Apparatus and method for mobile friction stir welding of two tubular structures

The invention claimed is: 1. An apparatus for mobile friction stir welding of two tubular structures as joining partners, comprising the following features: a) an annular base body ( 2 ) which is unfoldable by means of a hinge ( 4 ) and can be connected fixedly for operation on the opposite side of the hinge ( 4 ) by means of a closure device ( 1 ), b) a plurality of lifting elements ( 3 ) which are distributed over the circumference of the base body ( 2 ), are movable radially by means of a drive ( 5 ) and each have a holding jaw ( 15 ) for holding the tubular structures, wherein the holding jaw ( 15 ) is mounted in a horizontally displaceable manner by means of a drive ( 6 ), c) a guide ring ( 21 ) which is connected to the base body ( 2 ) and on which a spindle head ( 11 ) can be moved in an orbital movement about the tubular structures by means of a drive ( 20 ) for the application of a weld seam, and d) a welding shoe ( 27 ) comprising a longitudinally-extending projection including a joining partner contacting surface comprising a sliding surface ( 26 ), which is matched to the curvature of the surfaces of the joining partners, and a chip groove ( 29 ), which comprises a leading portion that extends generally perpendicular to joining partners being welded then continues forward with a concave portion. 2. The apparatus as claimed in claim 1 , wherein the welding shoe ( 27 ) comprises a material outlet region ( 25 ) extending laterally away from the longitudinally-extending projection. 3. The apparatus as claimed in claim 1 , characterized in that the welding shoe ( 27 ) can be moved vertically in an incremental manner in the region of a receiving flange ( 35 ) by means of a drive spindle ( 31 ) for force control. 4. The apparatus as claimed in claim 1 , characterized in that sensors ( 43 , 46 , 47 , 48 ) are used to detect an inductive power supply and a measuring signal transmitter with an antenna in a region of a generally-conical holder 33 is used to detect all relevant process parameters during a welding process for incremental force control. 5. The apparatus as claimed in claim 1 , characterized in that, for holding and fixing the tubular structures, the annular base body ( 2 ) is assigned a second such base body in the form of a fixing ring ( 23 ) which is connected to the first base body ( 2 ) by means of a number of connecting clips ( 22 ), wherein the fixing ring ( 23 ) has lifting cylinders ( 3 ) which are movable radially by means of a drive ( 5 ). 6. A method for mobile friction stir welding of two tubular structures as joining partners with an apparatus of claim 1 , comprising the following features: a) fixing the two tubular structures to be welded in their desired position in such a manner that, for the welding process, a suitable annular base body ( 2 ) which is unfoldable by means of a hinge can be placed around the joining partners and completed by an operator by means of a closure device ( 1 ) to form a ring, b) the base body ( 2 ) is equipped with a plurality of lifting elements ( 3 ) which are distributed over the circumference of the base body ( 2 ) and each have a holding jaw ( 15 ) at their end for contact with the two joining partners, wherein each lifting element is moved in the radial direction by means of a drive ( 5 ), which is actuable by an operator, until it is braked by contact with a joining partner and the resistance which is therefore registered, and wherein all of the lifting elements are moved approximately the same distance, c) inserting a welding shoe ( 27 ) which is suitable for the respective diameter of the joining partners into the spindle head ( 11 ), then beginning the process of friction stir welding, wherein easy closing of a weld seam is achieved by the welding shoe being slowly moved further in the direction of the curvature while the welding pin is pulled back slowly, wherein all relevant process parameters during a welding process are detected by means of sensors ( 43 , 46 , 47 , 48 ) for incremental force control. 7. The method as claimed in claim 6 , characterized in that the centering of the base body ( 2 ) with the joining partners takes place entirely or partially under program control by means of the extension of the lifting elements. 8. The method as claimed in claim 6 , characterized in that the satisfactory functioning of the closure device ( 1 ) is ensured by means of an electronic monitoring device.