CN210328316U - Modular data center and data center with large flat-layer layout - Google Patents

Abstract

The utility model discloses a data center of modularization data center and big flat bed overall arrangement, include: the container body is provided with an equipment room and a power distribution room; the power distribution system comprises a machine room prefabricated module arranged in an equipment room and a power distribution prefabricated module arranged in a power distribution room, wherein the power distribution prefabricated module comprises a first power distribution prefabricated module and a second power distribution prefabricated module; the container body is provided with completely separated air-conditioning prefabricated modules; the first distribution prefabricating module is connected with the machine room prefabricating module and the air conditioner prefabricating module through a first distribution line; the second distribution prefabrication module is connected with the machine room prefabrication module and the air conditioner prefabrication module through a second distribution line; the first distribution line and the second distribution line are arranged oppositely and in an isolated mode. By skillfully planning and distributing the data center equipment, the complete physical isolation of power distribution, refrigeration equipment and pipelines in each independent area can be realized simultaneously, a higher fault-tolerant level is achieved, the energy consumption of the data center is reduced, the energy efficiency and the refrigeration efficiency are improved, and the requirements of low-carbon economic construction are met.

Description

Modular data center and data center with large flat-layer layout

Technical Field

The utility model relates to a data center computer lab system technical field, concretely relates to modularization data center and data center of big flat bed overall arrangement.

Background

A data center (DataCenter) generally refers to a key device that performs centralized processing, storage, transmission, exchange, management of information in one physical space, and a carrier required for the key device to operate. Carriers include critical physical infrastructure for building facilities, environments, power supply systems, refrigeration systems, cabinet systems, fire protection systems, monitoring systems, and the like.

In order to improve the utilization rate of a used motor of a machine room in a data center relative to the whole building area, a data center with a modular design is often adopted at present, wherein the modular data center means that each module has an independent function, a unified input/output interface and modules in different areas can be mutually backed up, and a complete data center is formed by arranging and combining related modules.

Although the utilization rate of the whole building area of the data center is improved to a certain extent, how to realize the isolation design among all areas of the data center, especially the complete physical isolation of power distribution and refrigeration, the existing data center building is difficult to realize, or the building area of the data center needs to be enlarged to realize the complete physical isolation, so that the cost is greatly increased.

Therefore, how to realize complete physical isolation among the regions and between the modules in the regions to achieve a higher fault-tolerant level under the condition of ensuring the utilization rate of the whole building area of the data center is a technical problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming among the prior art that data center is difficult to realize the technical problem of complete physical isolation between each region under the condition of guaranteeing whole building area utilization to a data center of modularization data center and big flat bed overall arrangement is provided.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a modular data center, comprising:

the container body, the internal space of the container body is separated and provided with an equipment room and a power distribution room at least;

the machine room prefabricating module is arranged in the equipment room;

the distribution prefabrication module is arranged in the distribution room and comprises a first distribution prefabrication module and a second distribution prefabrication module which are respectively arranged in two cabins which are mutually independent;

the air conditioner prefabricating module is arranged on the outer wall of the container body and corresponds to the machine room prefabricating module, and comprises a first air conditioner prefabricating module and a second air conditioner prefabricating module which are completely separated by the container body;

the first power distribution prefabrication module is connected with the machine room prefabrication module and the air conditioner prefabrication module through a first power distribution line; the second power distribution prefabrication module is connected with the machine room prefabrication module and the air conditioner prefabrication module through a second power distribution line; the first distribution line and the second distribution line are arranged oppositely and in an isolated mode.

Furthermore, the inside aerial cable crane span structure that is provided with of container box, first distribution lines with the second distribution lines sets up respectively two overhead line inslots that keep apart each other on the cable crane span structure.

Furthermore, a plurality of cabins are respectively arranged in the equipment room and the power distribution room.

Furthermore, two adjacent cabins are separated by a partition board, the partition board is movably arranged on the container body to adjust the size of the cabin, and a partition door is arranged on the partition board.

Furthermore, the distribution room comprises at least two cabins separated by the partition plate, and the first distribution prefabricated module and the second distribution prefabricated module are respectively and independently arranged in the corresponding cabins.

Furthermore, at least two mutually independent battery chambers, a first battery module and a second battery module which are respectively arranged in the mutually independent two battery chambers are arranged in the container body in a separated manner; the first battery module and the first distribution prefabricated module are wired through a cable trench located in the floor, and the second battery module and the second distribution prefabricated module are wired through a cable bridge frame arranged in an overhead mode.

Furthermore, maintenance channels are arranged among the equipment room, the power distribution room and the battery chamber, and channel doors corresponding to the maintenance channels are arranged on the container body.

Furthermore, the machine room prefabricating module comprises an IT equipment cabinet and a row-to-row air conditioner, and the power distribution prefabricating module comprises power distribution equipment and a row-to-row air conditioner; the IT equipment cabinet, the power distribution equipment and the inter-row air conditioner are fixedly arranged on the cable bridge frame through mounting interfaces compatible with the overhead wire slot respectively.

Further, the IT equipment cabinet and the power distribution equipment are respectively not less than 750mm away from the front surface of the container body and not less than 450mm away from the rear surface of the container body.

In a second aspect, the present invention further provides a data center with a large flat-bed layout, which comprises a building body and at least two modular data centers, wherein the modular data centers are connected to the building body and are separated from the building body.

The utility model discloses technical scheme has following advantage:

1. the utility model provides a modularized data center, which arranges a first air-conditioning prefabricated module and a second air-conditioning prefabricated module at two sides of an equipment room to realize the physical isolation of air-conditioning equipment; the first power distribution prefabricated module and the second power distribution prefabricated module are respectively arranged in two mutually independent cabins to realize power distribution isolation of power distribution equipment; the first distribution line and the second distribution line are arranged oppositely and in an isolated mode, and complete physical isolation of the distribution lines is achieved; the modular data center can realize complete physical isolation of power distribution, refrigeration equipment and pipelines in each independent area under the condition of ensuring the utilization rate of the whole building area of the data center, and achieves higher fault-tolerant level. Meanwhile, the modular data center can reduce the energy consumption of the data center, improve the energy efficiency and the refrigeration efficiency, can be compatible with the construction requirements of most of the data centers, can be used for mass production, reduces the transportation cost and the like, is green and energy-saving, and meets the requirements of low-carbon economic construction.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a layout diagram of a large flat-floor modular data center according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an internal layout structure of a modular data center according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a layout structure of a first distribution line in a modular data center according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a layout structure of the second distribution line in the modular data center according to an embodiment of the present invention.

Description of reference numerals: 100. a building body; 200. a container body; 210. a device room; 220. a distribution room; 230. a battery chamber; 300. an air conditioner prefabricating module; 310. a first air conditioning prefabrication module; 320. a second air conditioning prefabrication module; 400. prefabricating a module in a machine room; 500. a power distribution prefabrication module; 510. a first power distribution prefabrication module; 520. a second power distribution prefabrication module; 600. a first distribution line; 700. a second distribution line; 810. A first battery module; 820. and a second battery module.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

The data center with the large flat-bed layout as shown in fig. 1 comprises a building main body 100 and four modular data centers which are connected to two sides of the building main body 100 and are separated from each other by the building main body 100, wherein the four modular data centers are symmetrically arranged on two sides of the building main body 100 in pairs, so that physical isolation among different modular data centers can be realized. It is understood that the number of the modular data centers on the same side of the building main body 100 may be one, three or more, and the specific number may be adaptively selected according to the needs. The data center with the large flat-layer layout adopts the idea of modular design, and solves the problem of physical isolation design among building areas of the data center.

In this embodiment, the modular data center includes a container body 200, a machine room prefabrication module 400, a power distribution prefabrication module 500 and an air conditioner prefabrication module 300. The interior space of the container body 200 is at least provided with an equipment room 210 and a power distribution room 220 at intervals, the machine room prefabricated module 400 is arranged in the equipment room 210, the power distribution prefabricated module 500 is arranged in the power distribution room 220, and the air conditioner prefabricated module 300 is arranged on the outer wall of the container body 200 and corresponds to the machine room prefabricated module 400. The distribution prefabrication module 500 comprises a first distribution prefabrication module 510 and a second distribution prefabrication module 520 which are respectively arranged in two cabins which are mutually independent, wherein the first distribution prefabrication module 510 and the second distribution prefabrication module 520 are both low-voltage distribution modules and respectively supply power to the distribution prefabrication module 500 and the air conditioner prefabrication module 300 independently; the ac module 300 includes a first ac module 310 and a second ac module 320 completely separated by the container body 200. The first power distribution prefabrication module 510 is connected with the machine room prefabrication module 400 and the air conditioner prefabrication module 300 through a first power distribution line 600, and the second power distribution prefabrication module 520 is connected with the machine room prefabrication module 400 and the air conditioner prefabrication module 300 through a second power distribution line 700; the first distribution line 600 and the second distribution line 700 are disposed opposite and in isolation.

Arranging a first air-conditioning prefabricating module 310 and a second air-conditioning prefabricating module 320 on two sides of an equipment room 210 to realize physical isolation of air-conditioning equipment; the first power distribution prefabrication module 510 and the second power distribution prefabrication module 520 are respectively arranged in two mutually independent cabins to realize power distribution isolation of power distribution equipment; the first distribution line 600 and the second distribution line 700 are arranged oppositely and in an isolated manner, so that complete physical isolation of the distribution lines is realized; the modular data center can simultaneously realize the complete physical isolation design of the power distribution equipment, the refrigeration equipment and the pipelines in each independent area of the data center under the condition of ensuring the whole building area utilization rate of the data center, and can achieve higher fault-tolerant level. Meanwhile, the modular data center is high in integration level, energy consumption of the data center can be reduced, energy efficiency and refrigeration efficiency are improved, construction requirements of most of the data centers can be compatible, and low-carbon economic construction requirements are met.

In this embodiment, the container body 200 is assembled on site by using partition plates, and the machine room prefabricated module 400, the power distribution prefabricated module 500 and the air conditioner prefabricated module 300 are all installed on the container body 200 in an assembling manner. The modular data center with the assembled structure can flexibly determine the layout structure of the data center according to the field terrain, is convenient to transport, and can effectively reduce the transport cost.

In this embodiment, a floor is disposed at the bottom of the container body 200, a cable bridge is erected inside the container body 200, and the first distribution line 600 and the second distribution line 700 are respectively disposed in two overhead wire slots isolated from each other on the cable bridge. According to the arrangement mode of the air conditioning lines, the first distribution line 600 and the second distribution line 700 can be completely physically isolated, and accidents are not easy to happen.

In this embodiment, the equipment room 210 and the power distribution room 220 are respectively provided with a plurality of cabins. Two adjacent cabins are separated by a partition board which is movably arranged on the container body 200, and a partition door is arranged on the partition board. The size of each compartment can be adjusted by adjusting the installation position of the partition inside the container body 200.

In this embodiment, the distribution room 220 includes two compartments separated by a partition, and the first prefabricated distribution module 510 and the second prefabricated distribution module 520 are independently disposed in the corresponding compartments. So set up, can realize the physical isolation of two sets of low pressure distribution modules.

In this embodiment, at least two independent battery chambers 230, and a first battery module 810 and a second battery module 820 respectively disposed in the two independent battery chambers 230 are further separately disposed in the container body 200; the first battery module 810 and the first distribution prefabricated module 510 are wired through a cable trench located in the floor, and the second battery module 820 and the second distribution prefabricated module 520 are wired through a cable bridge arranged overhead. So configured, the first prefabricated power distribution module 510 or the second prefabricated power distribution module 520 may achieve complete physical isolation of the battery compartment 230 from the power distribution compartment, while the first battery module 810 and the second battery module 820 may also achieve complete physical isolation.

In a preferred embodiment of this embodiment, the cable light is made of steel, and the cable trench made of steel has high structural strength and is not easily damaged, so as to provide a good protection effect for the internal circuit.

Further, maintenance channels are arranged among the equipment room 210, the power distribution room 220 and the battery chamber 230, and access doors corresponding to the maintenance channels are arranged on the container body 200, so that the maintenance channels and the access doors are convenient for equipment in each cabin to be overhauled and maintained.

Specifically, the machine room prefabricating module 400 comprises an IT equipment cabinet and a row-to-row air conditioner, and the power distribution prefabricating module 500 comprises power distribution equipment and a row-to-row air conditioner; the IT equipment cabinet, the power distribution equipment and the inter-row air conditioner are fixedly arranged on the cable bridge frame through mounting interfaces compatible with the overhead line slot respectively.

Specifically, the IT equipment cabinet and the power distribution equipment are respectively spaced from the front surface of the container body 200 by not less than 750mm and from the rear surface of the container body 200 by not less than 450 mm.

Specifically, monitoring equipment, network equipment and security equipment are also installed in the equipment room 210; security and protection equipment is further installed in the power distribution room 220. The distribution equipment comprises a storage battery cabinet, a power distribution cabinet and a UPS cabinet.

To sum up, the embodiment of the utility model provides a modular data center carries out ingenious planning overall arrangement to data center equipment, under the condition of guaranteeing the whole building area utilization ratio of data center, can realize the complete physics of distribution, refrigeration plant and the pipeline in each independent area simultaneously and keep apart, reaches higher fault-tolerant rank. Meanwhile, the modular data center is high in space utilization rate, energy consumption of the data center can be reduced, energy efficiency and refrigeration efficiency are improved, the modular data center can be compatible with construction requirements of most of the data centers, can be used for mass production, reduces transportation cost and the like, is green and energy-saving, and meets the requirements of low-carbon economic construction.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A modular data center, comprising:

the container body (200) is provided with an equipment room (210) and a power distribution room (220) at least in an internal space at intervals;

the machine room prefabricating module (400) is arranged in the equipment room (210);

the power distribution prefabricated module (500) is arranged in the power distribution room (220) and comprises a first power distribution prefabricated module (510) and a second power distribution prefabricated module (520) which are respectively arranged in two cabins which are independent from each other;

the air-conditioning prefabrication module (300) is arranged on the outer wall of the container body (200) and corresponds to the machine room prefabrication module (400), and comprises a first air-conditioning prefabrication module (310) and a second air-conditioning prefabrication module (320) which are completely separated by the container body (200);

the first power distribution prefabrication module (510) is connected with the machine room prefabrication module (400) and the air conditioner prefabrication module (300) through a first distribution line (600); the second power distribution prefabrication module (520) is connected with the machine room prefabrication module (400) and the air conditioner prefabrication module (300) through a second distribution line (700); the first distribution line (600) and the second distribution line (700) are arranged oppositely and in isolation.

2. The modular data center of claim 1, wherein a cable tray is provided overhead inside the container box (200), and the first distribution line (600) and the second distribution line (700) are respectively provided in two overhead wire slots isolated from each other on the cable tray.

3. The modular data center of claim 1, wherein the equipment room (210) and the power distribution room (220) are each provided with a plurality of compartments.

4. The modular data center of claim 3, wherein two adjacent compartments are separated by a partition, said partition being movably mounted to said container body (200) to adjust the size of said compartments, said partition being provided with a door.

5. The modular data center of claim 4, wherein the power distribution room (220) includes at least two compartments separated by the partition, and the first prefabricated power distribution module (510) and the second prefabricated power distribution module (520) are each independently disposed within a corresponding one of the compartments.

6. The modular data center of claim 1, wherein at least two independent battery chambers (230) and a first battery module (810) and a second battery module (820) respectively disposed in the two independent battery chambers (230) are further partitioned in the container body (200); the first battery module (810) and the first power distribution pre-fabricated module (510) are routed through a cable raceway located within a floor; the second battery module (820) and the second power distribution pre-fabricated module (520) are routed through an overhead cable tray.

7. The modular data center of claim 6, wherein a maintenance passageway is provided between the equipment room (210), the power distribution room (220), and the battery compartment (230), and an access door corresponding to the maintenance passageway is provided on the container body (200).

8. The modular data center of claim 2, wherein the machine room prefabricated modules (400) comprise an IT equipment cabinet and a inter-column air conditioner, and the power distribution prefabricated modules (500) comprise power distribution equipment and an inter-column air conditioner; the IT equipment cabinet, the power distribution equipment and the inter-train air conditioner are fixedly arranged on the cable bridge through mounting interfaces compatible with the overhead line slot cable duct respectively.

9. The modular data center of claim 8, wherein the IT equipment cabinet and the power distribution equipment are spaced no less than 750mm from a front surface of the container (200) and no less than 450mm from a rear surface of the container (200), respectively.

10. A large flat-floor layout data center comprising a building body (100) and at least two modular data centers according to any of claims 1-9 attached to and spaced from the building body (100).

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