WO2014174608A1 - Container-type data center - Google Patents

Abstract

Provided is a container-type data center in which water puddles are prevented from being formed on a ceiling part of the container, and thereby, the ceiling part of the container is resistant to corrosion and the container-type data center has high durability. A ceiling part (3) of a container (1) is provided with a slope such that the ceiling part becomes lower toward the outside in the width direction, and thereby, water puddles are prevented from being formed on the ceiling part (3). The height (h2) of the apex part (3a) of the ceiling part (3) with respect to an upper frame (7) is at least smaller than the height (h1) of a stacking interface part (2) of the container (1) with respect to the upper frame (7). Thus, even if the containers (1) are stacked, the ceiling part (3) of the lower container (1) will not contact the floor surface (6) of the container (1) placed on top.

Description

Container type data center

The present invention relates to a container type data center created in conformity with a container standard used for land transportation and marine transportation, and particularly to a container type data center capable of preventing corrosion of a roof portion.

A container-type data center is a container-type box created in accordance with a container standard used as a freight transportation means such as a trailer as shown in Fig. 5 and contains the facilities necessary to configure the data center. It is. Specifically, a container type data center accommodates servers, storage, control equipment, air conditioning equipment, power supply equipment, and the like, so that the container itself can operate as a data center. Therefore, it can be said that it is a form of a new data center that can be installed outdoors or transported.

In Japan, it has been considered difficult to use a container-type data center due to restrictions imposed by the Building Standards Law, but on March 25, 2011, the Ministry of Land, Infrastructure, Transport and Tourism “About”. According to the report, “Of the container-type data centers that are installed independently on the land, the equipment required for fulfilling the functions of the server equipment itself and other data servers, the airways for air conditioning, and other functions of the data server. Article 2 (1) of the Act is for those that have only the minimum necessary space inside, are unattended during operation, and do not allow people to enter inside except when a serious failure of the equipment occurs. As storage tanks to be used and other similar facilities, they shall not correspond to buildings, but in the case of multiple stacking, they shall be handled as corresponding to buildings, not storage tanks or other similar facilities. . "

In Patent Document 1 (Japanese Utility Model Publication No. 53-007121), an electronic structure is mounted on a pallet having an anti-vibration double floor structure in which an upper mounting floor and a lower fixing frame are integrated with a buffer member interposed in a space between them. There is disclosed a container unit configured to mount equipment and store the pallet in a container unit.

Patent Document 2 (Japanese Patent Application Laid-Open No. 2012-252639) discloses that a building containing an electronic device efficiently releases indoor heat to the outside while improving the sealing property and protecting the electronic device. Making it easy to add or relocate things is an issue. Fasteners that can be fastened by fasteners are fixed to the upper and lower parts of the columnar members arranged at the four corners of the building, and the roof of the building is set at a lower position than the fasteners. Provide an intermediate ceiling plate. Place the rack containing the electronic equipment in the lower chamber of the intermediate ceiling plate, and install a heat exchanger and air circulation fan in the lower chamber so that the intermediate ceiling plate is sandwiched between them. Install an outdoor heat exchanger. When dealing with the increase in electronic devices, it is possible to add the building by stacking the building itself directly and engaging the fasteners with the fasteners, and the heat generated from the electronic device Heat is radiated to the outside air by the indoor heat exchanger and the outdoor heat exchanger, and the inside of the building is a computer room CR in which computers such as servers and storages are housed indoors, and a power supply unit that supplies power to the computers, etc. A configuration is disclosed in which an EU or a spare air conditioning outdoor unit CD is divided into a machine room MR in which a partition wall is installed.

Japanese Utility Model Publication No. 53-007121 JP 2012-252639 A

However, the conventional container, such as the above-mentioned patent document, has a flat ceiling, and a water reservoir is formed in the ceiling during rain, which causes the ceiling to corrode and causes aging of the container. It was a cause. Therefore, an object of the present invention is to provide a container-type data center that can improve the durability of a configuration in which a water reservoir is not formed on the ceiling of the container.

The container type data center of the present invention is formed in a substantially rectangular parallelepiped container shape from an upper frame, a lower frame, and a pillar part, and a stacking interface part protruding upward is formed at four corners of the upper frame. A container-type data center based on container standards,
The ceiling surface of the container is inclined at a predetermined angle, and at least the height (h2) of the inclined ceiling surface with respect to the horizontal ceiling surface of the upper frame is higher than the height (h1) of the stacked interface portion from the upper frame. It is characterized by being formed low.

Furthermore, the container-type data center of the present invention is characterized in that the ceiling surface of the container is inclined so as to be lowered outward from the center in the width direction of the container.

Furthermore, the container-type data center of the present invention is characterized in that the ceiling surface of the container is inclined so as to become lower from one end in the width direction of the container toward the other end. .

According to the present invention, it is possible to prevent a water reservoir from being formed in the ceiling portion by inclining the ceiling portion of the container so as to be lowered outward in the width direction. Moreover, by making the top part of the ceiling part lower than the height of the stacking interface part, it is possible to prevent the ceiling part of the lower container from contacting the floor surface of the upper container when the containers are stacked.

It is an external appearance perspective view which shows the container type data center of the Example of this invention. FIG. 2 is a cross-sectional view of the container taken along line AA shown in FIG. It is a principal part expanded sectional view of the container shown in FIG. It is sectional drawing of the container in another Example of the container-type data center of the Example of this invention. It is an external appearance perspective view which shows the conventional container type data center.

DETAILED DESCRIPTION Embodiments for carrying out the present invention are described below with reference to the drawings. Of course, it is needless to say that the present invention can be easily applied to configurations other than those described in the present embodiment without departing from the spirit of the invention. In the present specification, the longitudinal direction of the container is expressed as “length direction”, and the direction perpendicular thereto is expressed as “width direction”. In addition, the expressions “inside” and “outside” refer to the direction toward the inside of the container as “inward” and the direction toward the outside as “outward” or “outside”.

The applicant has also developed a container type data center as described in Non-Patent Document 1. In order to provide a one-stop service from installation to operation monitoring, IT equipment such as servers and power / air-conditioning equipment are housed in containers, and the necessary equipment in the data center is condensed. Since the outside is sized for transportation, transportation to various locations is possible. The interior has a layout that ensures a sufficient maintenance space.

The container-type data center developed by the applicant can be automated by implementing a remote operation monitoring service. In addition, the status of air conditioning, electric power, and power supply can be confirmed, and the server in the container can be visually confirmed remotely by a monitoring camera. Therefore, it is possible to quickly detect and take measures against the occurrence of a failure. Furthermore, it is configured to be able to detect abnormalities such as unauthorized intrusion into a container by external monitoring by a monitoring camera, surrounding security by a laser, and entrance / exit management by biometric authentication.

The container type data center in this embodiment will be described with reference to FIGS. FIG. 1 is an external perspective view showing a container type data center in an embodiment of the present invention. The container type data center 1 is a container having a structure conforming to the ISO standard. The container 1 is formed of iron H-steel in a substantially rectangular shape. Two sets are formed as an upper frame 7 and a lower frame 8 (not shown), and their four corners are connected by pillars that are also iron H-steel. A pair is formed and formed into a substantially rectangular parallelepiped shape. The upper frame 7 is provided with an iron plate to form the ceiling surface 3, and similarly, the lower frame 8 is provided with an iron plate to form the floor surface 6. A side wall 4 is provided at the end in the width direction of the container 1, and an iron door 5 is provided at the end in the longitudinal direction.

Thus, by forming the frame from H steel, the strength for stacking a plurality of containers 1 can be sufficiently provided, and deformation due to vibration or the like can be prevented. In addition, at the four corners of the upper frame 7 and the lower frame 8 of the container 1, there are provided stacking interface portions 2 on which twist lock mechanisms (not shown) are formed, and the role of positioning guides when stacking a plurality of containers 1 It also serves to prevent misalignment of the stacked containers.

2 is a cross-sectional view of the container type data center on the AA plane shown in FIG. 1, and FIG. 3 is an enlarged cross-sectional view of the main part showing the vicinity of the stacking interface unit 2 in FIG. As shown in FIGS. 2 and 3, the stacking interface unit 2 projects upward by a predetermined dimension h1 from the horizontal ceiling surface 3b of the upper frame 7 of the container 1 in order to stack two containers up and down (see FIG. 2). 3). Moreover, the ceiling part 3 of the container 1 of the Example of this invention forms the inclination so that it may become lower outward from the center part of the width direction of the container 1. The height of the most projecting top 3a of the ceiling 3 of the container 1 with respect to the horizontal ceiling surface 3b of the upper frame 7 is set to a predetermined dimension h2 (FIG. 2). At this time, the inclination angle R of the ceiling portion 3 is selected so as to satisfy the relationship of h1 ≧ h2. Thereby, as shown in FIG. 1, it can be made to incline toward the width direction from the center top part 3a of the ceiling part 3 as a gable roof shape.

Of course, as shown in FIG. 4, the ceiling portion 3 of the container 1 is not a gable roof shape but a single-flow roof shape, and the container 1 may be inclined on one surface from one end portion to the other end portion in the width direction. Is possible. Also in this case, the height (h2) of the single-sided top portion 3c protruding from the horizontal ceiling surface 3b of the upper frame 7 should be set equal to or smaller than the predetermined dimension (h1) of the stacking interface portion 2.

As described above, even if the ceiling portion 3 of the upper frame 7 of the container 1 is inclined, the top portion 3a protruding from the horizontal ceiling surface 3b of the upper frame 7 is smaller than the predetermined dimension (h1) of the stacking interface portion 2. Since the height (h2) is equal or small, even if the containers are stacked up and down, the protruding top 3a is not pressed by the stacked containers.

According to the container type data center configured as described above, since the ceiling portion 3 can be inclined, it is possible to flow in the width direction without forming a water reservoir in the ceiling portion 3 of the container 1 during rainfall. Corrosion of the ceiling part 3 can be prevented.

As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to the said Example, A various deformation | transformation implementation is possible within the range of the summary of this invention. For example, in this embodiment, the apex 3a of the ceiling part 3 is provided in the central part, and it is configured to incline toward the outer side in the width direction. However, the present invention is not limited thereto, and the apex may be provided at an arbitrary place. Good. For example, there is no problem even if a wall surface is formed vertically by h1 at one end in the width direction and is inclined from the apex toward the other end in the width direction.

DESCRIPTION OF SYMBOLS 1 Container 2 Stack interface part 3 Ceiling surface 3a Top part 4 Side wall 5 Iron door 6 Floor surface 7 Upper frame 8 Lower frame

Claims (3)

1. A container-type data center based on a container standard for transportation, which is formed in a substantially rectangular parallelepiped container shape from an upper frame, a lower frame, and a column part, and has stacked interface parts protruding upward at the four corners of the upper frame. Because
   The ceiling surface of the container is inclined at a predetermined angle, and at least the height (h2) of the inclined ceiling surface with respect to the horizontal ceiling surface of the upper frame is higher than the height (h1) of the stacked interface portion from the upper frame. A container-type data center characterized by its low profile.
2. The container-type data center according to claim 1, wherein the ceiling surface of the container is inclined so as to become lower outward from the center in the width direction of the container.
3. The container-type data center according to claim 1, wherein the ceiling surface of the container is inclined so as to become lower from one end portion in the width direction of the container toward the other end portion.

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