Systems and methods for preventing airflow recirculation in an information handling system

What is claimed is: 1. An air mover assembly comprising: an air mover; and a housing mechanically coupled to the air mover, the housing comprising an exhaust assembly comprising: a first roller having a first mass; a second roller having a second mass larger than the first mass; at least one generally arcuate rail for constraining motion of the first roller and the second roller within the at least one arcuate rail, wherein the at least one generally arcuate rail includes a first rail to constrain motion of the first roller and a second rail to constrain motion of the second roller, the first and second rails forming portions of a circumference of a circle; a generally circular frame rotatably coupled to the first roller and the second roller at an approximate circumference of the frame, such that the first roller and the second roller are located diametrically opposite of one another on the approximate circumference; and a door hingedly coupled to the frame and configured to assume a closed position under a force of gravity on the door in the absence of airflow generated by the air mover and configured to rotate from the closed position to an open position under a force of airflow from the air mover that overcomes the force of gravity on the door; wherein, as the air mover assembly is rotated from a first orientation to a second orientation, the first roller and the second roller are configured to move about the at least one rail such that the frame and the door maintain a position relative to a direction of the force of gravity. 2. The air mover assembly of claim 1 , wherein as the air mover assembly is rotated from the first orientation to the second orientation, the second roller is configured to maintain a position below the first roller with respect to the direction of the force of gravity. 3. The air mover assembly of claim 1 , wherein at least one of the first roller and the second roller is coupled to the frame via an axle. 4. The air mover assembly of claim 1 , wherein the exhaust assembly further includes at least one other door hingedly coupled to the frame and configured to assume a closed position under the force of gravity on the at least one other door in the absence of airflow generated by the air mover and configured to rotate from the closed position to the open position under a force of airflow from the air mover that overcomes the force of gravity on the at least one other door. 5. The air mover assembly of claim 4 , wherein the at least one other door is adjacent to the door. 6. An information handling system comprising: a chassis; and an air mover assembly coupled to the chassis and comprising: an air mover; and a housing mechanically coupled to the air mover, the housing comprising an exhaust assembly comprising: a first roller having a first mass; a second roller having a second mass larger than the first mass; at least one generally arcuate rail for constraining motion of the first roller and the second roller within the at least one arcuate rail, wherein the at least one generally arcuate rail includes a first rail to constrain motion of the first roller and a second rail to constrain motion of the second roller, the first and second rails forming portions of a circumference of a circle; a generally circular frame rotatably coupled to the first roller and the second roller at an approximate circumference of the frame, such that the first roller and the second roller are located diametrically opposite of one another on the approximate circumference; and a door hingedly coupled to the frame and configured to assume a closed position under a force of gravity on the door in the absence of airflow generated by the air mover and configured to rotate from the closed position to an open position under a force of airflow from the air mover that overcomes the force of gravity on the door; wherein, as the air mover assembly is rotated from a first orientation to a second orientation, the first roller and the second roller are configured to move about the at least one rail such that the frame and the door maintain a position relative to a direction of the force of gravity. 7. The information handling system of claim 6 , wherein as the air mover assembly is rotated from the first orientation to the second orientation, the second roller is configured to maintain a position below the first roller with respect to the direction of the force of gravity. 8. The information handling system of claim 6 , wherein at least one of the first roller and the second roller is coupled to the frame via an axle. 9. The information handling system of claim 6 , wherein the exhaust assembly further includes at least one other door hingedly coupled to the frame and configured to assume a closed position under the force of gravity on the at least one other door in the absence of airflow generated by the air mover and configured to rotate from the closed position to the open position under a force of airflow from the air mover that overcomes the force of gravity on the at least one other door. 10. The information handling system of claim 9 , wherein the at least one other door is adjacent to the door. 11. A housing for housing an air mover, the housing comprising an exhaust assembly comprising: a first roller having a first mass; a second roller having a second mass larger than the first mass; at least one generally arcuate rail for constraining motion of the first roller and the second roller within the at least one arcuate rail, wherein the at least one generally arcuate rail includes a first rail to constrain motion of the first roller and a second rail to constrain motion of the second roller, the first and second rails forming portions of a circumference of a circle; a generally circular frame rotatably coupled to the first roller and the second roller at an approximate circumference of the frame, such that the first roller and the second roller are located diametrically opposite of one another on the approximate circumference; and a door hingedly coupled to the frame and configured to assume a closed position under a force of gravity on the door in the absence of airflow generated by the air mover and configured to rotate from the closed position to an open position under a force of airflow from the air mover that overcomes the force of gravity on the door; wherein, as the housing is rotated from a first orientation to a second orientation, the first roller and the second roller are configured to move about the at least one rail such that the frame and the door maintain a position relative to a direction of the force of gravity. 12. The housing of claim 11 , wherein as the housing is rotated from the first orientation to the second orientation, the second roller is configured to maintain a position below the first roller with respect to the direction of the force of gravity. 13. The housing of claim 11 , wherein at least one of the first roller and the second roller is coupled to the frame via an axle. 14. The housing of claim 11 , wherein the exhaust assembly further includes at least one other door hingedly coupled to the frame and configured to assume a closed position under the force of gravity on the at least one other door in the absence of airflow generated by the air mover and configured to rotate from the closed position to the open position under a force of airflow from the air mover that overcomes the force of gravity on the at least one other door. 15. The housing of claim 14 , wherein the at least one other door is adjacent to the door.