A data center cooling solution providing techniques for using baffles, doors and roof sections to prevent warm air from being entrained into a cold aisle in a data center, wherein the data center generally contains an air cooling system and a raised floor structure. The raised floor structure is con
A data center cooling solution providing techniques for using baffles, doors and roof sections to prevent warm air from being entrained into a cold aisle in a data center, wherein the data center generally contains an air cooling system and a raised floor structure. The raised floor structure is configured to deliver cool air into the data center through a plurality of grates and perforated tiles in the floor. Electronic equipment racks are disposed around the grates and perforated tiles, such that the front faces of the equipment racks face the grates and perforated tiles. A collection of baffles, doors or roof sections inhibit the mixing of the cool air delivered by the air cooling system and the warm air exhausted by the electronic equipment.
대표청구항▼
1. A system for use in a data center, the system comprising: a plurality of racks configured to house rack-mounted components, each of the racks having a front face to intake air, wherein the plurality of racks are arranged in a first row and a second row horizontally displaced from each other such
1. A system for use in a data center, the system comprising: a plurality of racks configured to house rack-mounted components, each of the racks having a front face to intake air, wherein the plurality of racks are arranged in a first row and a second row horizontally displaced from each other such that the front faces of racks of the first row are facing the front faces of the racks in the second row to define a cold aisle between the front faces;a cold air delivery mechanism configured to deliver cold air to the cold aisle;a first baffle extending at least partially between the front face of a first rack in the first row and the front face of a first rack in the second row being and configured to inhibit horizontal airflow into and out of the cold aisle, wherein air within the cold aisle is relatively cooler than air located within the data center but outside of the cold aisle,wherein the first baffle is a door that extends substantially across an entire gap between the first row and the second row; anda track coupled to an end of the first row, wherein the door is slidably attached to the track, and is releasably latched to the second row when the door is in a closed position. 2. The system of claim 1 wherein the door includes a window. 3. The system of claim 1 wherein the door comprises a flexible material. 4. The system of claim 1 further comprising a second baffle extending at least partially between the front face of a second rack of the first row and the front face of a second rack of the second row and being configured to inhibit horizontal airflow into and out of the cold aisle. 5. The system of claim 1 further comprising a second baffle extending at least partially between the front face of the first rack of the first row and the front face of the first rack of the second row and being configured to inhibit horizontal airflow into and out of the cold aisle. 6. The system of claim 5 wherein a combined length of the first baffle and the second baffle substantially spans an entire distance between the first row and the second row. 7. The system of claim 1 further comprising a third baffle disposed near a top of the front face of the first row, the third baffle extending at least partially along a length of the first row and being configured to inhibit airflow from above the top of the first row into the cold aisle. 8. A system for use in a data center, the system comprising: a plurality of racks configured to house rack-mounted components, each of the racks having a front face to intake air, wherein the plurality of racks are arranged in a first row and a second row horizontally displaced from each other such that the front faces of racks of the first row are facing the front faces of the racks in the second row to define a cold aisle between the front faces, and the first row includes a first section and a second section, the first section being separated from the second section;a cold air delivery mechanism configured to deliver cold air to the cold aisle;a first baffle extending at least partially between the front face of a first rack in the first row and the front face of a first rack in the second row being and configured to inhibit horizontal airflow into and out of the cold aisle, wherein air within the cold aisle is relatively cooler than air located within the data center but outside of the cold aisle, the first baffle comprises a flexible material; anda second baffle disclosed at least partially between the first section and the second section and configured to inhibit horizontal airflow into and out of the cold aisle. 9. The system of claim 8 wherein the first baffle is a door releasably latched to the second row when the door is in a closed position. 10. The system of claim 8 wherein a height of the first baffle is substantially similar to a height of the first row. 11. The system of claim 8 wherein the second baffle is a door that extends substantially across an entire gap between the first section and the second section. 12. An equipment rack system, the system comprising: an equipment rack configured to house rack-mounted electronic information technology equipment, the rack comprising a front surface, a rear surface opposite the front surface, two side surfaces connected to the front surface and the back surface, and a top surface connected to the front, the rear and the side surfaces, the front surface of the rack being configured to allow air from an area in front of the front surface of the rack to be drawn into the rack via at least one air inlet, the rack being further configured to allow the drawn in air to be exhausted out of the rack through a surface of the rack other than the front surface; anda first baffle connected to the rack at a first of the side surfaces of the rack, the first baffle having a height similar to a height of the rack, the first baffle being configured to extend a distance away from the front surface of the rack in a direction substantially parallel to the first side surface of the rack to impede air from flowing horizontally from a side area of the rack into the area in front of the front surface of the rack, wherein the first baffle comprises an accordion configuration configured to be extended outward from the front surface of the rack to inhibit the airflow into the area in front of the front surface of the rack. 13. The system of claim 12 further comprising a track coupled to the first side surface of the rack, wherein the first baffle is slidably attached to the track. 14. The system of claim 12 wherein the first battle is configured to extend fully across a gap between the rack and another rack to inhibit the airflow into the area in front of the front surface of the rack. 15. The system of claim 12 further comprising at least one roof section connected near the top of the rack, wherein the roof section is configured and disposed to inhibit air flow from above the rack into the area in front of the front surface of the rack. 16. The system of claim 15 wherein the roof section is pivotably attached to the rack and configured to be rotated into position to inhibit the air flow from above the rack into the area in front of the front surface of the rack. 17. The system of claim 12 further comprising a temperature sensor mounted on the front surface of the rack. 18. The system of claim 12 wherein the rack is configured to allow the drawn in air to be exhausted out of the back surface of the rack away from the front surface of the rack. 19. The system of claim 12 further comprising a second baffle connected to the rack at a second of the side surface of the rack.
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