Multi-directional in-duct combining air-temperature monitor

What is claimed is: 1. A combining air-temperature monitor comprising: a faceted central shaft; a plurality of air-foil rings positioned about the faceted central shaft; a mixing zone proximate the faceted central shaft, wherein the air-foil rings and the faceted central shaft cooperate to direct a plurality of air streams into the mixing zone; and a temperature sensor disposed within the mixing zone, wherein the temperature sensor measures a combined temperature of the plurality of air streams within the mixing zone, wherein the faceted central shaft is adapted for insertion into an air duct, and wherein the faceted central shaft is free of a predetermined rotational orientation within the air duct; and wherein the faceted central shaft is installed within an air duct of a vehicle, the plurality of air streams adapted to move through the air duct, and wherein each facet of the faceted central shaft includes at least one fluted portion, wherein each fluted portion is adapted to direct at least one air stream to the mixing zone. 2. The combining air-temperature monitor of claim 1 , wherein the faceted central shaft includes two opposing conical portions that taper toward the mixing zone, and wherein the mixing zone is positioned between the two opposing conical portions. 3. The combining air-temperature monitor of claim 1 , wherein the plurality of air-foil rings includes a cover portion positioned proximate the mixing zone, wherein the cover portion at least partially encloses the mixing zone. 4. A combining air-temperature monitor comprising: air-foil rings positioned about a central axis and directing a plurality of air streams into a mixing zone within the air-foil rings; opposing fluted conical portions within the air-foil rings that further direct the plurality of air streams to the mixing zone; and a temperature sensor within the mixing zone that measures a combined temperature of the plurality of air streams within the mixing zone. 5. The combining air-temperature monitor of claim 4 , further comprising: a central shaft disposed proximate the central axis, wherein the temperature sensor is disposed proximate the central shaft. 6. The combining air-temperature monitor of claim 5 , further comprising: a plurality of flutes defined within an outer surface of the central shaft, wherein the plurality of flutes directs the plurality of air streams into the mixing zone. 7. The combining air-temperature monitor of claim 5 , wherein the opposing fluted conical portions are positioned along the central shaft and taper toward the mixing zone. 8. The combining air-temperature monitor of claim 4 , wherein the air-foil rings are adapted to receive the plurality of air streams from any direction substantially perpendicular to the central axis for direction into the mixing zone. 9. The combining air-temperature monitor of claim 4 , further comprising: a cover portion of the air-foil rings disposed proximate the mixing zone adapted to at least partially enclose the mixing zone. 10. The combining air-temperature monitor of claim 4 , wherein the plurality of air-foil rings are adapted for insertion into an air-handling duct, and wherein the plurality of foil rings are free of a predetermined rotational orientation within the air-handling duct. 11. A combining air-temperature monitor comprising: a faceted central shaft that directs air streams to a mixing zone proximate the faceted central shaft; air-foil rings of the faceted central shaft that direct the air streams to the faceted central shaft, each facet having at least one fluted portion; a temperature sensor disposed within the mixing zone and adapted to measure a combined temperature of the air streams within the mixing zone. 12. The combining air-temperature monitor of claim 11 , wherein the faceted central shaft includes at least one conical portion that tapers toward the mixing zone. 13. The combining air-temperature monitor of claim 12 , wherein the at least one conical portion includes two opposing conical portions that taper toward the mixing zone, and wherein the mixing zone is positioned between the two opposing conical portions. 14. The combining air-temperature monitor of claim 11 , wherein the faceted central shaft is adapted to receive the plurality of air streams from any direction substantially perpendicular to the faceted central shaft for direction into the mixing zone. 15. The combining air-temperature monitor of claim 11 , wherein the plurality of air-foil rings includes a cover portion positioned proximate the mixing zone, wherein the cover portion at least partially encloses the mixing zone. 16. The combining air-temperature monitor of claim 11 , wherein the faceted central shaft is adapted for insertion into an air-handling duct, and wherein the faceted central shaft is free of a predetermined rotational orientation within the air-handling duct.