit is disposed after each server cabinet; it is also possible to set the positional relationship between the server racks and the cooling units to a relationship such as 1001001001, that is, to set one cooling unit after every two server racks. No matter how the positional relationship between the server racks and the cooling units is set, it is only necessary to ensure that the cooling units participate in cooling for each server rack.

The air outlet of the server rack may face the cold aisle.

(3) A power distribution subsystem;

contain two 300mm wide or 600mm wide switch boards, can install every switch board in the one end of every row of server rack respectively, as the first switch board of row, if: one of the power distribution cabinets is installed at one end of one row of server cabinets of the whole modular data center, and the other power distribution cabinet is installed at the same or different end of the other row of server cabinets of the whole modular data center.

(4) A wiring subsystem;

the system comprises a network wiring cabinet, wherein wiring equipment and monitoring equipment (which can comprise a touch screen) are arranged in the network wiring cabinet.

(5) A fire-fighting subsystem;

comprises a comprehensive fire-fighting cabinet formed by transforming a standard cabinet, and fire-fighting equipment such as a fire-fighting gas steel cylinder, a fire-fighting control box and the like can be contained in the comprehensive fire-fighting cabinet.

(6) A monitoring and management subsystem;

the system comprises a monitoring host of a modular data center, a corresponding sensor and management software.

(7) A structural containment subsystem;

including cold aisles, hot aisles, and pedestals for supporting the entire modular data center, etc.

It should be noted that the number of the devices included in each subsystem may be one, two, or more, and the specific number may be flexibly set according to the actual application scenario; in addition, the sizes of the devices contained in the subsystems can be flexibly set according to practical application scenes; furthermore, the base can be omitted if the safety and stability of the installation can be ensured.

The present invention will be described with reference to the accompanying drawings.

In practical application, can carry out the setting as shown in fig. 1, 2, the utility model discloses a modularization data center can contain server rack 101, cooling unit 102, first switch board 103 of row, network wiring cabinet 104, synthesize fire-fighting cabinet 105, hot aisle 106, cold aisle 107 and base 108.

The server cabinets 101 are arranged in two rows, the two rows of server cabinets 101 can be arranged face to face, a cold channel is formed in a channel between the two rows of server cabinets 101, and one cooling unit 102 is arranged between every two server cabinets 101.

The two power distribution cabinets 103 are arranged in the same row and are respectively arranged at the same end of each row of the server cabinet 101.

The network wiring cabinets 104 are installed at one end of the row of server cabinets 101. Besides the wiring device, a monitoring host and a touch screen are also installed inside the network wiring cabinet 104.

The integrated fire-fighting cabinets 105 are installed at one end of the other row of server cabinets 101 opposite to the network wiring cabinet 104. The integrated fire-fighting cabinet 105 is internally provided with a fire-fighting gas steel cylinder and a fire-fighting control box.

As shown in fig. 2, the hot aisle 106 is installed on the back of the server cabinet 101, and the hot aisle 106 is closed on the sides not facing the server cabinet 101. The cold aisle 107 is also closed not facing the sides of the server rack 101, such as: the cold channel 107 is closed by the cold channel top cover and the cold channel doors on both sides. Above-mentioned mode of setting up makes the utility model discloses a data center becomes modularization setting, contains by structurally relatively independent different subsystems, consequently can realize the buildding of various scale data centers fast through the modular form of assembling at the operation scene, has improved data center's construction efficiency. And, the modular data center forms a closed space with an airflow fixing channel therein: the cold air flow enters the cold aisle 107 from the cooling unit 102 and is then sucked into the server racks 101, and the cold air changes into hot air due to the heat absorbed by the server racks 101 and enters the hot aisle 106, after which the hot air is sucked into the cooling unit 102 and is cooled. The circulation between above-mentioned air conditioning, the steam has avoided the backward flow phenomenon, ensures that air conditioning can cool off the inside heating equipment of server rack 101 with the high efficiency, has improved data center's cooling efficiency.

It can be seen from the above description that, the modular data center of the present invention improves the construction efficiency and cooling efficiency of the data center.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (10)

1. A modular data center defining an enclosure having fixed airflow passageways, the modular data center comprising structurally relatively independent cabinet subsystems, cooling subsystems, and structural enclosure subsystems; wherein,

a channel for forming a cold channel is arranged in the middle of a server cabinet in the cabinet subsystem;

a cooling unit in the cooling subsystem is arranged between every two server cabinets;

the structural closed subsystem comprises the cold channel and a hot channel for realizing circulation between cold air and hot air with cold air in the cold channel, and the hot channel and the cold channel are isolated by the subsystem.

2. The modular data center of claim 1, wherein the server racks are in two rows, the two rows being placed face-to-face.

3. The modular data center of claim 2, wherein the cooling unit is immediately between each two server racks; an air outlet of the server cabinet faces the cold aisle.

4. The modular data center of claim 3, wherein one cooling unit is disposed behind each server rack, or one cooling unit is disposed behind every two server racks.

5. Modular data center according to any of claims 1 to 4,

the hot channel is arranged on the back of the server cabinet, and the sides of the hot channel, which do not face the server cabinet, are closed;

the cold aisle is closed on sides not facing the server rack.

6. The modular data center of claim 5, further comprising one or more of the following subsystems that are relatively structurally independent:

the system comprises a power distribution subsystem, a wiring subsystem, a fire-fighting subsystem, a monitoring subsystem and a management subsystem.

7. The modular data center of claim 6,

the power distribution subsystem comprises a power distribution cabinet which is arranged at one end of the server cabinet and is used as a column head power distribution cabinet;

the wiring subsystem comprises a network wiring cabinet, and wiring equipment and monitoring equipment are installed in the network wiring cabinet;

the fire-fighting subsystem comprises a comprehensive fire-fighting cabinet, and the comprehensive fire-fighting cabinet contains a fire-fighting gas steel cylinder and a fire-fighting control box;

the monitoring and management subsystem comprises a monitoring host and a corresponding sensor of the modular data center.

8. Modular data center according to claim 7,

the power distribution cabinets are arranged on the same side or different sides of the whole modularized data center;

the network wiring cabinets are arranged at one end of the row of server cabinets;

the comprehensive fire-fighting cabinets are arranged at one end of the other row of server cabinets opposite to the network wiring cabinet.

9. The modular data center of claim 1, further comprising a base for supporting.

10. The modular data center of claim 1, wherein the cooling units are cold water type row-to-row cooling units.

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