Method for manufacture of a chassis module and chassis module manufactured according to such a method

The invention claimed is: 1. A method of producing a chassis module that has a structural component with a through-going aperture into which a ball joint housing is inserted, the method comprising: connecting an outer periphery of the ball joint housing all round to an edge section of the aperture by a first material-cohesive joining without a filler, and stabilizing the ball joint housing in the aperture by additionally connecting the ball joint housing all round to at least one inner wall section of the aperture at a distance spaced away from the edge section by a second material-cohesive joining without a filler. 2. The method according to claim 1 , further comprising contouring at least one of an inner wall of the aperture and an outer peripheral surface of the ball joint housing, facing toward the inner wall of the aperture, before joining inner wall of the aperture and the peripheral surface of the ball joint housing. 3. The method according to claim 2 , further comprising preparing the inner wall of the aperture by stamping. 4. The method according to claim 2 , further comprising preparing the outer peripheral surface of the ball joint housing, that faces toward the inner wall of the aperture, by a machining operation in one clamped setting. 5. The method according to claim 2 , further comprising bringing together the structural component and the ball joint housing along a joint axis, prior to the joining operation, in such a manner that the inner wall of the aperture and the outer peripheral surface of the ball joint housing, that faces toward the inner wall of the aperture, contact one another at the same time along a first, closed line of contact and along at least one second, closed line of contact. 6. The method according to claim 5 , further comprising bringing together the structural component and the ball joint housing such that the first and the second closed lines of contact are arranged parallel to one another and offset relative to one another in a direction of the joint axis. 7. The method according to claim 5 , further comprising bringing together the structural component and the ball joint housing such that a central axis of the ball joint housing and a central axis of the aperture coincide with the joint axis. 8. The method according to claim 5 , further comprising designing the contouring at least one of the inner wall of the aperture and the outer peripheral surface of the ball joint housing facing the inner wall such that when in contact in an area of the first and the second closed lines of contact, as viewed in a longitudinal section through the joint axis, in each case an edge encounters an inclined surface. 9. The method according to claim 8 , further comprising immediately before joining, subjecting the structural component and the ball joint housing to a pre-stressing force that acts along the joint axis to bring the edges fully into contact with the associated inclined surfaces in the area of the first and the second closed lines of contact. 10. The method according to claim 1 , further comprising carrying out the material-cohesive joining, with no filler, by either resistance welding or condenser discharge welding. 11. The method according to claim 1 , further comprising at least selectively reinforcing the joint, between the structural component and the ball joint housing, by a material-cohesive joining using a filler. 12. The method according to claim 11 , further comprising carrying out the material-cohesive joining using the filler by either protective gas welding or Metal-active-gas (MAG) welding. 13. A chassis module comprising a structural component and a ball joint housing, the structural component has a through-going aperture into which a ball joint housing is inserted, an outer periphery of the ball joint housing being connected all round to an edge section of the aperture by a material-cohesive joining without a filler, and the ball joint housing being stabilized in the aperture by additionally connecting the ball joint housing all round to at least one inner wall section of the aperture at a distance spaced away from the edge section by a material-cohesive joining without a filler, and the chassis module is either a flanged connector or a multi-point link. 14. The chassis module according to claim 13 , wherein the ball joint housing is part of one of: a radial ball joint; an axial ball joint; and a ball sleeve joint. 15. A method of producing a chassis module having a structural component with a through-going aperture, the method comprising: inserting a ball joint housing into the through-going aperture of the structural component; fixing a first annular outer periphery of the ball joint housing to an annular edge section of the aperture by material-cohesive joining, without a filler, such that a central axis of the ball joint housing is coaxially aligned with a central axis defined by the through-going aperture of the structural component, and stabilizing the ball joint housing in the aperture of the structural component by additionally fixing a second annular outer periphery of the ball joint housing to at least an annular inner wall section of the aperture by material-cohesive joining, without a filler, and the annular inner wall section of the aperture is axially and radially spaced at a distance from the annular edge section of the aperture.