The methods and apparatuses described herein include a data center having a three-level roof structure including an overarching rainfly roof to protect the data center from severe weather events. The three-level roof structure further includes a secondary roof structure below the rainfly roof struct
The methods and apparatuses described herein include a data center having a three-level roof structure including an overarching rainfly roof to protect the data center from severe weather events. The three-level roof structure further includes a secondary roof structure below the rainfly roof structure as well as a lower redundant roof structure coupled together. A data hall within the data center has a ceiling below the lower redundant roof structure and is adapted to store a plurality of cabinets to hold electronic equipment. The lower redundant roof structure can be coupled with the secondary roof structure using an airtight seal such that the data center is airtight allowing for the data hall below to be positively pressurized to facilitate air flow through the electronic equipment. Heated air emitted from the electronic equipment is conducted through into a hot air return region above the data hall ceiling, while cold air is supplied to the electronic equipment below the data hall ceiling.
대표청구항▼
1. A data center comprising: a rainfly roof configured to protect the data center from adverse weather events disposed upon a rainfly structure having vertical support columns and a first set of framing members;a secondary roof structure disposed below the rainfly roof structure and coupled thereto
1. A data center comprising: a rainfly roof configured to protect the data center from adverse weather events disposed upon a rainfly structure having vertical support columns and a first set of framing members;a secondary roof structure disposed below the rainfly roof structure and coupled thereto by the vertical support columns;a lower roof structure disposed below the secondary roof structure and coupled thereto by the vertical support columns; anda second set of framing members disposed between the secondary and lower roof structures, wherein at least a part of the first set of framing members are offset from at least a part of the second set of framing members. 2. The data center of claim 1, wherein the first and second sets of framing members each comprise main support beams and purlins, the purlins being coupled perpendicularly to the main support beams. 3. The data center of claim 2, wherein the purlins of the first and second sets of framing members are offset to mitigate damage to the data center when an airborne objects striking the data center during severe weather becomes lodged in one or more of the sets of framing members. 4. The data center of claim 3, wherein the purlins of the first framing members are parallel to the purlins of the second framing members. 5. The data center of claim 1, further comprising a data hall within the data center having a ceiling disposed below the lower roof structure, wherein the data hall is adapted to store a plurality of cabinets to hold electronic equipment therein. 6. The data center of claim 5, further comprising one or more heat chimneys to conduct heated air out of the data hall through the ceiling into a hot air return region above such that the heated air escapes the data center through one or more hot air exhaust openings. 7. The data center of claim 6, wherein the cabinets of electronic equipment are positioned in a plurality of rows such that heated air conducts from the electronic equipment in each row through the chimneys into a hot air return region above the data hall ceiling. 8. The data center of claim 6, further comprising: one or more cold air supply openings located adjacent to a cold air supply region below the ceiling of the data hall; andone or more hot air exhaust openings located adjacent to the hot air return region above the ceiling of the data hall. 9. The data center of claim 8, wherein the data center is coupled with an apparatus to control a plurality of air conditioning units located alongside the outside of the data center adapted to be coupled with the cold air supply openings to deliver cool air into the data hall. 10. The data center of claim 9, wherein the hot air exhaust openings feed the heated air into the plurality of air conditioning units. 11. The data center of claim 5, wherein the secondary and the lower roof structures are coupled together using an airtight sealed joint allowing the data hall to be positively pressurized to facilitate air flow though the electronic equipment. 12. The data center of claim 1, wherein the secondary and lower roof structures are adapted to remain intact in the event of a rainfly roof structure failure. 13. The data center of claim 1, wherein the lower roof structure is adapted to remain intact in the event of failure in both the rainfly and secondary roof structures. 14. The data center of claim 1, further comprising an insulation layer coupled between the secondary and lower roof structures. 15. The data center of claim 1, further comprising an exterior drainage system coupled with the rainfly roof to drain rainwater away from the data center. 16. The data center of claim 1, wherein the secondary roof structure includes a second redundant drainage system disposed thereon adapted to drain rainwater away from the data center in case of leaks in the rainfly roof structure. 17. The data center of claim 1, draining excess rainwater away from the data center using a secondary roof structure below the rainfly roof structure in case of leaks in the rainfly roof structure, the secondary roof structure having a second drainage system. 18. The data center of claim 1, wherein all of the rainfly roof, the secondary roof structure and the lower roof structure are watertight. 19. A method for protecting electronic equipment in a data center comprising: shielding the data center from adverse weather events using a rainfly roof structure having vertical support columns and a first set of framing members;providing a secondary roof structure disposed below the rainfly roof structure and coupled thereto by the vertical support columns;providing a lower roof structure disposed below the secondary roof structure and coupled thereto by the vertical support columns; andproviding a second set of framing members disposed between the secondary and lower roof structures; andoffsetting at least a part of the first set of framing members from at least a part of the second set of framing members. 20. The method of claim 19, wherein the first and second sets of framing members each comprise main support beams and purlins, the purlins being coupled perpendicularly to the main support beams. 21. The method of claim 20, further comprising offsetting the purlins of the first and second sets of framing members to mitigate damage to the data center from airborne objects. 22. The method of claim 21, wherein the purlins of the first framing members are parallel to the purlins of the second framing members. 23. The method of claim 19, further comprising storing a plurality of cabinets holding electronic equipment in a data hall having a ceiling disposed below the lower roof structure. 24. The method of claim 23, further comprising conducting heated air out of the data hall through the ceiling into a hot air return region above using one or more heat chimneys such that the heated air escapes the data center out through the hot air exhaust openings. 25. The method of claim 23, further comprising positioning the cabinets of electronic equipment in a plurality of rows such that heated air is emitted from the electronic equipment in each row into the hot air return region above the data hall ceiling. 26. The method of claim 23, further comprising supplying cool air to the data hall through one or more cold air supply openings located adjacent to a cold air supply region below the ceiling of the data hall. 27. The method of claim 26, further comprising controlling a plurality of air conditioning units to be located alongside the cold air supply openings on the outside of the data center to deliver the cool air into the data hall. 28. The method of claim 27, further comprising feeding the heated air into the plurality of air conditioning units from the hot air exhaust openings further. 29. The method of claim 19, further comprising providing an insulating layer between the secondary and lower roof structures. 30. The method of claim 19, further comprising: coupling the secondary and the lower roof structures together using an airtight sealed joint; andpositively pressurizing the data hall to facilitate air flow though the electronic equipment. 31. The method of claim 19, further comprising designing the secondary and lower roof structures to remain intact in the event of a rainfly roof structure failure. 32. The method of claim 19, further comprising designing the lower roof structure to remain intact in the event of failure in both the rainfly and secondary roof structures. 33. The data center of claim 19, further comprising coupling an exterior drainage system with the rainfly roof structure to drain rainwater away from the data center. 34. The method of claim 19, wherein all of the rainfly roof, the secondary roof structure and the lower roof structure are watertight.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (21)
Charron, Frederic, Air flow management system for an internet data center.
Simpson Harold G. (Oklahoma City OK) Neyer Leo E. (Edmond OK), Roof system positionable over an existing roof structure and method for installing same.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.