JP2011012407A - Building for data center - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a building for a data center, in which many units can be safely arranged even in such a case where a lot is limited.SOLUTION: This building 1 for the data center, which accommodates a plurality of units 2 housing an electronic computer etc., includes a frame-type structure 10 in which a plurality of tiers of unit arrangement sections 11 are provided vertically, and a carrier device 20 which is arranged adjacently to the frame-type structure 10. The carrier device 20 can feed the unit 2 into the unit arrangement section 11 after moving the unit 2 to a front surface of the unit arrangement section 11 by moving the unit 2 in vertical and horizontal directions while keeping the unit 2 horizontal.

Description

  The present invention relates to a data center building.

  A data center equipped with server rooms, computer rooms, offices, etc. is a place where important information held by companies is stored safely, so it has earthquake resistance, water resistance, climate resistance, fire resistance, and standby power supply facilities. Must be configured.

  Conventionally, such a data center is constructed in a data center building excellent in safety (for example, see Patent Document 1).

  However, building a server room in a building requires not only interior work, but also complicated process adjustments and carry-in operations for installation of various equipment such as power supply, air conditioning, fire extinguishing, security, lighting, and server rack installation. It was time consuming, laborious and risky. Further, when a server room or a computer room is expanded or renovated in a building where existing IT equipment is operating, there is a risk of affecting existing equipment.

  For this reason, server rooms, computer rooms, and office rooms are used to reduce the cost and effort required for building data center buildings and to minimize the impact on existing IT equipment due to expansion and renovation. In some cases, a data center is constructed by unitizing each room with a container or the like and dividing and arranging the units.

JP 2002-41180 A

  However, the unit itself is not assumed to be multi-layered, and in order to arrange a large number of units, a vast site is required, and it is difficult to secure a site.

  The present invention solves the above-mentioned problems, and proposes a data center building that can safely arrange a large number of units even when the land is limited. Let it be an issue.

  The present invention that solves such a problem is a data center building that accommodates a plurality of units in which an electronic computer or the like is accommodated, and a frame-type structure having a plurality of unit arrangement parts in the vertical direction, and the frame type A transfer device arranged adjacent to a structure, and the transfer device moves the unit up and down, left and right while keeping the level and moves it to the front of the unit arrangement portion, and then moves the unit to the front side. It is characterized in that it can be fed into the unit arrangement section.

  According to such a data center building, units can be stacked vertically, so that the site can be used effectively. Further, when the unit is transported, it is possible to reduce the influence on the existing rooms due to the extension or renovation of the rooms by using the transport device. In addition, the performance of the data center can be easily improved by replacing the unit. Furthermore, since the frame type structure holding each unit is a frame type, it can be constructed relatively easily.

The conveying device may include a temporary placing table that can move up and down, and a lifting unit that transports the unit onto the temporary placing table moved to the front surface of the unit placement unit.
Furthermore, the said conveying apparatus may be provided with the conveyance trolley which drive | works between the said temporary placing stand and the inside of the said unit arrangement | positioning part.

  Such a transport device makes it possible to arrange the units more safely and smoothly.

  An equipment core that supplies electric power and conditioned air to the unit arranged in the unit arrangement section may be provided, and each unit arranged in the frame-type structure may be connected to the equipment core.

  Such a data center building can function as a server room or a computer room only by connecting a unit arranged in a frame-type structure to the equipment core. There is no need to do this, and the cost and labor required for the construction can be reduced or omitted.

  The transport device may be adjacent to the front surface of the frame-type structure, the equipment core may be adjacent to the rear surface of the frame-type structure, and further, the front of the equipment core is extended from the unit. You may provide the connector part for connecting piping wiring.

  According to the data center building of the present invention, a large number of units can be safely arranged even when the site is limited.

1 is a perspective view showing a data center building according to a preferred embodiment of the present invention. (A) is a perspective view which shows the external appearance of the unit accommodated in the building for data centers, (b) and (c) are perspective views which show the usage example inside a unit. It is a side view which shows the unit accommodation condition in the building for data centers shown in FIG.

Preferred embodiments of the present invention will be described with reference to the drawings.
The data center building 1 according to the present embodiment is a building for housing a plurality of units 2, and includes a frame-type structure 10, a transfer device 20, and an equipment core 30.

The unit 2 is a unit formed by housing a computer, a communication device, a storage device, and the like in a casing made of a container or the like. As shown in FIG. 2, the server room 2 ′ (FIG. 2B) , Used as an office room 2 ″ (FIG. 2C), an electric room, or the like.
The usage of each room in the unit 2 is not limited and can be set as appropriate.

As shown in FIG. 3, piping wiring 2 a is extended from the rear end surface of the unit 2, and is configured to be connectable to the equipment core 30 in a state where it is arranged in the unit arrangement portion 11. ing.
The piping wiring 2a includes, for example, a power line, a communication cable, an air conditioning duct, a ventilation duct, a water supply / drainage pipe, and the like.

  As shown in FIG. 1, the frame structure 10 includes a plurality of unit arrangement portions 11 for accommodating the units 2. In the present embodiment, the case where the unit arrangement unit 11 is provided with four columns in the vertical direction and two columns in the horizontal direction will be described, but the number of stages and the number of columns in the unit arrangement unit 11 are not limited.

The frame-type structure 10 is configured by combining columns and beams, and the ceiling, floor slab, wall, and the like of each floor are omitted or simplified. Note that the outer surface of the frame-type structure 10 is covered with a roof, an outer wall, or the like, although illustration is omitted. In addition, a shutter (not shown) that opens for each unit arrangement portion 11 is arranged on the front surface of the frame-type structure 10.
The frame-type structure 10 is composed of members (columns, beams, etc.) having sufficient strength with respect to the weight of the unit 2.

  A corridor 12 is formed on each floor of the frame-type structure 10 so that the approach to the unit 2 arranged in the unit arrangement portion 11 is possible.

  In the present embodiment, the corridor 12 is formed on the conveying device 20 side of the frame-type structure 10, so that it is also used as a traveling path when the unit 2 is conveyed from the conveying device 20 to the unit placement unit 11.

  Although the material which comprises the corridor 12 is not limited, it needs to have sufficient proof stress with respect to the weight which acts when conveying the unit 2. FIG. Further, the corridor 12 is not necessarily formed in the frame type structure 10 and may be formed outside the frame type structure 10. Moreover, the corridor 12 is formed in the conveying apparatus 20, may move with the conveying apparatus 20, and may be comprised so that removal is possible. Moreover, the installation location of the hallway 12 is not limited.

  The conveyance device 20 is disposed adjacent to the front surface (front side in FIG. 1) of the frame-type structure 10.

  The transfer device 20 is configured to be able to move to the left and right in accordance with the rows of the unit arrangement portions 11 of the frame type structure 10 on the front surface of the frame type structure 10. In the present embodiment, it is configured to be able to move left and right by traveling on the rail R laid on the front surface of the frame-type structure 10, but the moving method of the transport device 20 is not limited. Absent.

The transport device 20 includes a temporary placing table 21 that can move up and down, a lifting means 22 that transports the unit onto the temporary placing table 21 that has moved to the front surface of the unit placement unit 11, and the temporary placing table 21 and the lifting means 22. And an apparatus main body 23 to be supported.
Further, the transfer device 20 includes a transfer carriage 24 that travels between the temporary placement table 21 and the inside of the unit placement unit 11.

  In this embodiment, rails (not shown) are laid on the temporary table 21, the unit placement unit 11, and the hallway 12. These rails are laid so as to be continuous in the front-rear direction of the frame-type structure 10, and when the transport carriage 24 travels on the rail, the rail moves between the frame-type structure 10 and the transport device 20. It is configured to be able to. The traveling method of the transport carriage 24 is not limited.

The apparatus main body 23 is a structure formed by columns and beams, and is arranged so as to be able to travel on the rail R.
Moreover, the apparatus main body 23 supports the temporary placing table 21 so as to be movable up and down.

The temporary placement table 21 is a plate material on which the unit 2 conveyed by the lifting means 22 is temporarily placed, and is installed in the apparatus main body 23 so as to be movable in the vertical direction.
The temporary placement table 21 is arranged in front of the predetermined unit placement unit 11 by moving up and down. In the present embodiment, after the apparatus main body 23 is moved in front of the row of the predetermined unit arrangement portions 11, the temporary placement table 21 is moved up and down in the apparatus main body 23, so that the front of the predetermined unit arrangement portions 11 is reached. The temporary placement table 21 is arranged.

  The lifting means 22 is a means for moving the unit 2 transported to the side of the transport device 20 by a truck, a ship, or the like onto the temporary placement table 21. In the present embodiment, a bridge-type crane unloader installed at the top of the apparatus main body 23 is employed as the lifting means 22, but the configuration of the lifting means 22 is not limited, for example, a portal crane is employed.

The equipment core 30 supplies electric power and conditioned air to each unit 2 arranged in the unit arrangement unit 11. The facility core 30 is provided with a monitoring room and the like in addition to various facility devices such as a power receiving / transforming facility, a generator, an air conditioning facility, and a water supply facility (a water receiving tank and a booster pump). In addition, the facilities with which the equipment core 30 is provided are not limited.
In the present embodiment, the equipment core 30 is disposed adjacent to the rear surface of the frame-type structure 10.

On the front surface (side surface of the frame-type structure 10) of the equipment core 30, a connector portion for connecting the piping wirings 2a extended from the unit 2 is provided. As shown in FIG. Each unit 2 arranged in the object 10 can be connected to the equipment core 30.
The connector part is provided behind each unit arrangement part 11. In the connector portion, the terminals are integrated with attachment ports.

  The unit 2 is arranged in the unit arrangement unit 11 according to the following procedure.

  First, the unit 2 transported to the side of the conveying device 20 by a truck T or the like is lifted in a state where the level is maintained by the lifting means 22 as shown in FIG.

When the unit 2 is lifted up to the uppermost floor of the apparatus main body 23 by the lifting means 22, the unit 2 is moved laterally and arranged above the temporary placement unit 21.
At this time, the temporary placement part 21 is arranged in front of the unit placement part 11 where the unit 2 is to be placed by moving up and down in the apparatus main body 23.

  Subsequently, the unit 2 is lowered by the lifting means 22 and placed on the temporary placement portion 21. At this time, as shown in FIG. 3, a transport carriage 24 is disposed on the upper surface of the temporary placement unit 21.

Next, the unit 2 is sent into the unit placement unit 11 via the transport carriage 24. In addition, the conveyance trolley | bogie 24 may be made to drive | work with an operator manually or may be made to drive mechanically.
The transport carriage 24 of the present embodiment has a plurality of wheels provided with a suspension mechanism, and prevents vibrations during transport of the unit 2 from affecting the equipment inside the unit 2.

  When the unit 2 is sent to the unit placement unit 11, the unit 2 is jacked up, the transport carriage 24 is pulled out, and then the unit 2 is jacked down and installed in the unit placement unit 11.

  And installation of the unit 2 is completed by connecting the piping wiring 2a of the unit 2 conveyed to the unit arrangement | positioning part 11 to the equipment core 30. FIG.

  As described above, according to the data center building of the present embodiment, it is possible to reduce the site as the data center by arranging the units 2 (each room) vertically in a plurality of stages. Therefore, it is possible to construct a large-scale data center in which a large number of units 2 are arranged even in urban areas with high land prices.

  Further, since each unit 2 itself is configured with a ceiling, a wall, and a floor, it is possible to omit a floor slab or the like of the unit placement portion 11, and to construct the frame structure 10 simply and inexpensively. Can do.

In addition, since the frame-type structure 10 can be constructed easily and inexpensively, the cost and construction period required for the new construction and expansion of the data center can be reduced as compared with the prior art.
Further, the data center can be repaired simply and inexpensively by simply replacing the unit 2. Therefore, maintenance of the data center is easy.

  Further, since the unit 2 can be added and repaired safely (without impact) by using the transport device 20, the influence on the electronic equipment and the like provided in the existing unit 2 can be minimized.

  By consolidating a large number of units 2 into the frame structure 10, the data center can be made compact, security is improved, and the efficiency of facility management is improved.

  The conveying means 20 moves the unit 2 vertically and horizontally by the lifting means 22 and arranges it on the temporary placing table, and then moves the unit 2 via the conveying carriage 24 that travels between the temporary placing table 21 and the unit arranging portion 11. Move horizontally. Therefore, the unit 2 is safely transported to the unit placement unit 11 while keeping the level.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and it goes without saying that the above-described constituent elements can be appropriately changed without departing from the spirit of the present invention.

  For example, the unit arrangement part 11 may have a wall, a floor slab, etc., and the structure is not limited to the content shown by the said embodiment.

  Further, in the above embodiment, as the transport device 20, the unit 2 is moved up and down and left and right by the lifting means 22 made of a so-called unloader and transported from a truck or the like to the temporary placing table 21, but for example, the unit 2 is temporarily transported The structure of the conveying apparatus 20 is not limited, such as adopting an elevator type that moves up and down while being placed on the cradle 21.

  Further, the arrangement of the frame-type structure 10, the transfer device 20, and the equipment core 30 is not limited to the arrangement of the above-described embodiment. For example, the equipment core 30 may be arranged on the side of the frame-type structure 10. .

  In the above-described embodiment, the outer surface of the frame-type structure 10 is covered with a roof, an outer wall, or the like. However, the roof or the outer wall may be installed as necessary. Or when quality (temperature, humidity, dust, etc.) can be secured.

  Moreover, in the said embodiment, although the frame type structure 10 and the equipment core 30 were arrange | positioned separately, each equipment apparatus which supplies electric power, conditioned air, etc. to a unit is arrange | positioned in the frame type structure 10. FIG. It may be a thing.

DESCRIPTION OF SYMBOLS 1 Data center building 2 Unit 10 Frame type structure 20 Conveyance apparatus 21 Temporary placing stand 22 Lifting means 24 Conveyance cart 30 Equipment core

Claims (3)

A data center building that houses a plurality of units containing electronic computers, etc.
A frame-type structure having a plurality of unit arrangement portions in the vertical direction, and a transfer device arranged adjacent to the frame-type structure,
The transport device is configured to be capable of feeding the unit into the unit placement section after moving the unit horizontally, vertically and horizontally and moving it to the front surface of the unit placement section. A data center building.   The transport apparatus includes: a temporary placing table that can move up and down; and a lifting unit that transports the unit onto the temporary placing table moved to the front surface of the unit placement unit. Item 1. A data center building according to item 1. An equipment core for supplying power and conditioned air to the unit arranged in the unit arrangement unit;
3. The data center building according to claim 1, wherein each unit arranged in the frame-type structure is connected to the equipment core. 4.

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