Welding torch

The invention claimed is: 1. A cooled welding torch ( 1 ) having a closed cooling circuit through which a coolant flows from a coolant supply line to a coolant return line, which closed cooling circuit extends via a nozzle fitting receiver ( 3 ) into a gas nozzle ( 9 ), and the gas nozzle ( 9 ) is attachable to the welding torch ( 1 ) by a defined turn, wherein the closed cooling circuit is routed through a redirecting element ( 5 ), which redirecting element ( 5 ) is positioned above the nozzle fitting receiver ( 3 ) and is turned together with the gas nozzle ( 9 ), wherein a path of the closed cooling circuit is switchable by a position of the gas nozzle ( 9 ) between a basic position ( 27 ), wherein the coolant flows from the coolant supply line through the redirecting element ( 5 ) and back to the coolant return line in a shortened cooling circuit ( 270 ) in which the coolant does not flow through the gas nozzle ( 9 ), thereby permitting removal of the gas nozzle ( 9 ) without leaking of the coolant, and a locked position ( 28 ), wherein the coolant flows through the redirecting element ( 5 ) into the gas nozzle ( 9 ) in an expanded cooling circuit ( 280 ), depending on the position of the redirecting element and the gas nozzle. 2. The welding torch ( 1 ) according to claim 1 , wherein the redirecting element ( 5 ) comprises an inner ring ( 11 ) and an outer ring ( 12 ). 3. The welding torch ( 1 ) according to claim 2 , wherein the redirecting element ( 5 ) comprises a first cooling duct ( 19 ) and a second cooling duct ( 20 ), which are created by joining the inner ring ( 11 ) and the outer ring ( 12 ). 4. The welding torch ( 1 ) according to claim 3 , wherein the first cooling duct ( 19 ) has openings ( 13 ) in the first level ( 16 ). 5. The welding torch ( 1 ) according to claim 3 , wherein the second cooling duct ( 20 ) has openings ( 14 ) in the second level ( 17 ) and openings ( 15 ) in the third level ( 18 ). 6. The welding torch ( 1 ) according to claim 4 , wherein in the basic position ( 27 ) of the gas nozzle ( 9 ) the openings ( 13 ) of the first cooling duct ( 19 ) in the first level ( 16 ) are located above the inlet opening ( 29 ) and/or the outlet opening ( 30 ) of the nozzle fitting receiver ( 3 ). 7. The welding torch ( 1 ) according to claim 5 , wherein in the locked position ( 28 ) of the gas nozzle ( 9 ) the openings ( 14 ) of the second cooling duct ( 20 ) in the second level ( 17 ) are located above the inlet opening ( 29 ) and/or the outlet opening ( 30 ) of the nozzle fitting receiver ( 3 ). 8. The welding torch ( 1 ) according to claim 5 , wherein the openings ( 15 ) of the second cooling duct ( 20 ) of the third level ( 18 ) are arranged adjacent each other opposite to the inlet opening ( 22 ) and/or the outlet opening ( 23 ) of the gas nozzle ( 9 ). 9. The welding torch ( 1 ) according to claim 1 , wherein the redirecting element ( 5 ) has elevations ( 10 ), which are locked by locking pins ( 25 ) in the gas nozzle receiver ( 4 ) in the basic position ( 27 ). 10. The welding torch ( 1 ) according to claim 3 , wherein the first cooling duct ( 19 ) and the second cooling duct ( 20 ) are sealed against each other by sealing elements ( 2 ). 11. The welding torch ( 1 ) according to claim 1 , wherein the redirecting element ( 5 ) is made of an electrically insulating material. 12. The welding torch ( 1 ) according to claim 1 , wherein the redirecting element ( 5 ) comprises a forced path ( 31 ).