Vehicle camera lens dirt protection via air flow

The invention claimed is: 1. A The vision system for a vehicle, said vision system comprising: a camera comprising an imager and a lens, wherein said camera is disposed at an exterior portion of a vehicle and has a field of view exterior of the vehicle, and wherein said camera captures image data; a control comprising an image processor, wherein, responsive to said image processor processing image data captured by said camera, said control determines when there is debris at said lens of said camera; an air flow device operable to generate and direct air flow towards said lens of said camera to direct debris away from said lens of said camera; a heater device that heats the air flow so that heated air flow is directed towards said lens of said camera to direct debris away from said lens of said camera; wherein, responsive to determination of debris at said lens of said camera by processing by said image processor of captured image data, said control activates said air flow device to generate and direct air flow towards said lens of said camera; a moisture separator that separates water from the air flow, wherein the separated water is discharged from the air flow via a water discharge port that discharges the separated water away from said lens of said camera; wherein said camera comprises a front camera comprising an imager and a lens and disposed at a forward portion of the vehicle and having a field of view forwardly of the vehicle, and wherein said air flow device is operable to generate air flow and direct heated air flow towards said lens of said front camera to direct debris away from said lens of said front camera; and wherein an inlet port that receives air is disposed at a forward portion of the vehicle, and wherein said air flow device receives air from said inlet port, and wherein said moisture separator comprises baffles disposed at or near said inlet port of said vision system. 2. The vision system of claim 1 , wherein side cameras each comprising an imager and a lens are disposed at respective side portions of the vehicle so as to have respective sideward fields of view, and wherein said air flow device is operable to generate and direct air flow towards said lenses of said side cameras to direct debris away from said lenses of said side cameras. 3. The vision system of claim 2 , wherein, responsive to said image processor processing image data captured by at least one of said side cameras, said control determines when there is debris at said lens of said at least one of said side cameras, and wherein, responsive to determination of debris at said lens of said at least one of said side cameras, said control activates said air flow device to generate and direct air flow towards said lens of said at least one of said side cameras. 4. The vision system of claim 1 , comprising a plurality of cameras having respective lenses and imagers, wherein said air flow device comprises a plurality of outlet ports, and wherein said outlet ports are configured to direct air flow towards said lenses to direct debris away from said lenses. 5. The vision system of claim 4 , wherein said air flow device selectively generates air flow through one or more of a plurality of conduits for directing air towards a respective one of said plurality of cameras. 6. The vision system of claim 1 , wherein said air flow device is operable to generate air flow at least when the vehicle is traveling at a speed below a threshold speed. 7. The vision system of claim 1 , wherein said air flow device is operable to generate air flow at least responsive to a user input. 8. The vision system of claim 1 , wherein said air flow device comprises a fan. 9. A vision system for a vehicle, said vision system comprising: a camera comprising an imager and a lens, wherein said camera is disposed at an exterior portion of a vehicle and has a field of view exterior of the vehicle, and wherein said camera captures image data; a control comprising an image processor, wherein, responsive to said image processor processing image data captured by said camera, said control determines when there is debris at said lens of said camera; an air flow device operable to generate and direct air flow towards said lens of said camera to direct debris away from said lens of said camera; a moisture separator that separates water from the air flow, wherein the separated water is discharged from the air flow via a water discharge port that discharges the separated water away from said lens of said camera; wherein an inlet port that receives air is disposed at a forward portion of the vehicle, wherein said air flow device receives air from said inlet port, and wherein said moisture separator comprises baffles disposed at or near said inlet port of said vision system; wherein, responsive to determination of debris at said lens of said camera by processing by said image processor of captured image data, said control activates said air flow device to generate and direct air flow towards said lens of said camera; and wherein said air flow device is operable to discharge a liquid at said lens of said camera to enhance cleaning of said lens of said camera. 10. The vision system of claim 9 , wherein said camera comprises a front camera having a forward field of view. 11. The vision system of claim 9 , comprising a plurality of cameras having respective lenses and imagers, wherein said air flow device comprises a plurality of outlet ports, and wherein said outlet ports are configured to direct air flow towards said lenses to direct debris away from said lenses. 12. The vision system of claim 11 , wherein said air flow device selectively generates air flow through one or more of a plurality of conduits for directing air towards a lens of a respective one of said plurality of cameras. 13. The vision system of claim 12 , wherein at least one of (i) said air flow device is operable to generate air flow at least when the vehicle is traveling at a speed below a threshold speed and (ii) said air flow device is operable to generate air flow at least responsive to a user input. 14. A vision system for a vehicle, said vision system comprising: a front camera comprising an imager and a lens, wherein said front camera is disposed at an exterior front portion of a vehicle and has a field of view exterior and forward of the vehicle; a first side camera and a second side camera, each comprising an imager and a lens, wherein said first and second side cameras are disposed at respective side portions of the vehicle so as to have a respective sideward field of view; a control comprising an image processor, wherein, responsive to said image processor processing image data captured by said camera, said control determines when there is debris at said lens of at least one of said cameras; an air flow device operable to receive air at an inlet port and to generate and direct air flow towards said lenses to direct debris away from said lenses; a moisture separator that separates water from the air received at said inlet port, wherein the separated water is discharged via a water discharge port that discharges the separated water away from said lens of said camera; a heater device operable to heat the air flow after water is separated from the air so that heated air flow is directed towards said lenses to direct debris away from said lenses; and wherein, responsive to determination of debris at said lens of one of said cameras by processing by said image processor of captured image data, said control activates said air flow device to generate and direct air flow towards said lens of said one of said cameras.