CN117915610A - Modularized data center - Google Patents

Abstract

The application discloses a modularized data center, which relates to the technical field of data centers and comprises an installation module, wherein the installation module comprises a first installation module, a second installation module and a third installation module which are sequentially connected; the second installation module is internally provided with a first partition board which is used for dividing the second module into a first installation space and a second installation space; the first installation space is communicated with the first installation module to form a space for installing the data center cabinet and corresponding electrical equipment in a matching way; the second installation space is used for installing data center liquid cooling pipeline equipment, and the second installation space is communicated with the third installation module to form a space for installing another group of data center cabinets and corresponding electrical equipment in a matching mode. The application has the effect of increasing the size of the data center of the modular data center.

Description

Modularized data center

Technical Field

The application relates to the technical field of data centers, in particular to a modularized data center.

Background

As technology evolves, enterprise and government demands on data centers grow rapidly. At present, the data center is built mainly by adopting a traditional building mode, namely, a reinforced concrete structure is built, then the data center is installed, and secondly, a modularized building mode is adopted, namely, the data center and matched equipment thereof are installed in an installation module in a factory, the matched equipment of the data center comprises electric equipment corresponding to the data center, fire-fighting equipment, cables connected with the data center and a wire frame used for fixing the cables, and then the installation module is transported to a construction site and a plurality of installation modules are assembled. The modular construction data center mode is becoming a mainstream production because it has only about 1/3 of the construction period of the conventional data center and because most of the work can be done in factories with high assembly quality.

The installation modules of the modular data center are limited in terms of road bridge tunneling height during transportation such that the height of the installation modules of the modular data center is generally no greater than 4200mm, thereby limiting the height of the space within the installation modules for installing the data center.

Disclosure of Invention

The application provides a modularized data center, which aims to improve the height of a single-layer space formed after the modularized data center is assembled.

The application provides a modularized data center, which adopts the following technical scheme:

a modular data center, comprising:

The installation module comprises a first installation module, a second installation module and a third installation module which are sequentially connected;

a first partition board is arranged in the second installation module and used for dividing the second module into a first installation space and a second installation space;

the first installation space is communicated with the first installation module to form a space for installing a data center cabinet and corresponding electrical equipment in a matching way;

The second installation space is used for installing data center liquid cooling pipeline equipment, and the second installation space is communicated with the third installation module to form a space for installing another group of data center cabinets and corresponding electrical equipment in a matching mode.

Through adopting above-mentioned technical scheme, divide into first installation module, second installation module and third installation module with traditional two-layer data center's installation module to reduce the limit for height of road limit for height to the restriction of installation module, thereby make the individual layer that forms after three installation module are assembled be used for installing data center and the space of supporting equipment highly can improve, thereby be convenient for later stage data center's transformation or increase data center's size, and the inside data center of third installation module can use the cooling mode of liquid cooling, improve its cooling efficiency.

Optionally, the first partition board is a concrete structure floor board.

Through adopting above-mentioned technical scheme, use concrete structure floor board under the requirement that accords with fire prevention and waterproof performance and structural strength can reduce the manufacturing cost of first baffle.

Optionally, the first separator is a composite floor board.

By adopting the technical scheme, the composite floor plate can be in a combined form of a floor plate, a beam and a fireproof plate, and can also be in other combined forms. The fire and water resistance of the first separator can be further improved by using the composite floor plate.

Optionally, the first installation space is used for installing electrical equipment corresponding to the data center cabinet of the first installation module, and the electrical equipment is connected with the corresponding data center cabinet through a detachable cable.

Through adopting above-mentioned technical scheme, detachable cable can be convenient for data center rack and electrical equipment be connected to improve data center and electrical equipment's connection efficiency, thereby improve the efficiency of construction.

Optionally, the third installation module is used for installing the data center cabinet and the corresponding electrical equipment, and the third installation module includes a support plate near one end of the second installation module.

By adopting the technical scheme, the supporting plate provides an installation carrier for installing the data center cabinet, so that the data center cabinet can be installed on the third installation module in a factory, and the installation efficiency of the third installation module in a construction site is improved.

Optionally, the first installation module and the second installation module and the third installation module are detachably connected through bolts.

Through adopting above-mentioned technical scheme, because data center rack is more, can be convenient for first installation module, second installation module and the dismouting of third installation module through the mode of bolt detachable connection to can make supporting base when transporting first installation module, second installation module and third installation module, make the base be fixed in the transport vechicle volume, will correspond installation module again and pass through the bolt detachable connection in the base, thereby be convenient for correspond the transportation of installation module.

Optionally, including the raised floor, the raised floor includes dull and stereotyped and a plurality of vertical support, and a plurality of vertical support intervals set up in dull and stereotyped downside for be formed with the third installation space that is used for installing data center liquid cooling pipeline equipment between the adjacent vertical support, the raised floor is installed in the second installation space, dull and stereotyped roof and backup pad roof coplanarity.

Through adopting above-mentioned technical scheme, the flat board can support the bottom of adjacent installation module, and vertical support has formed the space that is used for the liquid cooling pipeline installation when supporting the flat board to make simple structure compact.

Optionally, the raised floor is provided with a plurality of, and installs simultaneously in second installation space and first installation module bottom, the dull and stereotyped of first installation module bottom is used for installing data center rack.

Through adopting above-mentioned technical scheme, when the raised floor was installed in first installation module diapire, first installation module also can use the liquid cooling to dispel the heat to the data center rack in it to improve the radiating effect who corresponds data center rack.

Optionally, the first installation module, the second installation module and the third installation module are connected to form an installation unit, and the plurality of installation units can be connected in sequence along the horizontal direction and the vertical direction.

In summary, the present application includes at least one of the following beneficial effects:

1. The traditional two data center installation modules are divided into a first installation module, a second installation module and a third installation module, so that the limit of road height to the height of the installation modules is reduced, the height of a single layer formed by assembling the three installation modules for installing the data center and the space of matched equipment of the data center can be improved, and the improvement of the later data center or the increase of the size of the data center is facilitated;

2. Because the number of the cabinets of the data center is large, the first installation module, the second installation module and the third installation module can be conveniently disassembled and assembled in a bolt detachable connection mode, and a matched base can be manufactured when the first installation module, the second installation module and the third installation module are transported, so that the base is fixed on a transport vehicle, and then the corresponding installation module is detachably connected to the base through the bolt, so that the transportation of the corresponding installation module is convenient;

3. the flat plate can support the bottoms of the adjacent installation modules, and the vertical support forms a space for installing the liquid cooling pipeline while supporting the flat plate, so that the structure is simple and compact;

4. When the raised floor is installed on the bottom wall of the first installation module, the first installation module can also use liquid cooling to radiate the data center cabinet in the first installation module, so that the radiating effect of the corresponding data center cabinet is improved.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

fig. 2 is a schematic diagram showing the structure of a second installation module according to an embodiment of the present application.

Reference numerals illustrate: 1. a first mounting module; 2. a second mounting module; 21. a first installation space; 22. a second installation space; 23. a first separator; 3. a third installation module; 31. a support plate; 4. raised floors; 41. a flat plate; 42. a vertical support; 43. a third installation space; 5. a data center cabinet; 6. an electrical device; 7. and (3) a steel structure.

Detailed Description

The application is described in further detail below with reference to fig. 1-2.

The data center cabinet 5 and the corresponding electrical equipment 6 are installed in the installation module, so that channels for operators to pass through are formed on two sides of the data center cabinet 5 inside the installation module, and the electrical equipment 6 is arranged above the data center cabinet 5. The data center cabinet 5 also needs to be provided with a corresponding cooling system, the cooling system is commonly used with air cooling and liquid cooling, the cooling effect of the liquid cooling on the data center cabinet 5 is better than that of the air cooling, but the liquid cooling needs to be paved with a liquid cooling pipeline for flowing cooling liquid, and the liquid cooling pipeline is generally arranged below the data center cabinet 5.

Referring to fig. 1, a floor structure of a modular data center and a data center thereof disclosed by the embodiment of the application comprise mounting modules, wherein the mounting modules are cuboid boxes, and each mounting module comprises a first mounting module 1, a second mounting module 2 and a third mounting module 3.

Referring to fig. 2, a first installation module 1 is installed on a foundation, a data center cabinet 5 is installed inside the first installation module 1, and an opening is formed at the top of the first installation module 1. The second installation module 2 sets up in first installation module 1 top, and can dismantle with first installation module 1 through the cooperation of bolt and steel construction 7 and be connected, and the inside first baffle 23 that is provided with of second installation module 2 for the inside first installation space 21 that is close to first installation module 1 and the second installation space 22 that keeps away from first installation module 1 that forms of second module, first installation space 21 communicates with first installation module 1 inside through the opening at first installation module 1 top.

Referring to fig. 2, the third installation module 3 is disposed above the second installation module 2 and detachably connected with the second installation module 2 through the cooperation of bolts and the steel structure 7, a rectangular support plate 31 is disposed at the bottom of the third installation module 3, and an opening is formed in the support plate 31, so that the inside of the third installation module 3 is communicated with the second installation space 22 through the opening in the support plate 31.

The first installation module 1, the second installation module 2 and the third installation module 3 can form two layers of building layers provided with the data center and the matched equipment thereof after being connected with each other, so that the layer height of the building layers provided with the data center and the matched equipment thereof is higher, the installation space of the data center and the matched equipment thereof can be enlarged due to the higher layer height of the building layers, a user can reconstruct the data center subsequently, and meanwhile, the height of the data center breaks through the height of the traditional modularized data center. The heights of the first installation module 1, the second installation module 2 and the third installation module 3 can be designed according to the user requirement or the transportation limit height, so that the flexibility and the applicability of the installation modules are improved.

The first installation module 1 is used for installing the data center cabinet 5, the first installation space 21 is used for installing the electrical equipment 6 corresponding to the data center cabinet 5 inside the first installation module 1, the opening at the top of the first installation module 1 is used for enabling cables connected with the data center cabinet 5 and the corresponding electrical equipment 6 to pass through, and a cooling system corresponding to the data center cabinet 5 inside the first installation module 1 is air-cooled.

The third installation module 3 is used for installing the data center cabinet 5 and the corresponding electrical equipment 6, and a cooling system corresponding to the data center mechanism inside the third installation module 3 is liquid cooling, so as to improve the cooling effect of the data center cabinet 5 inside the third module. The support plate 31 is used for installing the data center cabinet 5, the opening on the support plate 31 is used for corresponding liquid cooling pipeline to pass through, and the second installation space 22 is used for laying the liquid cooling pipeline.

Referring to fig. 2, the first, second and third installation modules 1,2 and 3 may be detachably connected through bolts with the steel structure 7 in such a manner that the first, second and third installation modules 1,2 and 3 are convenient to be disassembled and assembled, and the first, second and third installation modules 1,2 and 3 are transported while being manufactured with a matched base, so that the base is fixed to a transport vehicle, and the corresponding installation module is detachably connected to the base through bolts, thereby facilitating the transportation of the corresponding installation module.

In other embodiments of the present application, a plurality of mounting units formed by sequentially connecting the first mounting module 1, the second mounting module 2 and the third mounting module 3 may be provided in the vertical direction and the horizontal direction, and if only one layer of mounting units is provided, adjacent mounting units may be detachably connected through the cooperation of bolts and the steel structure 7, so as to improve the assembly efficiency, or may be fixedly connected through other manners, such as welding. If there is multilayer installation unit, because the accumulation of weight, need use welded connection or through high-strength bolted connection between the installation module of lower floor, also can set up structures such as strengthening rib and floor in junction, so as to increase the holistic intensity of installation module, thereby improve the stability of connection between the installation module, when the installation unit is the multilayer, the lateral wall of installation module need be offered and be used for the opening that the staff passed through, carry out adaptive design to other structures simultaneously, and can set up the sealing strip in junction or use the sealant to seal the seam crossing, thereby improve the seal of installation module, in order to improve the waterproof nature and the fire resistance of installation module, thereby reduce the diffusion rate of disasters such as conflagration, reduce the loss that causes because of disasters such as conflagration.

Referring to fig. 2, the first partition 23 provides a mounting carrier for the liquid cooling pipeline and the electric device 6, and can partition two building layers, and in the embodiment of the present application, the first partition 23 is a concrete structure floor board, and the manufacturing cost of the first partition 23 can be reduced under the condition that the concrete floor board meets the requirements of fire resistance and water resistance and structural strength. In other embodiments of the present application, the first separator 23 is a composite floor board, and the composite floor board may be a combination of a floor board, a beam and a fireproof board, or may be other combinations. The use of the composite floor panel can further improve the fire and water resistance of the first separator 23, thereby improving the safety of the installation module under the condition that the strength of the first separator 23 meets the requirements.

The data center cabinet 5 is connected with the corresponding electrical equipment 6 through detachable cables, and the installation efficiency of the cables can be improved by using the detachable cables due to the fact that the number of the connecting cables is large, so that the construction efficiency is improved.

Referring to fig. 2, the modular data center further includes a plurality of raised floors 4, and the raised floors 4 include a flat plate 41 and a plurality of vertical supports 42 arranged in parallel, wherein the plurality of vertical supports 42 are all arranged on one end surface of the flat plate 41, and the plurality of vertical supports 42 are arranged in parallel and at intervals, so that a third installation space 43 is formed between adjacent vertical supports 42. The raised floor 4 is mounted to the bottom of the first installation module 1 such that the vertical support 42 is located on the side of the slab 41 remote from the second installation module 2.

The data center cabinet 5 inside the first installation module 1 is installed in the flat plate 41, and the plurality of third installation spaces 43 between the vertical supports 42 provide a space for laying the liquid cooling pipeline, so that the data center cabinet 5 inside the first installation module 1 can also use a liquid cooling mode, thereby improving the cooling effect of the data center cabinet 5 inside the first installation module 1. The plurality of vertical supports 42 can improve the stability of the raised floor 4 while providing space for laying the liquid cooled pipeline.

Referring to fig. 2, the raised floor 4 is further installed inside the second installation space 22 such that the flat plate 41 is inserted into the third installation module 3 through the opening of the support plate 31 such that the top surface of the flat plate 41 is coplanar with the top surface of the support plate 31, the vertical support 42 is abutted with the first partition 23 for increasing the stability of the support plate 31, and the flat plate 41 of the raised floor 4 may be provided with a groove for accommodating the support plate 31 corresponding to the support plate 31 such that when the support plate 31 is inserted into the groove, the top wall of the support plate 31 is coplanar with the top wall of the flat plate 41 such that the flat plate 41 and the support plate 31 together serve as a floor on which a worker steps. At this time, the liquid cooling pipeline corresponding to the data center cabinet 5 inside the third installation module 3 is laid in the third installation space 43 inside the second installation space 22, so that the data centers corresponding to the third installation module 3 and the first installation module 1 can be cooled by using a liquid cooling mode.

The implementation principle of the modularized data center provided by the embodiment of the application is as follows: the traditional two data center installation modules are divided into the first installation module 1, the second installation module 2 and the third installation module 3, so that the limit of the height of a road is reduced, the height of a single layer formed after the three installation modules are assembled is used for installing a data center mechanism and the height of the space of matched equipment of the data center mechanism can be improved, the later data center transformation is facilitated, or the size of the data center is increased, and the processing capacity of the data center is improved.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. A modular data center, comprising:

the installation module comprises a first installation module (1), a second installation module (2) and a third installation module (3) which are sequentially connected;

A first partition board (23) is arranged in the second installation module (2), and the first partition board (23) is used for dividing the second module into a first installation space (21) and a second installation space (22);

The first installation space (21) is communicated with the first installation module (1) to form a space for installing a data center cabinet (5) and corresponding electrical equipment (6) in a matching way;

The second installation space (22) is used for installing data center liquid cooling pipeline equipment, and the second installation space (22) is communicated with the third installation module (3) to form a space for installing another group of data center cabinets (5) and corresponding electrical equipment (6) in a matching mode.

2. A modular data center as claimed in claim 1, wherein: the first partition plate (23) is a concrete structure floor plate.

3. A modular data center as claimed in claim 1, wherein: the first partition plate (23) is a composite floor plate.

4. A modular data center as claimed in claim 1, wherein: the first installation space (21) is used for installing electrical equipment (6) corresponding to the data center cabinet (5) of the first installation module (1), and the electrical equipment (6) is connected with the corresponding data center cabinet (5) through a detachable cable.

5. A modular data center as claimed in claim 1, wherein: the third installation module (3) is used for installing the data center cabinet (5) and corresponding electrical equipment (6), and the third installation module (3) comprises a supporting plate (31) close to one end of the second installation module (2).

6. A modular data center as claimed in claim 1, wherein: the first installation module (1) and the second installation module (2) and the third installation module (3) are detachably connected through bolts.

7. A modular data center as claimed in claim 1, wherein: including raised floor (4), raised floor (4) include dull and stereotyped (41) and a plurality of vertical support (42), and a plurality of vertical support (42) interval set up in dull and stereotyped (41) downside for be formed with between adjacent vertical support (42) and be used for installing third installation space (43) of data center liquid cooling pipeline equipment, raised floor (4) are installed in second installation space (22), dull and stereotyped (41) roof and backup pad (31) roof coplanarity.

8. A modular data center as claimed in claim 7, wherein: the raised floor (4) is provided with a plurality of raised floors and is simultaneously installed at the bottoms of the second installation space (22) and the first installation module (1), and a flat plate (41) at the bottom of the first installation module (1) is used for installing the data center cabinet (5).

9. A modular data center as claimed in claim 1, wherein: the first installation module (1), the second installation module (2) and the third installation module (3) are connected to form an installation unit, and a plurality of installation units can be connected in sequence along the horizontal direction and the vertical direction.