Partitions, server storage systems and data centers using partitions, and methods for constructing data centers.

JP2026098899APending Publication Date: 2026-06-17COMANY CO LTD

Patent Information

Authority / Receiving Office
JP · JP
Patent Type
Applications
Current Assignee / Owner
COMANY CO LTD
Filing Date
2025-11-20
Publication Date
2026-06-17

AI Technical Summary

Benefits of technology

【0049】 この場合、空調機からの送風を阻害することなく、パネルに設けられた吸音材で騒音を低減させることができる。また、取り外しが可能であるため、メンテナンス等の場合、容易に取り外して対応することができる。さらに、吸音材は、レイアウト変更の容易性だけでなく、既設のデータセンタに対して追加施工を容易にすることができる。

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Abstract

The objective is to provide a partition that can enhance the noise reduction effect of a data center and facilitate maintenance, a server storage system using the partition, a data center, and a method for constructing a data center. [Solution] The partition 200 is for partitioning the hot aisle area HA of a data center consisting of multiple servers 700, and includes one or more panels 310, 330 fixed to ceiling rails 311 attached to the ceiling 900 of the data center and suspended from the ceiling for partitioning the hot aisle area HA, and sound-absorbing materials 350, 351, 360, 361 that are removablely provided on one or more panels 310, 330.
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Claims

1. A partition for dividing the hot aisle area of ​​a data center consisting of multiple servers, To demarcate the hot aisle area, one or more panels are fixed to ceiling rails attached to the ceiling of the data center and supported by the ceiling, A partition comprising sound-absorbing material that is removablely provided to one or more of the aforementioned panels.

2. The partition according to claim 1, wherein the sound-absorbing material is provided on at least one or both of the front and back surfaces of the panel.

3. The partition according to claim 1, wherein the sound-absorbing material is detachably provided by a magnet, a locking part, or a hook-and-loop fastener.

4. The partition according to claim 1, wherein the panel is arranged in a double-window structure between the hot aisle area and the cold aisle area.

5. The system further includes horizontal beams connecting the aforementioned panels, The partition according to claim 1, wherein one or more circulators are provided on the crossbeam.

6. The system further includes horizontal beams connecting the aforementioned panels, One or more sound-absorbing curtains suspended from the aforementioned crossbeam, The partition according to claim 1, comprising one or both of the following: one or more sound-absorbing curtains suspended from the ceiling.

7. The system further includes horizontal beams connecting the aforementioned panels, The aforementioned multiple servers are provided in parallel, When no adjacent servers are located, one or more inter-rack panels are installed on the crossbeam attached to the lower part of the panel, The partition according to claim 1, wherein sound-absorbing material is provided on the multiple inter-rack panels.

8. The partition according to claim 7, wherein the sound-absorbing material is built into or filled inside the one or more inter-rack panels.

9. The partition according to claim 7, wherein the one or more inter-rack panels have multiple sound insulation performances due to a combination of multiple types of panel materials and multiple types of sound-absorbing materials with different sound insulation performances.

10. The partition according to claim 7, wherein the one or more inter-rack panels have a fixing structure that secures them between the crossbeam and the floor surface using the repulsive force of the floor surface, and a handle for moving the inter-rack panels.

11. A partition for dividing the hot aisle area of ​​a data center consisting of multiple servers, To demarcate the hot aisle area, one or more panels containing sound-absorbing material are fixed to ceiling rails attached to the ceiling of the data center and supported by the ceiling, A partition that includes, when no adjacent servers are placed, one or more inter-rack panels containing sound-absorbing material that are removable from the crossbeam at the location of the adjacent server.

12. A server storage system using partitions to demarcate the hot aisle area of ​​a data center consisting of multiple servers, One or more air conditioners for cooling the aforementioned multiple servers, To demarcate the hot aisle area, one or more panels are fixed to ceiling rails attached to the ceiling of the data center and supported by the ceiling, Includes sound-absorbing material that is removably provided on one or more of the panels, A server storage system using partitions, wherein the one or more panels are arranged along the direction of the airflow supplied from the air conditioner.

13. A server storage system using partitions to demarcate the hot aisle area of ​​a data center consisting of multiple servers, One or more air conditioners for cooling the aforementioned multiple servers, To demarcate the hot aisle area, one or more panels containing sound-absorbing material are fixed to ceiling rails attached to the ceiling of the data center and supported by the ceiling, If no adjacent servers are located, the location of such arrangement includes one or more inter-rack panels containing sound-absorbing material that are removable from the crossbeam, A server storage system using partitions, wherein the one or more panels are arranged along the direction of airflow from the air conditioner.

14. A data center comprising the server storage system according to claim 12 or claim 13.

15. A method for constructing a data center, comprising installing a server storage system in a data center using partitions to demarcate the hot aisle area of ​​a data center consisting of multiple servers, A method for constructing a data center, wherein at least one partition according to claims 1 to 11 is constructed along the direction of airflow supplied from one or more air conditioners for cooling multiple servers.