CN112739140A - Container modularization data center - Google Patents

Abstract

The invention relates to the technical field of data center network architecture, and discloses a container modular data center which is used for a cave and comprises a plurality of container units, wherein each container unit in the plurality of container units comprises a container and equipment arranged in the container; the plurality of container units include at least one data container unit that is used for carrying out data processing and at least one power supply container unit that is used for carrying out the power supply, power supply container unit with data container unit connects, for data container unit provides the electric energy. The container modularized cavern data center can well separate and seal the space in the cavern and arrange equipment, so that the construction of the data center in the cavern is realized.

Description

Container modularization data center

Technical Field

The invention relates to the technical field of data center network architecture, in particular to a container modular data center.

Background

The cave is usually from two sources, one is the mine cave left after the mining of mineral and stone resources, and the other is the original civil air defense. Both of these situations create idle cave resources. Generally, the caves are high in terrain and are covered by hard rocks of tens of meters or even hundreds of meters. The data center is built in the cave, so that the data center cannot be influenced by natural disasters such as tornadoes, floods and the like, and accidents such as explosion, shell attack and the like and wars. The cave is an ideal place for building a key data backup center and even a combat readiness level data center.

However, the cave interior forms are different and irregular, and the rock mass in the cave is easy to seep water and drip, and the environment is severe. Therefore, it is important to realize the space separation and the equipment arrangement under the condition.

Disclosure of Invention

The embodiment of the invention provides a container modular cave data center which can better separate and seal the space in a cave and arrange equipment so as to conveniently realize the construction of the data center in the cave.

In order to achieve the purpose, the invention provides the following technical scheme:

a container modular data center for a cave, comprising a plurality of container units, each of the plurality of container units comprising a container and equipment disposed within the container; the plurality of container units include at least one data container unit that is used for carrying out data processing and at least one power supply container unit that is used for carrying out the power supply, power supply container unit with data container unit connects, for data container unit provides the electric energy.

The container modular data center comprises a plurality of container units. When setting up the above-mentioned container modularization data center of construction in the cave, can arrange a plurality of container units inside the cave in, and regard at least one container unit as the data container unit that is used for carrying out data processing, simultaneously, regard at least one container unit as the power supply container unit that is used for carrying out the power supply. When the power supply device is used, the power supply container unit is connected with the data container unit to supply power to the data container unit. Particularly, the number and the positions of the data container units and the power supply container units can be set according to requirements, and rapid deployment is achieved.

The container modular data center provided by the invention adopts the prefabricated container units, so that the problem that the container is not beneficial to space division due to irregular shape in a cave can be solved, and flexible deployment can be realized according to the condition of space in the cave; meanwhile, the container has good protective performance, can excellently cope with adverse environmental influences such as water seepage, dripping leakage and humidity in the cavity, and prolongs the service life of equipment in the container.

Therefore, the container modular cave data center can well separate and seal the space in the cave and arrange equipment, so that the construction of the data center in the cave can be conveniently realized.

Preferably, the plurality of container units are arranged in a preset direction.

Preferably, the number of data container units is at least two, wherein:

the power supply container unit is arranged in the middle of the at least two data container units; or,

the power supply container unit is arranged on one side of the at least two data container units.

Preferably, the data container unit comprises at least one container.

Preferably, the power supply container unit comprises at least two containers, each container in the at least two container units is provided with a device therein, and the devices in the at least two container units are mutually standby.

Preferably, each of the plurality of container units comprises a rack and at least one container arranged on the rack.

Preferably, the rack comprises at least one placing layer, and each placing layer in the at least one placing layer is selectively provided with the container.

Preferably, still include the maintenance passageway, the maintenance passageway is located adjacently between the container unit, the intercommunication is adjacent the container unit.

Preferably, when the placing rack comprises a plurality of placing layers, the service passage is also used for communicating the plurality of placing layers of each placing rack.

Preferably, the access passage is an access stairway.

Drawings

Fig. 1 is a schematic structural diagram of a container modular data center according to an embodiment of the present invention;

FIG. 2 is yet another block diagram of a container modular data center provided by an embodiment of the present invention;

FIG. 3 is yet another block diagram of a container modular data center provided by an embodiment of the present invention;

fig. 4 is a schematic structural view of the container modular data center at plane B of fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention provides a container modular data center for a cave a, including a plurality of container units 1, where the plurality of container units 1 include at least one data container unit 11 for performing data processing and at least one power supply container unit 12 for supplying power, and the power supply container unit 12 is connected to the data container unit 11 to supply power to the data container unit 11. Illustratively, the power supply container unit 12 as in fig. 2, the power supply container unit 12 includes a container 121 and equipment disposed within the container 121; of course, when the container unit 1 is the data container unit 11, the data container unit 11 also includes the container 111 and the equipment provided in the container 111.

The above container modular data center includes a plurality of container units 1. When the above container modular data center is set up and constructed in the cave a, the plurality of container units 1 may be placed inside the cave a, and at least one container unit 1 is used as the data container unit 11 for data processing, and at least one container unit 1 is used as the power supply container unit 12 for power supply. In use, the power supply container unit 12 is connected to the data container unit 11 to supply power to the data container unit 11. Specifically, the number and positions of the data container units 11 and the power supply container units 12 can be set as required, and rapid deployment is achieved.

The container modular data center provided by the invention adopts the prefabricated container unit 1, so that the problem that the space division is not facilitated due to the irregular shape in the cave A can be solved by the container, and flexible deployment can be realized according to the condition of the space in the cave A; meanwhile, the container has good protective performance, can excellently cope with adverse environmental influences such as water seepage, dripping leakage and humidity in the cavity, and prolongs the service life of equipment in the container.

Therefore, the container modularized cave A data center can well separate and seal the space in the cave A and arrange equipment, so that the construction of the data center in the cave A can be conveniently realized.

It should be noted that each container unit 1 includes a container 121 and equipment disposed in the container. Specifically, when the container unit 1 is a data container unit 11, the data container unit 11 includes at least one container 111, and a data processing device is provided in each container 111. Similarly, when the container unit 1 is a power supply container unit 12, the power supply container unit 12 includes at least two containers 121, and a power supply device is provided in each container 121. It should be understood that container 111 and container 121 may form protection for data processing equipment as well as power supply equipment.

It is noted that each power supply container unit 12 includes at least two containers 121, and each container 121 has a power supply device mounted therein. It should be understood that the power supply devices within at least two containers 121 are back-up for each other. Illustratively, each container unit 12 includes two containers 121, and each container 121 has a power supply device installed therein. In use, the power supply device in one of the containers 121 is operated to supply power to the data container unit 11. When a problem occurs with a power supply device in an operating container 121, a power supply device located in another container 121 is activated, and it is understood that the power supply device in that container 121 acts as a backup power source.

On the basis of the above technical scheme, it should be noted that the shape in the cave a is complicated and changeable, and a plurality of container units 1 can be arranged along a preset direction. It should be understood that the "preset direction" may be an extending direction of the tunnel in the cave a, or may be an arrangement direction designed according to the terrain in the cave a. The specific "preset direction" can be set according to the requirement, and is not described herein again.

In specifically setting the number of data container units 11, the number of data container units 11 may be set to 1 or more. When the number of the data container units 11 is plural, it may be 2, 3, 4, etc., for example.

Likewise, when the number of the power supply container units 12 is specifically set, the number of the power supply container units 12 may be set to 1 or more. When the number of the power supply container units 12 is plural, it may be 2, 3, 4, or the like, for example.

Specifically, when the number of the data container units 11 is an even number, the power supply container unit 12 may be provided at a middle position of the even number of the data container units 11, as exemplarily shown in fig. 2. When the number of the data container units 11 is an odd number, the power supply container unit 12 may be provided at a position near the middle of the odd number of the data container units 11.

It is noted that when the power supply container unit 12 is disposed at a position closer to the center of the plurality of container units 1, the shortest and most efficient energy supply flow, i.e., the construction investment is reduced, and at the same time, the power consumption is reduced.

Of course, the power supply container unit 12 may also be disposed on one side of the data container unit 11 according to requirements, as shown in fig. 3. It should be understood that since only the changes in the positions of the power supply container unit 12 and the data container unit 11 are provided as compared with the structure in fig. 2, they will not be described in detail herein.

On the basis of the above technical solution, specifically, each container unit 1 of the plurality of container units 1 may include the rack 122 and at least one container provided to the rack 122. It should be understood that the container here is either container 121 or container 111.

In other words, each container unit 1 includes a rack 122, and a plurality of containers can be set on the rack 122 according to the requirement, and the required equipment is set in each container. Of course, when the container unit 1 is the data container unit 11, all the devices in the container 111 are data processing devices. Similarly, when the container unit 1 is the power supply container unit 12, all the devices in the container 121 supply power to the devices.

When the container unit 1 is set, the placing frame 122 may be set to include at least one layer for placing the container, and each layer of the at least one layer for placing the container is selectively provided with the container. Specifically, the rack 122 can be arranged in multiple layers provided that the height of the cave a is sufficient, and exemplarily, as shown in fig. 2, the rack 122 has a double-layer structure, and two containers 121 are arranged on each layer of the rack 122.

On the basis of the technical scheme, the container modular data center provided by the embodiment of the invention further comprises an overhaul channel, wherein the overhaul channel is arranged between the adjacent container units 1 and is communicated with the adjacent container units 1.

It should be noted that the overhaul channel can be used as a follow-up equipment moving-in and maintenance channel, which can realize normal overhaul and maintenance and can realize rapid moving-in and moving-out in case of disaster.

Of course, when the rack 122 includes multiple tiers, the service aisle is also used to communicate with the multiple tiers of each rack 122.

Illustratively, as shown in fig. 2 and 4, the access way is an access stairway 2 provided between the associated container units 1.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present application and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A container modular data center is used for a cave and is characterized by comprising a plurality of container units, wherein each container unit in the plurality of container units comprises a container and equipment arranged in the container; the plurality of container units include at least one data container unit that is used for carrying out data processing and at least one power supply container unit that is used for carrying out the power supply, power supply container unit with data container unit connects, for data container unit provides the electric energy.

2. The container modular data center of claim 1, wherein the plurality of container units are arranged in a predetermined orientation.

3. The container modular data center of claim 2, wherein the number of data container units is at least two, wherein:

the power supply container unit is arranged in the middle of the at least two data container units; or,

the power supply container unit is arranged on one side of the at least two data container units.

4. The container modular data center of claim 3, wherein the data container unit comprises at least one container.

5. The container modular data center of claim 3, wherein said powered container unit comprises at least two containers, each of said at least two container units having equipment mounted therein, and wherein each of said equipment in said at least two container units is in back-up relation to each other.

6. The container modular data center of any of claims 1-5, wherein each of a plurality of said container units comprises a rack and at least one said container disposed on said rack.

7. The container modular data center of claim 6, wherein said rack includes at least one placement level, each of said at least one placement level being selectively configured with said containers.

8. The container modular data center of claim 7, further comprising a service aisle disposed between and communicating adjacent container units.

9. The container modular data center of claim 8, wherein said access panel is further configured to communicate between multiple tiers of said placement levels of each of said racks when said placement levels include multiple tiers of placement levels.

10. The container modular data center of claim 9, wherein the service aisle is a service stairway.

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