Friction welded steel piston having optimized cooling channel

The invention claimed is: 1. A piston of an internal combustion engine comprising: a top part and a bottom part, at least one joining web, which is integrally bonded in the region of a contact geometry via a friction weld to form a structural unit, wherein at least one cooling duct permeated by a coolant is integrated in the piston and passing the coolant into an inlet opening, flows through the cooling duct and exits the cooling duct via an outlet opening, characterized in that; for the introduction of the coolant into the cooling duct, the inlet opening includes a flow pipe which is inserted in the bottom part and protrudes from a cooling duct base with an excess length, wherein an outlet opening of the flow pipe is arranged above at least one weld bead of the friction weld; and the flow pipe is fixed in a positively locking manner in an installed position by the at least one weld bead of the friction weld between the top part and the bottom part of the piston. 2. The piston as claimed in claim 1 , characterized in that a clearance “x” between the outlet opening of the flow pipe and the cooling duct base exceeds a dimension “y”, which defines a fill level of the coolant in the cooling duct during an upward movement of the piston. 3. The piston as claimed in claim 1 , characterized in that the flow pipe is fixed at least on one side via the at least one weld bead. 4. The piston as claimed in claim 1 , characterized in that an outer contour of the flow pipe has an annular groove adapted for receiving the at least one weld bead. 5. The piston as claimed in claim, 1 characterized in that an outer contour of the flow pipe includes a partially concave recess for receiving the at least one weld bead. 6. The piston as claimed in claim 1 , characterized in that the flow pipe is produced from steel. 7. The piston as claimed in claim 1 , characterized in that the flow pipe extends in the direction of a pin hole of the piston, proceeding from a receiving bore in the bottom part of the piston. 8. The piston as claimed in claim 1 , characterized in that the flow pipe has two curved outlets extending in a y-shaped manner into the cooling duct. 9. The piston as claimed in claim 1 , characterized in that the cooling duct is split into two cooling duct segment halves which are separated from one another and are each assigned an inlet opening and an outlet opening. 10. A method for producing a piston, characterized by the steps of: inserting a flow pipe into a receiving bore of a bottom part of a piston; fixing an installed position of the flow pipe such that one of an opening outlet thereof is arranged in an installed position above a contact geometry between a piston top part and the piston bottom part; joining the top part and the bottom part together integrally at the contact geometry by means of a friction weld and creating at least one weld bead by friction weld wherein the at least one weld bead of the friction weld fixes the flow pipe at least locally in a positively locking manner. 11. A piston of an internal combustion engine comprising: a top part and a bottom part, at least one joining web, which is integrally bonded in the region of a contact geometry via a friction weld to form a structural unit, wherein at least one cooling duct permeated by a coolant is integrated in the piston and passing the coolant into an inlet opening, flows through the cooling duct and exits the cooling duct via an outlet opening, and the friction weld forming at least one weld bead disposed in the cooling duct characterized in that; for the introduction of the coolant into the cooling duct, the inlet opening includes a flow pipe which is inserted in the bottom part and protrudes from a cooling duct base with an excess length, wherein an outlet opening of the flow pipe is arranged above at least one weld bead of the friction weld; the flow pipe is fixed in a positively locking manner in an installed position by the at least one weld bead of the friction weld between the top part and the bottom part of the piston.