CN111005597A

CN111005597A - Combinable assembled data center system

Info

Publication number: CN111005597A
Application number: CN201911350843.3A
Authority: CN
Inventors: 徐华刚; 程育林; 王浩; 杜彧; 张应品; 唐紫松; 黄兵兵; 贾宇航; 龚世海
Original assignee: Dy-Link Engineering & Technology Co ltd
Current assignee: Dy-Link Engineering & Technology Co ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-04-14

Abstract

The invention discloses a combinable assembled data center system which is formed by stacking and fixedly combining a plurality of structure groups in the vertical direction, wherein each structure group is composed of a plurality of data center blocks and two maintenance channel blocks, each data center block is positioned between the two maintenance channel blocks, each data center block is formed by sequentially and fixedly combining a plurality of frame blocks, and each maintenance channel block is formed by sequentially and fixedly combining a plurality of frame blocks. The structure of the invention has good universality, is convenient for later-stage upgrading and capacity expansion, can be suitable for the requirements of various data centers of different types by adopting a combinable mode, combines a plurality of data centers together, and can reduce the energy consumption to a great extent by adopting a mode of sharing a hot channel between two adjacent rows and sharing a cold channel between the same row; the invention can be rapidly combined, and the occupied area is reduced. The invention has the advantages of good universality among all the parts, convenient combination and transportation, contribution to shortening the construction period of the whole data center and reduction of the construction cost.

Description

Combinable assembled data center system

Technical Field

The invention belongs to the field of internet infrastructure, and particularly relates to a combined assembly type data center system.

Background

At present, data centers in China are still in a high-speed construction and development period, great support of various government departments on strategic emerging industries and high attention on development of cloud computing, internet of things, broadband and next-generation networks bring great interest factors for construction of the data centers, particularly, the data centers are urgently required to be constructed in two-line and three-line cities, the number of the large data centers in the future can be determined to be more and more, more and more data centers can be constructed in places with underdeveloped economy, and the number distribution of the data centers in China can be more balanced.

The existing data center building is independent of electromechanics, the whole construction period is long, the expansion and the upgrade in the later period are not facilitated, the limitation is large, if the mode of the combined data center is adopted, the limitation of the traditional data center can be solved to a great extent, and the combined data center is better suitable for the construction of a 5G network.

Disclosure of Invention

The invention aims to provide a data center system which can be assembled quickly and is convenient to combine and expand and upgrade at the later stage aiming at the defects of the prior art.

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

the utility model provides a fabricated data center system that can make up, fabricated data center system piles up fixed combination by a plurality of structures group in vertical direction and forms, the structure group comprises a plurality of data center pieces and two maintenance passageway blocks, the data center piece is located between two maintenance passageway blocks, the data center piece is formed by a plurality of frame pieces fixed combination in proper order, maintenance passageway block is formed by a plurality of frame pieces fixed combination in proper order.

Furthermore, the left end and the right end of the data center block are respectively fixedly communicated with the inner sides, close to the data center block, of the two overhauling channel blocks.

Further, the frame piece includes and is formed by four steel structure block combinations, four steel structure blocks are first steel structure block, second steel structure block, third steel structure block, fourth steel structure block respectively, four steel structure blocks enclose to close and connect into the cube, fixed mounting plate structure on every face of frame piece.

Further, the steel structure block is of a hollow rectangular frame structure.

Further, first steel structure piece right-hand member face and second steel structure piece left end face rear side fixed connection, terminal surface and third steel structure piece rear end face right side fixed connection before the second steel structure piece, third steel structure piece left end face and fourth steel structure piece right-hand member face front side fixed connection, terminal surface left side fixed connection before fourth steel structure piece rear end face and the first steel structure piece.

Further, the data center block is fixedly installed by a plurality of frame blocks from left to right in sequence, access holes are formed in the left end portion and the right end portion of the data center block, and the access holes are communicated with the access channel blocks.

Furthermore, the data center block is internally used for installing server equipment and electromechanical equipment, and the surfaces of the data center block, which are in contact with the outside, are provided with plate structures for sealing and water proofing.

Furthermore, a cold channel and a hot channel are arranged in the data center blocks, the data center blocks in two adjacent rows are communicated and share the same hot channel, and the data center blocks combined up and down share the same cold channel.

Further, the access passage block is fixed mounting is completed from front to back by a plurality of frame blocks in sequence, a plurality of corresponding access openings are formed in the end face, close to the data center block, of the access passage block, and the access openings of the access passage block are communicated with the access openings of the data center block correspondingly.

Further, both ends are provided with the access door around the maintenance passageway piece, the face that maintenance passageway piece and external world contacted all installs and is used for sealed waterproof panel structure, be provided with vent and light in the maintenance passageway piece, install stair between the maintenance passageway piece of upper and lower combination together, install cooling equipment in the maintenance passageway piece.

By adopting the technical scheme of the invention, the invention has the beneficial effects that: compared with the prior art: the structure of the invention has good universality, is convenient for later-stage upgrading and capacity expansion, can be suitable for the requirements of various data centers of different types by adopting a combinable mode, combines a plurality of data centers together, and can reduce the energy consumption to a great extent by adopting a mode of sharing a hot channel between two adjacent rows and sharing a cold channel between the same row; the invention can select different data centers to be quickly combined according to actual requirements, thereby reducing the occupied area and improving the integral attractiveness. Because most of components can be produced in advance, the universality among all the components is good, the combination is convenient, the transportation of the whole data center is convenient, the construction period of the whole data center is favorably shortened, and the construction cost is reduced.

Drawings

FIG. 1 is a schematic diagram of an assembled data center system of the present invention.

FIG. 2 is an enlarged schematic view of a configurable modular data center system architecture set according to the present invention.

FIG. 3 is an enlarged schematic view of a modular assembly data center system data center block of the present invention.

FIG. 4 is an enlarged schematic view of a modular assembly data center system service aisle block of the present invention.

FIG. 5 is an enlarged view of a modular data center system frame block according to the present invention.

The combined assembly type data center comprises a combined assembly type data center body 1, a combined assembly type data center body 2, a structure group 10, an access passage block 20, a data center block 30, a frame block 31, a first steel structure block 32, a second steel structure block 33, a third steel structure block 34 and a fourth steel structure block.

Detailed Description

The present invention is further illustrated by the following examples, which are not intended to limit the invention to these embodiments. It will be appreciated by those skilled in the art that the present invention encompasses all alternatives, modifications and equivalents as may be included within the scope of the claims.

Referring to fig. 1-5, a combinable assembled data center system includes a combinable assembled data center 1, the combinable assembled data center system is formed by stacking and fixedly combining a plurality of structure groups 2 in a vertical direction, each structure group 2 is formed by a plurality of data center blocks 20 and two maintenance channel blocks 10, each data center block 20 is located between the two maintenance channel blocks 10, the left end and the right end of each data center block 20 are respectively fixedly communicated with the inner sides, close to the data center block 20, of the two maintenance channel blocks 10, each data center block 20 is formed by sequentially and fixedly combining a plurality of frame blocks 30, and each maintenance channel block 10 is formed by sequentially and fixedly combining a plurality of frame blocks 30.

The frame block 30 is composed of four steel structure blocks, the four steel structure blocks are respectively a first steel structure block 31, a second steel structure block 32, a third steel structure block 33 and a fourth steel structure block 34, the four steel structure blocks are vertically arranged on four directions respectively, are enclosed to form a cube, and can also be of appropriate structures such as a cuboid.

31 right-hand member face of first steel structure piece and 32 left end face rear side fixed connection of second steel structure piece, terminal surface and 33 rear end face right side fixed connection of third steel structure piece before the second

steel structure piece

32, 33 left end faces of third steel structure piece and 34 right-hand member faces front side fixed connection of fourth steel structure piece, terminal surface left side fixed connection before 34 rear end faces of fourth steel structure piece and 31. Each steel structure block-shaped structure can be arranged the same, so that the steel structure block-shaped structure is convenient to produce, manufacture and transport, and is easy, fast and convenient to assemble and easy to operate.

The steel structure block is a hollow frame structure, and a plate structure is fixedly installed on each surface of the frame block 30. The steel structure piece can adopt the monolithic to make or accomplish with steel construction material tailor-welding, all can fixed mounting plate structure on every face of frame piece 30, fixed mounting's plate structure is thermal-insulated as leading with keeping warm in frame piece 30 front, back, left and right, the last five faces, fixed mounting's plate structure uses intensity to give first place to below the frame piece 30.

The data center block 20 determines the number of the frame blocks 30 according to actual requirements, the data center block 20 is sequentially and fixedly mounted by the frame blocks 30 from left to right, overhaul ports are formed in the left end and the right end of the data center block 20 and communicated with the overhaul channel block 10, server equipment and electromechanical equipment are mounted inside the data center block 20, and the face, in contact with the outside, of the data center block 20 is provided with a sealed waterproof plate structure.

The data center blocks 20 are internally provided with cold channels and hot channels, the data center blocks 20 in two adjacent rows are communicated and share one hot channel, and the data center blocks 10 combined up and down share one cold channel.

The maintenance passageway piece 10 is according to the quantity of actual demand definite frame piece 30, maintenance passageway piece 10 is accomplished by a plurality of frame pieces 30 from the preceding fixed mounting in proper order after to, maintenance passageway piece 10 is close to the terminal surface of data center piece 20 and opens there are a plurality of maintenance mouths that correspond, maintenance mouth of maintenance passageway piece 10 corresponds the intercommunication with the maintenance mouth of data center piece 20 respectively.

The maintenance passageway piece 10 is provided with the access door in both ends around, convenient follow-up maintenance, panel structure is all installed with the face of external contact to access passageway piece 10 and is carried out waterproof seal treatment, be provided with vent and light in the access passageway piece 10, install the stair of walking about convenient to overhaul between the access passageway piece 10 of combining together from top to bottom, install cooling device in the access passageway piece, like the air conditioner for guarantee maintainer's comfort level.

The invention is suitable for the field of Internet infrastructure and can be suitable for various data centers needing to be rapidly built.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. A composable prefabricated data center system, characterized in that: the prefabricated data center system is formed by stacking and fixing a plurality of structural groups in the vertical direction, and the structural group is composed of a plurality of data center blocks and two It consists of maintenance channel blocks, the data center block is located between two maintenance channel blocks, the data center block is formed by a plurality of frame blocks fixed in sequence, and the maintenance channel block is formed by a plurality of frame blocks fixed and combined in sequence .

2 . The composable prefabricated data center system according to claim 1 , wherein the left and right ends of the data center block are respectively in fixed communication with the inner sides of the two maintenance channel blocks close to the data center block. 3 .

3. A composable prefabricated data center system according to claim 1, characterized in that: the frame block comprises four steel structure blocks combined, and the four steel structure blocks are the first A steel structure block, a second steel structure block, a third steel structure block, and a fourth steel structure block, the four steel structure blocks are enclosed and connected to form a cube, and a plate structure is fixedly installed on each surface of the frame block.

4 . The composable prefabricated data center system according to claim 3 , wherein the steel structure block is a hollow rectangular frame structure. 5 .

5. A composable prefabricated data center system according to claim 3, characterized in that: the right end face of the first steel structure block is fixedly connected to the rear side of the left end face of the second steel structure block, and the second steel structure block is fixedly connected. The front end surface of the steel structure block is fixedly connected to the right side of the rear end surface of the third steel structure block, the left end surface of the third steel structure block is fixedly connected to the front side of the right end surface of the fourth steel structure block, and the rear end surface of the fourth steel structure block is connected to the third steel structure block. The left side of the front end face of a steel structure block is fixedly connected.

6 . A composable prefabricated data center system according to claim 1 , wherein the data center block is fixedly installed from left to right by a plurality of frame blocks, and the left and right ends of the data center block are fixedly installed. 7 . There are inspection ports at all places, and the inspection ports are communicated with the inspection channel block.

7. A composable prefabricated data center system according to claim 6, characterized in that: the inside of the data center block is used to install server equipment and electromechanical equipment, and the surface of the data center block in contact with the outside world is Install the sheet structure for sealing against water.

8 . The composable prefabricated data center system according to claim 1 , wherein a cold aisle and a hot aisle are arranged in the data center block, and the data center blocks in two adjacent rows communicate with each other. 9 . A hot aisle is shared, and a cold aisle is shared between the upper and lower data center blocks.

9. A composable prefabricated data center system according to claim 1 or 6, wherein the maintenance channel block is fixed and installed sequentially from front to back by a plurality of frame blocks, and the maintenance channel block is close to The end face of the data center block is provided with a plurality of corresponding inspection openings, and the inspection openings of the inspection channel block are respectively connected with the inspection openings of the data center block correspondingly.

10. A composable prefabricated data center system according to claim 1, characterized in that: the front and rear ends of the maintenance channel block are provided with maintenance doors, and the surfaces of the maintenance channel block contacting the outside are installed for Due to the sealed and waterproof plate structure, the maintenance channel block is provided with a vent and a lighting lamp, a staircase is installed between the maintenance channel blocks combined up and down, and a cooling device is installed in the maintenance channel block.