Processing nozzle and optical machining apparatus

The invention claimed is: 1. A processing nozzle comprising: a supply source which is capable of supplying a first fluid; a first channel through which the first fluid supplied from said supply source passes; a second and fifth channel that supplies the first fluid to an ejection port of the nozzle; a third channel that releases the first fluid outside the nozzle; and a switch that causes said first channel and said second channel to communicate with each other when supplying the first fluid to said ejection port, and causes said first channel and said third channel to communicate with each other when not supplying the first fluid to said ejection port, wherein said supply source is further capable of supplying a second fluid, and the processing nozzle further includes: a fourth channel through which the second fluid supplied from said supply source passes; and a sixth channel that releases the second fluid outside the nozzle, and said switch causes said first channel and said second channel to communicate with each other, and said fourth channel and said sixth channel to communicate with each other, when supplying the second fluid from said first channel to said ejection port, and causes said fourth channel and said second channel to communicate with each other, and said first channel and said third channel to communicate with each other, when supplying the second fluid from said fourth channel to said ejection port. 2. The processing nozzle according to claim 1 , wherein at least one of the first and second fluids contains a powder. 3. The processing nozzle according to claim 1 , wherein said first fluid includes a first powder and said second fluid includes a second powder different form the first powder. 4. The processing nozzle according to claim 1 , wherein a channel resistance of said third channel is lower than that from said second channel to said ejection port. 5. The processing nozzle according to claim 1 , further comprising a collector that is connected to said third channel and collects the first fluid, wherein a channel resistance from said third channel to said collector is equal to that from said second channel to said ejection port. 6. An optical machining apparatus comprising said processing nozzle according to claim 1 . 7. The processing nozzle according to claim 1 , wherein a bottom portion of the processing nozzle comprises sloped walls that taper gradually toward the ejection port so that the first fluid and the second fluid ejected from the ejection port converges to a processing point. 8. A processing nozzle comprising: a supply source which is capable of supplying a first fluid; a first channel through which the first fluid supplied from said supply source passes; a second channel that supplies the first fluid to an ejection port of the nozzle; a third channel that releases the first fluid outside the nozzle; and a switch that causes said first channel and said second channel to communicate with each other when supplying the first fluid to said ejection port, and causes said first channel and said third channel to communicate with each other when not supplying the first fluid to said ejection port, wherein said supply source is further capable of supplying a second fluid, and the processing nozzle further includes: a fourth channel through which the second fluid supplied from said supply source passes; a fifth channel that supplies the second fluid to said ejection port; and a sixth channel that releases the second fluid outside the nozzle, and said switch causes said first channel and said second channel to communicate with each other, and said fourth channel and said sixth channel to communicate with each other, when supplying the second fluid from said first channel to said ejection port, and causes said fourth channel and said fifth channel to communicate with each other, and said first channel and said third channel to communicate with each other, when supplying the second fluid from said fourth channel to said ejection port. 9. The processing nozzle according to claim 8 , further comprising a beam path that passes a light beam from a light source, wherein said second channel and said fifth channel are arranged to be mirror-symmetrical with respect to a plane including a central axis of said beam path. 10. An optical machining apparatus comprising the processing nozzle according to claim 8 . 11. The processing nozzle according to claim 8 , wherein a bottom portion of the processing nozzle comprises sloped walls that taper gradually toward the ejection port so that the first fluid and the second fluid ejected from the ejection port converges to a processing point.