Robotically controlled gas tungsten arc welder and method for operating the same

What is claimed is: 1 . A torch assembly used in an arc welder, comprising: a head; an electrode extending from said head; a non-linear delivery tube carrying a movable feed wire and extending from said head; and a liner maintained within said non-linear delivery tube, said liner receiving said feed wire and facilitating movement of said feed wire. 2 . The torch assembly according to claim 1 , wherein said non-linear delivery tube comprises: a linear portion extending from said head; an angular portion extending from said linear portion; and a tip portion having an opening and extending from said angular portion and having an angle of anywhere between 30° and 60°. 3 . The torch assembly according to claim 2 , wherein said angular portion and said linear portion have a radial transition therebetween of 25 to 50 mm. 4 . The torch assembly according to claim 1 , wherein said liner is made from brass. 5 . The torch assembly according to claim 1 , wherein said liner is made from a helically wound brass material. 6 . A method for controlling a welder, comprising: associating an arc welder with a robotic arm; programming said robotic arm to travel to a start position of a weld path; calling a predetermined weld parameter schedule from a power source; establishing an arc between an electrode of said arc welder and workpiece and setting outputs to initiate delivery of a feed wire from said power source and said weld parameter schedule; and simultaneously moving said robotic arm and oscillating said feed wire along said weld path. 7 . The method according to claim 6 , further comprising: designating said predetermined weld parameter schedule for gas tungsten arc welding. 8 . The method according to claim 6 , further comprising: initiating a ramp down procedure at an end position of said weld path. 9 . The method according to claim 6 , further comprising: utilizing an input device to program both said robotic arm and said predetermined weld parameter schedule. 10 . The method according to claim 6 , further comprising: providing said robotic arm with automated height control. 11 . A robotic gas tungsten arc weld interface configuration, comprising: a robotic arm; a torch assembly adapted to be mounted to said robotic arm; a wire feed unit supplying a feed wire to said torch assembly; a power source supplying power and control signals to said torch assembly; and a controller connected to and exchanging operational signals between said robotic arm, said wire feed unit and said power source so as to initiate an automatic welding sequence of at least two workpieces. 12 . The interface configuration according to claim 11 , wherein said robotic arm and said controller exchange an auto height control signal so as to maintain a predetermined distance between an electrode carried by said torch assembly and the at least two workpieces. 13 . The interface configuration according to claim 11 , wherein said wire feed unit and said controller exchange at least wire feed speed and wire frequency control signals so as to deliver a feed wire from said wire feed unit to said torch assembly. 14 . The interface configuration according to claim 11 , wherein said power source and said controller exchange at least wire heat and arc signals so as to heat a feed wire delivered from said wire feed unit to said torch assembly and initiate an arc between an electrode maintained by said torch assembly and the at least two workpieces. 15 . The interface configuration according to claim 11 , wherein said robotic arm and said controller exchange an auto height control signal so as to maintain a predetermined distance between an electrode carried by said torch assembly and the at least two workpieces, wherein said wire feed unit and said controller exchange at least wire feed speed and wire frequency control signals so as to deliver a feed wire from said wire feed unit to said torch assembly, and wherein said power source and said controller exchange at least wire heat and arc signals so as to heat a feed wire delivered from said wire feed unit to said torch assembly and initiate an arc between an electrode maintained by said torch assembly and the at least two workpieces. 16 . The interface configuration according to claim 15 , further comprising a pendant connected to said controller, wherein a user input allows adjustment of said auto height control signal, said wire feed speed and wire frequency control signals, and said wire heat and arc signals.