Joining method and machining head and manufacturing machine for carrying out the method

The invention claimed is: 1. A joining method for connecting at least two thermoplastic workpieces, with the steps of: a) splicing edge regions on a first workpiece and a second workpiece in order to produce splice regions on each of the first and second workpieces region, wherein—at least one of: the splicing takes place by at least one of corresponding fiber placement, material abrasion, laser ablation, machining or milling, the at least one splice region is formed in a stepped manner by a plurality of workpiece layers of the workpiece, the splice region is pretreated by fibers of the workpiece being exposed, the splice region is pretreated by fibers of the workpiece being exposed by means of laser surface treatment, the splice region is pretreated by the first one of the workpieces being coated with a microstructured functional layer, or the splice region is pretreated by the workpiece being plasma-coated with a microstructured functional layer; b) positioning the first and second workpieces relative to one another in such a manner that the splice regions of the first workpiece and the second workpiece bound a seam region and are in mirror relationship forming a gap extending parallel to lengths of the first and second workpieces and between respective lowermost surfaces of the first and second workpieces; c) inserting a connecting body into the seam region and heating part of the connecting body by means of local input of heat in order to form an integrally bonded connection between each workpiece and the connecting body, and when the connecting body layer is inserted, the connecting body is pressed by a pressing device which detects the connecting body, and a counter pressing device which detects the first and second workpieces and the counter pressing device has a blade which is introduced into the gap between the respective lowermost surfaces of the first and second workpieces when the pressing takes place. 2. The joining method as claimed in claim 1 , wherein, in step b), the workpieces are positioned in such a manner that a width of the seam region increases or increases step by step in a direction perpendicular to the workpiece layers from a lowermost surfaces to the uppermost surfaces of the first and second workpieces. 3. The joining method as claimed in claim 1 , wherein, in step c), the pressing device detects the connecting body on a connecting body wide side facing away from the first and second workpieces. 4. The joining method as claimed in claim 3 , wherein the pressing device comprises a pressing roller. 5. The joining method as claimed in claim 1 , wherein, in step c), the connecting body is heated on an individual, connecting body wide side. 6. The joining method as claimed in claim 1 , wherein, in step c), a plurality of connecting bodies are inserted and heated layer by layer in order to produce a connecting body layer which is connected in an integrally bonded manner to the first and second workpieces. 7. The joining method as claimed in claim 1 , wherein the counter pressing device detects a lowermost layer of at least one of the first and second workpieces. 8. The joining method as claimed in claim 1 , wherein at least one of: the counter pressing device extends below and between the first and second workpieces; the counter pressing device has a counter pressing roller which is arranged opposite the pressing device. 9. The joining method as claimed in claim 8 , wherein the counter pressing roller is arranged on an end region of the blade. 10. The joining method as claimed in claim 1 , wherein, in step c), when a second or further connecting body layer is inserted, the connecting body is pressed against the first and second workpieces, only by means of the pressing device which detects the connecting body. 11. The joining method as claimed in claim 10 , wherein the connecting body is pressed against a workpiece layer corresponding to the connecting body layer. 12. The joining method as claimed in claim 1 , wherein, in step c), the heating takes place by scanning a laser beam over the seam region. 13. The joining method as claimed in claim 1 , wherein, in step c), the manufacturing gap is filled by means of filling material during an insertion and heating of a first connecting body layer. 14. The joining method as claimed in claim 1 , wherein the connecting body is in the form of a flexible connecting strip; the connecting body contains an at most partially cured fiber reinforced plastic or is manufactured therefrom; the connecting body contains a metal sheet or is manufactured therefrom; the connecting body contains a fiber metal layer or is manufactured therefrom; the connecting body contains a multi-layered, fiber reinforced plastic or is manufactured therefrom; or the connecting body contains a fiber reinforced plastic and the fiber reinforced plastic is one of a carbon fiber reinforced plastic or a glass fiber reinforced plastic.