CN116876896A - Double-spelling container AIO data center - Google Patents

Abstract

A double-splice container AIO data center comprising: right container, left container, middle seam shrouding, micromodule. The right wall open face of the right container and the left wall open face of the left container are spliced through a middle seam sealing plate to form an inner space, and the micro-module is accommodated in the inner space. The micro-module comprises: two rows of equipment cabinets, two sliding doors and four cabinet top sealing plates. A cold channel is formed between the two rows of equipment cabinets; the periphery of the micro-module forms a thermal channel. The right container wall is provided with a personnel entrance door, and the left container wall is provided with a fire escape door; the double-spliced container AIO data center also comprises a precise air conditioner outdoor unit arranged at the top of the container. The double-spliced container AIO data center has the advantages of high standardization degree, low export marine transport cost, quick deployment, no dead angle for fire escape in case of fire, high internal space utilization rate, capacity of containing 10 IT service cabinets in each standard 40-ruler container, and capacity increase of 30 percent compared with the same type of products.

Description

Double-spelling container AIO data center

Technical Field

The invention relates to the technical field of container data centers, in particular to a double-spliced container AIO data center.

Background

The advent of the big data age has accelerated the global development of the data center industry, and along with the rapid growth of socioeconomic, the development and construction of the data center are in a high-speed period, and the government departments in various places give great support to the emerging industry, so that great advantages are brought to the development of the data center industry. The data center is an important strategic resource as human resources and natural resources, and in the data center industry in the information age, the data can be better understood only by applying the large-scale and flexible data, the data can be applied to promote the quick and efficient development of the data center industry in China, and the great wisdom of national development is reflected. The generation of mass data also promotes the collection and processing of information data to be changed into important, and enterprises also move from entity services to data services. Industry demands and concerns have also shifted, with the focus of enterprise concerns turning to data, the computer industry has shifted from pursuing computing power to data processing power, the software industry has shifted from programming to data-based, and the dominance of cloud computing has shifted from analytics to services.

The container data center concept has been proposed to be widely used today for more than 10 years. The integrated data center solution has the advantages of prefabricated production, low cost, easy transportation, easy construction, short period, high energy efficiency and no demanding environment, and brings a new hot trend. The IT industry is greatly divided into Sun, IBM, HP, google, microsoft, cisco, huacheng, zhongxing, langchao and the like to release own container data center products. The container data center organically integrates the systems of an IT service cabinet, power distribution, precise air conditioning, fire control, monitoring, access control, decoration and the like into a container frame, and adopts a container as a machine room foundation of the data center during design. The container is used as an international transport container, has the advantages of high standardization degree, convenient hoisting and transport, convenient outdoor placement and the like, and is convenient to move and easy to transport. AIO data center refers to a data center In which All elements are integrated into One (All In One). The container data center field is divided into two series of Cluster Cluster deployment data centers and AIO independent deployment data centers, and the Cluster Cluster deployment data centers are generally applied to the large-scale cloud data center field of operators; AIO independent deployment data centers are commonly used in some enterprise-level small data center applications; the AIO architecture data center is more flexible to deploy, higher in standardization level, more convenient to hoist and transport and lower in migration cost. Cluster Cluster deployment data centers tend to be custom-built and AIO independent deployment data centers tend to be product-ized.

As shown in fig. 1 and 2, one of the schemes of the container data center 10 of the AIO independent deployment architecture currently applied in the industry adopts a nonstandard 40-ruler container architecture, the container size is l×w×h=12192×3000×3200, the systems of IT service cabinets 11, power distribution cabinets 12, precise air conditioners 13, fire protection, monitoring, entrance guard, decoration and the like are organically integrated into a container frame, and the air conditioner external unit 14 is installed in an independent compartment in the container, so that 9 (d×w×h=1200×600×2000) IT service cabinets 11 can be accommodated at most; the equipment cabinets are arranged in series in the container, a cold channel 15 and a hot channel 16 are respectively formed in front of and behind the equipment cabinets, and the container is provided with a personnel entrance door 17 and a fire escape door 18.

The disadvantages of this approach are as follows: (1) Because of adopting nonstandard container architecture design, the international general transportation standard cannot be met, the export maritime transportation needs to independently fix a special cabin position, the export maritime transportation cost is very high, the standardization degree is low, and the global shipping product competitiveness is weak; (2) Because the container is designed to be 3 meters wide, the internal cold channel 15 and the hot channel 16 are narrow, which is not beneficial for personnel to enter and maintain equipment; (3) Dead angles appear in the hot channel 16, so that the fire escape is not facilitated when a fire disaster occurs; (4) Because of the design of installing the air conditioner external unit 14 in the container, the space utilization in the machine room is not high, and each container can only accommodate 9 (d×w=1200×600×2000) IT service cabinets 11.

As shown in fig. 3 and 4, another solution of the container data center 20 of the AIO independent deployment architecture currently applied in the industry adopts a standard 40-ruler container architecture, the container size is l×w×h=12192×2438×2896, the systems of the IT service cabinet 21, the power distribution cabinet 22, the precision air conditioner 23, fire protection, monitoring, entrance guard, decoration and the like are organically integrated into the container frame, the air conditioner external unit 24 is installed in an independent compartment inside the container, and can accommodate 7 (d×w×h=1200×600×2000) IT service cabinets 21 at most; the equipment cabinets are vertically arranged in a plurality of groups in the container, a cold channel 25 and a hot channel 26 are respectively formed in front of and behind the equipment cabinets, and the container is provided with a personnel entrance door 27 and a fire escape door 28.

Although the scheme adopts the standard container architecture design, can meet the international general transportation standard, has low export marine transportation cost and high standardization level, and can be shipped globally, the following defects are also present: (1) Dead angles are formed in the cold channel 25 and the hot channel 26, so that fire escape is not facilitated when a fire disaster occurs; (2) Because the air conditioner external unit 24 is installed and designed in an independent compartment in the container, the equipment cabinets are arranged in a plurality of groups in a vertical column in the container, so that the utilization rate of the internal space is low, and each container can only accommodate 7 (D, W, h=1200, 600, 2000) IT service cabinets 21; (3) Because of the design of the arrangement of the plurality of groups of vertical columns in the container, the redundant design effect of the heat management of the air conditioners is poor, and one air conditioner is damaged and has no backup.

Disclosure of Invention

The invention aims to overcome the defects of the two typical cases existing in the product architecture in the current industry, and provides the double-spliced container AIO data center which has the advantages of high standardization degree, low export shipping cost, quick deployment, no fire escape dead angle in fire disaster, high internal space utilization rate, capacity of accommodating 10 IT service cabinets in each standard 40-scale container, and capacity increase by 30 percent compared with the same type of products.

The aim of the invention is realized by the following technical scheme:

a double-splice container AIO data center comprising: right container, left container, middle seam sealing plate and micro module;

the right container is provided with a right wall open surface, the left container is provided with a left wall open surface, the right wall open surface of the right container and the left wall open surface of the left container are spliced through the center seam sealing plate to form an inner space, and the micro module is accommodated in the inner space;

the micro-module comprises: two rows of equipment cabinets, two sliding doors and four peripheral cabinet top sealing plates; a cold channel is formed between the two rows of equipment cabinets, two sliding doors are respectively positioned at two ends of the cold channel, and the periphery of the cold channel is respectively blocked by the cabinet top sealing plates;

a thermal channel is formed around the periphery of the micro module;

the right container wall is provided with a personnel entrance door, and the left container wall is provided with a fire escape door;

the double-spliced container AIO data center also comprises a precise air conditioner outdoor unit arranged at the top of the container.

The right container is provided with a right ring beam, the left container is provided with a left ring beam, and blind nuts are welded inside the right ring beam and the left ring beam;

the center seam sealing plate comprises: the waterproof material comprises a bottom combined bolt, a bottom protection steel plate, a color steel rock wool plate, bulk rock wool, non-cured rubber asphalt waterproof paint, quick setting rubber asphalt, an inner waterproof coiled material, a top protection steel plate, a top combined bolt and an outer waterproof coiled material;

the bottom combination bolt and the blind nut so that the bottom shield steel plate is fixed to the inner wall surfaces of the right container and the left container;

a center joint cavity is formed between the right ring beam and the left ring beam, the color steel rock wool board is placed in the center joint cavity, the gap between the color steel rock wool board and the right ring beam and the left ring beam is filled with the bulk rock wool, and the upper end of the bulk rock wool is coated with the non-cured rubber asphalt waterproof coating;

the quick setting rubber asphalt, the inner waterproof coiled material and the top protection steel plate are sequentially laminated outside the color steel rock wool plate, the right ring beam and the left ring beam;

the top combination bolt and the blind nut are so that the top shield steel plate is fixed to the outer wall surfaces of the right container and the left container, and the outer waterproof roll covers the top shield steel plate and the top combination bolt.

In an embodiment, the right container and the left container are both standard 40-gauge containers.

In an embodiment, each column of the equipment racks includes: 10 IT business cabinets, 3 precise air conditioner indoor units, 1 control cabinet and 2 power distribution cabinets.

In an embodiment, the open face of the right wall of the right container and the open face of the left wall of the left container are respectively provided with a detachable simple wallboard.

In an embodiment, the precision air conditioner outdoor unit is disposed on top of the right container and the left container.

In the embodiment, 6 precise air conditioner indoor units are designed in a 5+1 redundancy mode, and the heat management scheme is better than that of similar products.

1. The embodiment adopts a double-spelling structure of two standard 40-ruler containers, has high standardization degree and low export marine transport cost, and is oriented to global users; the device supports land transportation and sea transportation, is convenient to hoist and transport, and can be placed and deployed outdoors everywhere;

2. in the embodiment, a double-splicing framework of two standard 40-ruler containers is adopted, the two containers are respectively provided with a personnel entrance door and a fire escape door, a cold channel 500 is formed between two rows of equipment cabinets 410, a hot channel 600 is formed around the cold channel, no dead angle exists in fire escape during fire, and personnel can rapidly evacuate and escape;

3. in the embodiment, two standard 40-ruler container double-splicing architecture is adopted, a typical micro-module data center architecture is adopted in the container, equipment cabinets are arranged in two rows in the container, an air conditioner external unit is arranged at the top of the container, the equipment installation space in the container is improved, and 10 (D, W, h=1200, 600, 2000) IT service cabinets 411 can be contained in each standard 40-ruler container;

4. in the embodiment, a double-splicing architecture of two standard 40-ruler containers is adopted, a typical micro-module data center architecture is adopted in the double-splicing architecture, equipment cabinets are arranged in two rows in the containers, a 5+1 redundancy backup thermal management design scheme of 6 precise air conditioners is adopted, the temperature control management of a data center cannot be affected when any air conditioner breaks down under the scheme, and the reliability of the data center is improved;

5. the embodiment adopts a double-splicing framework of two standard 40-ruler containers, and a middle splicing closing technology (adopting the technical scheme of the middle-seam sealing plate 300) realizes a fast-building and reliable optimal outdoor protection scheme;

6. the embodiment adopts a double-spliced framework of two standard 40-ruler containers, and the side of the container without the side wall adopts a detachable simple wallboard design, thereby meeting the protection requirement of marine transportation on internal equipment and realizing the function of quick disassembly on the installation site.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is one solution of a container data center of AIO independent deployment architecture currently in use in the industry;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is another version of a container data center of the AIO independent deployment architecture currently in use in the industry;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 5 is a perspective view of a double container AIO data center according to one embodiment of the present invention;

FIG. 6 is a top view of a double container AIO data center as shown in FIG. 5;

FIG. 7 is a side view of a double container AIO data center as shown in FIG. 5;

FIG. 8 is a cross-sectional view taken along line C-C of FIG. 6;

FIG. 9 is a cross-sectional view taken along line D-D of FIG. 7;

FIG. 10 is a cross-sectional view taken along line D-D of FIG. 7;

FIG. 11 is an enlarged view of FIG. 8 at A;

fig. 12 is an enlarged view of fig. 11 at B;

fig. 13 is a structural view of the right container and the left container shown in fig. 5.

Detailed Description

Technical scheme (one)

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 5, 6 and 7, the present invention discloses a double-container AIO data center 30, comprising: right container 100, left container 200, center seam seal 300, and micromodules 400 (shown in fig. 8 and 9).

The right container 100 has a right wall open face, the left container 200 has a left wall open face, and the right wall open face of the right container 100 and the left wall open face of the left container 200 are spliced together by the slit sealing plate 300 to form an inner space, and the micro module 400 is accommodated in the inner space (as shown in fig. 8 and 9).

As shown in fig. 9, the micro module 400 includes: two columns of equipment cabinets 410, two sliding doors 420, and a peripheral cabinet top enclosure 430 (shown in fig. 8); a cold channel 500 is formed between two rows of equipment cabinets 410, two sliding doors 420 are respectively positioned at two ends of the cold channel 500, and four cabinet top sealing plates 430 respectively seal the four sides of the cold channel 500.

Thermal vias 600 (shown in fig. 8 and 9) are formed around the periphery of the micro-module 400. The cold channel 500 refers to an area where cold air blown out from the indoor unit of the precise air conditioner reaches, and the hot channel 600 refers to an area where return hot air from the indoor unit of the precise air conditioner reaches. The IT equipment performs installation maintenance inside the cold aisle 500.

As shown in fig. 9, a person access door 110 is provided on the wall of the right container 100, and a fire escape door 210 is provided on the wall of the left container 200.

As shown in fig. 7 and 8, the double container AIO data center 30 further includes a precision air conditioner outdoor unit 700 provided at the top of the container.

Next, a specific structure of the center seam sealing plate 300 will be described (refer to fig. 11 and 12 together):

the middle seam sealing plate 300 is composed of a front middle seam sealing plate, a rear middle seam sealing plate, an upper middle seam sealing plate and a lower middle seam sealing plate, wherein the front middle seam sealing plate and the rear middle seam sealing plate are respectively positioned at the front end and the rear end of the splicing position of the right container 100 and the left container 200, and the upper middle seam sealing plate and the lower middle seam sealing plate are respectively positioned at the top and the bottom of the splicing position of the right container 100 and the left container 200.

As shown in fig. 11, the right container 100 has a right side rail 120, the left container 200 has a left side rail 220, and blind nuts 101 are welded to the insides of the right side rail 120 and the left side rail 220 (as shown in fig. 12, the welded blind nuts 101 function to prevent water drops from flowing into the rail interiors along the bolts).

As shown in fig. 11 and 12, the center seam sealing plate 300 includes: the bottom combination bolt 310, the bottom protection steel plate 320, the color steel rock wool plate 380, the bulk rock wool 390, the non-cured rubber asphalt waterproof paint 391, the quick setting rubber asphalt 330, the inner waterproof coiled material 340, the top protection steel plate 350, the top combination bolt 360 and the outer waterproof coiled material 370.

As shown in fig. 11 and 12, the bottom assembling bolt 310 and the blind nut 101 are assembled such that the bottom shielding steel plate 320 is fixed to the inner wall surfaces of the right container 100 and the left container 200;

as shown in fig. 11 and 12, a center seam cavity is formed between the right side ring beam 120 and the left side ring beam 220, a color steel rock wool board 380 is placed in the center seam cavity, bulk rock wool 390 is plugged in a gap between the color steel rock wool board 380 and the right side ring beam 120 and the left side ring beam 220, and the upper end of the bulk rock wool 390 is coated with non-cured rubber asphalt waterproof paint 391;

as shown in fig. 11 and 12, the rapid hardening rubberized asphalt 330, the inner waterproof roll 340, and the top protective steel sheet 350 are sequentially laminated on the outer surfaces of the color steel rock wool board 390, the right side rail 120, and the left side rail 220;

as shown in fig. 11 and 12, the top combination bolt 360 and the blind nut 101 are fastened such that the top protective steel plate 350 is fixed to the outer wall surfaces of the right container 100 and the left container 200, and the outer waterproof roll 370 covers the top protective steel plate 350 and the top combination bolt 360.

The double-spliced container AIO data center 30 is formed by splicing two standard 40-ruler containers, and is formed by splicing a right container 100, a left container 200 and a middle seam sealing plate 300, and is quickly built in a building block mode. All the devices inside the right container 100 and the left container 200 are prefabricated in a factory and then transported to a customer construction site, and after being installed on an outdoor cement foundation, the center seam sealing plate 300 is installed.

The design scheme and implementation process of the middle seam sealing plate 300 are as follows:

firstly, blind nuts 101 are welded in a ring beam of a container, a bottom protection steel plate 320 is fixed on the inner wall surface of the container through a bottom combination bolt 310, a color steel rock wool plate 380 is placed in a middle joint cavity of a double-spliced container, loose rock wool 390 is plugged into gaps at two sides of the color steel rock wool plate 380 (the color steel rock wool plate 380 and the loose rock wool 390 are filled to play a role of heat insulation and heat preservation), non-cured rubber asphalt waterproof paint 391 is poured into the upper end of the loose rock wool 390, quick setting rubber asphalt 330 is poured into the outer surfaces of the color steel rock wool plate 380 and the ring beam, after the constant speed setting rubber asphalt 330 is solidified, an inner waterproof coiled material 340 is attached, a top protection steel plate 350 is covered, the top combination bolt 360 is fixed on the outer wall surface of the container, and finally, the top protection steel plate 350 and the top combination bolt 360 are all adhered and covered by an outer waterproof coiled material 370, so that the scheme meets the IPX5 protection level of a container data center in an outdoor use scene.

(second embodiment) first embodiment

In this embodiment, the right container 100 and the left container 200 are both standard 40-ruler containers (the external dimensions are l×w×h=12192×2438×2896mm), and the middle seam sealing plate makes the total width dimension of the AIO data center be 5476mm, so as to realize the optimal space layout of 10 micro-modules. All equipment cabinet sizes are L x W x H=1200 x 600 x 2000mm, equipment front maintenance channel (cold channel 500) width is planned according to 1200mm, equipment back maintenance channel width is planned according to 760mm, and a wide inner space meets personnel entering and installation and maintenance of a large server.

As shown in fig. 9, on the basis of the standard 40-ruler container based on the right container 100 and the left container 200, each column of equipment cabinets 410 in the inner space thereof includes: 10 IT service cabinets 411, 3 precise air conditioning indoor units 412, 1 management and control cabinet 413, 2 power distribution cabinets 414, that is, each right container 100 or left container 200 can accommodate 10 (d×w=1200×600×2000) IT service cabinets 411.

Compared to one of the prior art non-standard 40-ruler container AIO data centers shown in fig. 1 and 2, 9 (d×w=1200×600×2000) IT service cabinets 11 can be accommodated therein, and the service cabinet capacity is 10% lower than that of the present invention.

Compared to the conventional standard 40-ruler container AIO data center in the industry shown in fig. 3 and 4, the container AIO data center can internally accommodate 7 (d×w=1200×600×2000) IT service cabinets 21, and the service cabinet capacity is 30% lower than that of the present invention.

On the basis that the right container 100 and the left container 200 are both standard 40-ruler containers, a detachable simple wallboard 800 (shown in fig. 13) is respectively mounted on the right wall open face of the right container 100 and the left wall open face of the left container 200. By installing the detachable easy wall panels 800 on the right wall open face of the right container 100 and the left wall open face of the left container 200, respectively, it is considered that:

the open wall surfaces of the right container 100 and the left container 200 adopt the scheme of the detachable simple wallboard 800 before shipping, the detachable simple wallboard 800 plays a role in protecting internal equipment in the transportation process, and the detachable simple wallboard 800 is detached after being on site of a customer site. The container framework of the embodiment meets the certification of a class society, and can be shipped according to the standard container sea during foreign sales, thereby greatly reducing the sea cost. The ship has the advantages that the ship needs to reserve a special ship position when the ship is out of the ship, the ship is fixed for a long period, the sea cost is doubled, and the global sales competitiveness of the product is weakened.

The precision air conditioner outdoor unit 700 is provided on top of the right container 100 and the left container 200 (as shown in fig. 7 and 8) based on the standard 40-gauge container as the right container 100 and the left container 200. In this embodiment, the number of the precise air-conditioning outdoor units 700 is 6, and 6 precise air-conditioning outdoor units 700 are arranged at the top of the container, so that the installation space of equipment in the container is increased, and the space of the air-conditioning outdoor units occupying the container or the ground space is reduced.

In the double-spliced container AIO data center 30, an overhead antistatic floor 900 (shown in fig. 8) is adopted as an inner floor, and all equipment cabinets of the micro-modules are installed in an overhead base mode. The micro-module air conditioning pipeline runs under the raised floor, and the strong current, the weak current and the optical fiber cable run on the top of the cabinet. The periphery and the top inside the double-spliced container are decorated by color steel rock wool boards, so that the outdoor solar radiation-proof heat insulation effect is achieved.

The wall of the right container 100 is provided with a personnel entrance door 110, the wall of the left container 200 is provided with a fire escape door 210, and the fire escape door and the sliding doors 420 at the two ends of the micro-module form the optimal design scheme without dead angles during fire.

The outside of the door frame of the personnel entrance door 110 and the fire escape door 210 are respectively provided with a rain cover, so that rainwater is prevented from entering a machine room when the door is opened in rainy days. The personnel enter and exit door 110 and the fire escape door 210 reach the IPX5 protection level, the GB 12955A fire protection standard and the fire resistance and heat insulation performance are more than 1.5h, the two doors are respectively provided with a magnetic lock access control system, and the entering personnel need to carry out database authority management in a password, fingerprint and card swiping mode. The AIO data center is internally provided with a lighting system, a fire protection system, a video monitoring system, a dynamic ring system, a UPS standby power system and the like, so that the construction standard and specification of a data machine room are met.

(third) example II

In this embodiment, in order to meet the space requirement of equipment in a machine room, the AIO data center of a domestic part of customers is designed according to a nonstandard container architecture, and the right container 100 and the left container 200 are both nonstandard 40-ruler containers. The right container 100 and the left container 200 are non-standard 40-ruler containers, and the external dimensions of the containers are long, wide and high, so that the optimal space layout of the micro module 400 can be realized, and the internal space can meet the normal installation and maintenance of the client equipment.

On the basis that the right container 100 and the left container 200 are non-standard 40-ruler containers, the right wall open face of the right container 100 and the left wall open face of the left container 200 are respectively wrapped by canvas covers. The open walls of the right container 100 and the left container 200 can be shipped on land in domestic range without installing detachable simple wallboards before shipping and directly covering the containers with canvas covers. The scheme does not support marine shipping, and is mainly a domestic land shipping cost-reducing scheme.

The precision air conditioner outdoor unit 700 is installed on the ground based on the fact that the right container 100 and the left container 200 are both non-standard 40-ruler containers. In the present embodiment, the number of the precision air-conditioning outdoor units 700 is 6, and the 6 precision air-conditioning outdoor units 700 are not disposed at the top of the container, but may be disposed in the ground space.

(IV) beneficial effects

The first and second embodiments of the present invention have the following advantages:

1. the embodiment adopts a double-spelling structure of two standard 40-ruler containers, has high standardization degree and low export marine transport cost, and is oriented to global users; the device supports land transportation and sea transportation, is convenient to hoist and transport, and can be placed and deployed outdoors everywhere;

2. in the embodiment, a double-spliced structure of two 40-ruler containers is adopted, the two containers are respectively provided with a personnel entrance door and a fire escape door, particularly, a cold channel 500 is formed between two rows of equipment cabinets 410, no dead angle exists in fire escape, and personnel can escape rapidly;

3. in the embodiment, two standard 40-ruler container double-splicing architecture is adopted, a typical micro-module data center architecture is adopted in the container, equipment cabinets are arranged in two rows in the container, an air conditioner external unit is arranged at the top of the container, the equipment installation space in the container is improved, and 10 (D, W, h=1200, 600, 2000) IT service cabinets 411 can be contained in each standard 40-ruler container; one of the existing nonstandard 40-ruler container AIO data centers in the industry can internally hold 9 (d×w=1200×600×2000) IT service cabinets, and the service cabinet capacity is 10% lower than that of the present invention; another standard 40-ruler container AIO data center is available in the industry, which can internally hold 7 (d×w=1200×600×2000) IT service cabinets, and the service cabinet capacity is 30% lower than that of the present invention. The value of the data center is proportional to the capacity of the service cabinet, and the social value of the patent of the invention can be known.

4. In the embodiment, a double-spliced architecture of two 40-ruler containers is adopted, a typical micro-module data center architecture is adopted in the double-spliced architecture, equipment cabinets are arranged in two rows in the containers, a thermal management design scheme of 5+1 redundancy backup of 6 precise air conditioning chambers is adopted, the temperature control management of a data center cannot be affected when any air conditioner breaks down under the scheme, and the reliability of the data center is improved;

5. the embodiment adopts a double-splicing architecture of two 40-ruler containers, and a middle splicing sealing technology (adopting the technical scheme of the middle-seam sealing plate 300) realizes a fast-built and reliable optimal outdoor protection scheme;

6. the embodiment adopts a double-spliced framework of two standard 40-ruler containers, and the side of the container without the side wall adopts a detachable simple wallboard design, so that the protection requirement of marine transportation on internal equipment is met, and the function of quick disassembly on an installation site is realized; the detachable simple wallboard scheme meets the certification of a class society, and can be shipped according to the standard container sea, so that the sea cost is greatly reduced; when the nonstandard container is used for shipping, a special ship berth is required to be reserved, the cabin fixing period is long, the shipping cost is more than one time, and the global sales competitiveness of the product is weakened;

the above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. A double-container AIO data center, comprising: right container, left container, middle seam sealing plate and micro module;

the right container is provided with a right wall open surface, the left container is provided with a left wall open surface, the right wall open surface of the right container and the left wall open surface of the left container are spliced through the center seam sealing plate to form an inner space, and the micro module is accommodated in the inner space;

the micro-module comprises: two rows of equipment cabinets, two sliding doors and four peripheral cabinet top sealing plates; a cold channel is formed between the two rows of equipment cabinets, two sliding doors are respectively positioned at two ends of the cold channel, and the peripheral top sealing plates are respectively used for sealing the periphery of the cold channel;

a thermal channel is formed around the periphery of the micro module;

the right container wall is provided with a personnel entrance door, and the left container wall is provided with a fire escape door;

the double-spliced container AIO data center also comprises a precise air conditioner outdoor unit arranged at the top of the container.

2. The double-container AIO data center of claim 1, wherein,

the right container is provided with a right ring beam, the left container is provided with a left ring beam, and blind nuts are welded inside the right ring beam and the left ring beam;

the center seam sealing plate comprises: the waterproof material comprises a bottom combined bolt, a bottom protection steel plate, a color steel rock wool plate, bulk rock wool, non-cured rubber asphalt waterproof paint, quick setting rubber asphalt, an inner waterproof coiled material, a top protection steel plate, a top combined bolt and an outer waterproof coiled material;

the bottom combination bolt and the blind nut so that the bottom shield steel plate is fixed to the inner wall surfaces of the right container and the left container;

a center joint cavity is formed between the right ring beam and the left ring beam, the color steel rock wool board is placed in the center joint cavity, the gap between the color steel rock wool board and the right ring beam and the left ring beam is filled with the bulk rock wool, and the upper end of the bulk rock wool is coated with the non-cured rubber asphalt waterproof coating;

the quick setting rubber asphalt, the inner waterproof coiled material and the top protection steel plate are sequentially laminated outside the color steel rock wool plate, the right ring beam and the left ring beam;

the top combination bolt and the blind nut are so that the top shield steel plate is fixed to the outer wall surfaces of the right container and the left container, and the outer waterproof roll covers the top shield steel plate and the top combination bolt.

3. The double container AIO data center of claim 1, wherein the right container and the left container are standard 40-gauge containers.

4. The double-container AIO data center of claim 3, wherein each column of said equipment racks comprises: 10 IT business cabinets, 3 precise air conditioner indoor units, 1 control cabinet and 2 power distribution cabinets.

5. The double-container AIO data center of claim 3 wherein the right wall open face of the right container and the left wall open face of the left container are each fitted with a removable simple wall panel.

6. The double container AIO data center of claim 3, wherein the precision air conditioner outdoor unit is disposed on top of the right container and the left container.

7. The double-container AIO data center of claim 4, wherein 6 of said precision air conditioning indoor units are of 5+1 redundancy design.