An air deflecting system includes an air deflector that is physically mounted against a hot air exhaust vent of a network equipment element using a rack coupling mechanism that is adjustable to accommodate a variable lateral distance of the hot air exhaust vent from the computing rack. The air defle
An air deflecting system includes an air deflector that is physically mounted against a hot air exhaust vent of a network equipment element using a rack coupling mechanism that is adjustable to accommodate a variable lateral distance of the hot air exhaust vent from the computing rack. The air deflector receives an airflow from the hot air exhaust vent at a first direction and deflects the airflow in a second direction.
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1. An apparatus comprising: an air deflector to receive an airflow in a first direction and deflect the airflow in a second direction, the airflow discharged through a hot air exhaust vent of a network equipment element configured in a computing rack, the air deflector comprising a first vane and a
1. An apparatus comprising: an air deflector to receive an airflow in a first direction and deflect the airflow in a second direction, the airflow discharged through a hot air exhaust vent of a network equipment element configured in a computing rack, the air deflector comprising a first vane and a second vane parallel to each other, the first vane and the second vane oriented relative to the hot air exhaust vent at a specified angle to deflect the airflow in the second direction, wherein the air deflector is separate from the computing rack; anda rack coupling mechanism to physically mount the air deflector against the hot air exhaust vent of the network equipment element thereby connecting the air deflector to the computing rack, the rack coupling mechanism being adjustable to accommodate a variable lateral distance of the hot air exhaust vent from the computing rack;wherein the computing rack comprises a pair of opposing vertically oriented U-shaped rails configured with multiple holes, the network element positioned between the rails and the holes of the rails being spaced relative to a height of the network element, a first bolt of a pair of bolts secured in one of the holes of a first rail of the pair of rails and a second bolt of the pair of bolts secured in one of the holes of a second rail of the pair of rails. 2. The apparatus of claim 1, wherein the specified angle is 45 degrees. 3. The apparatus of claim 1, wherein each of the first bolt and the second bolt are secured in one of a plurality of spaced apart holes of each of a pair of flanges configured on opposing sides of the air deflector such that the air deflector is positioned at a height sufficient to cover the hot air exhaust vent. 4. The apparatus of claim 1, wherein the air deflector is formed from a first planar sheet of metal that, when bent to its final shape, forms the first vane of the air deflector. 5. The apparatus of claim 4, wherein the second vane comprises a second planar sheet of metal. 6. The apparatus of claim 1, wherein the first direction is a horizontal direction and the second direction is upwards of the horizontal direction. 7. A computing system comprising: a plurality of network equipment elements;a computing rack housing the network equipment elements; andan exhaust air deflector to receive an airflow from at least one network equipment element in a first direction and deflect the airflow in a second direction, the exhaust air deflector physically mounted against a hot air exhaust vent of the one network equipment element using a rack coupling mechanism that is adjustable to accommodate a variable lateral distance of the hot air exhaust vent from the computing rack, the exhaust air deflector comprising a first vane and a second vane parallel to each other, the first vane and the second vane oriented relative to the hot air exhaust vent at a specified angle to deflect the airflow in the second direction;wherein the computing rack comprises a pair of opposing vertically oriented U-shaped rails configured with multiple holes, the network element positioned between the rails and the holes of the rails being spaced relative to a height of the network element, a first bolt of a pair of bolts secured in one of the holes of a first rail of the pair of rails and a second bolt of the pair of bolts secured in one of the holes of a second rail of the pair of rails. 8. The computing system of claim 7, wherein each of the first bolt and the second bolt are secured in one of a plurality of spaced apart holes of each of a pair of flanges configured on opposing sides of the air deflector such that the exhaust air deflector is positioned at a height sufficient to cover the hot air exhaust vent. 9. The computing system of claim 7, wherein the exhaust air deflector is formed from a first planar sheet of metal that, when bent to its final shape, forms the first vane of the air deflector. 10. The computing system of claim 9, wherein the second vane comprises a second planar sheet of metal. 11. The computing system of claim 7, wherein the first direction is a horizontal direction and the second direction is upwards of the horizontal direction. 12. An air exhaust system comprising: an air deflector to receive an airflow in a first direction and deflect the airflow in a second direction, the airflow discharged through a hot air exhaust vent of a network equipment element configured in a computing rack; anda rack coupling mechanism to physically mount the air deflector against the hot air exhaust vent of the network equipment element, the rack coupling mechanism being adjustable to accommodate a variable lateral distance of the hot air exhaust vent from the computing rack,wherein the computing rack comprises a pair of opposing vertically oriented U-shaped rails configured with multiple holes, the network element positioned between the rails and the holes of the rails being spaced relative to a height of the network element, a first bolt of a pair of bolts secured in one of the holes of a first rail of the pair of rails and a first flange configured on a first side of the air deflector, and a second bolt of the pair of bolts secured in one of the holes of a second rail of the pair of rails and a second flange configured on a second side of the air deflector. 13. The air exhaust system of claim 12, wherein the air deflector is formed from a first planar sheet of metal that, when bent to its final shape, forms at least one vane of the air deflector, and wherein the air deflector comprises a second vane formed from a second planar sheet of metal. 14. The air exhaust system of claim 12, wherein the first direction is a horizontal direction and the second direction is upwards of the horizontal direction.
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