Welding electrode, method, and device for welding sandwich panels

What is claimed is: 1. A welding electrode comprising: a welding electrode body; a welding electrode cap connectable to the welding electrode body and configured to make contact with a component to produce a welded connection; an electrically conductive welding electrode jacketing that at least partly surrounds the welding electrode body; and an electrically conductive resistance element for heating the component; wherein: the electrically conductive resistance element is configured to be integrated in the welding electrode; the electrically conductive resistance element is in contact with both the welding electrode body and the welding electrode cap when the welding electrode cap is connected to the electrode body; the welding electrode body is connected or connectable in an electrically conductive manner to the welding electrode jacketing across the electrically conductive resistance element and the welding electrode cap; and the electrically conductive resistance element is connectable in an electrically conductive manner to the welding electrode body and the welding electrode cap. 2. The welding electrode of claim 1 wherein the electrically conductive resistance element is configured to be integrated in the welding electrode in a region intended to contact the component. 3. The welding electrode of claim 1 wherein the electrically conductive resistance element is configured to be integrated in the welding electrode body. 4. The welding electrode of claim 1 wherein the electrically conductive resistance element is configured to be integrated in the welding electrode cap. 5. The welding electrode of claim 1 further comprising a first material for conducting a welding current, wherein an electrical resistivity of the electrically conductive resistance element is greater than an electrical resistivity of the first material for conducting the welding current. 6. The welding electrode of claim 5 wherein at least one of the welding electrode body or the welding electrode cap comprise the first material for conducting the welding current. 7. The welding electrode of claim 6 wherein the first material is copper or a copper alloy. 8. The welding electrode of claim 1 wherein the electrically conductive welding electrode jacketing is comprised of metal. 9. The welding electrode of claim 1 wherein the electrically conductive welding electrode jacketing is comprised of copper or a copper alloy. 10. The welding electrode of claim 1 further comprising an electrical insulation that at least partly surrounds the welding electrode body, wherein the electrical insulation is disposed between the electrically conductive welding electrode jacketing and the welding electrode body. 11. The welding electrode of claim 1 wherein the electrically conductive resistance element comprises metal, wherein an electrical resistivity of the electrically conductive resistance element is larger than an electrical resistivity of copper. 12. The welding electrode of claim 1 wherein the welding electrode body comprises cooling channels for cooling the welding electrode. 13. A method for resistance welding a metallic component to a sandwich sheet that comprises a thermoplastic layer disposed between two metallic cover layers, the method comprising: heating a region of the sandwich sheet to be welded such that the thermoplastic layer softens; displacing the softened thermoplastic layer in the region by pressing together the two metallic cover layers; and welding the two metallic cover layers and the metallic component together by a flow of electric current in a first circuit through a first welding electrode disposed on a side of the sandwich sheet and a second welding electrode disposed on a side of the metallic component, wherein: the first welding electrode comprises a welding electrode body, a welding electrode cap connectable to the welding electrode body and configured to make contact with the metallic component to produce a welded connection, an electrically conductive welding electrode jacketing that at least partly surrounds the welding electrode body, and an electrically conductive resistance element for heating the metallic component, wherein the welding electrode body is connected or connectable in an electrically conductive manner to the welding electrode jacketing across the electrically conductive resistance element and the welding electrode cap; the electrically conductive resistance element is configured to be integrated in the first welding electrode; the electrically conductive resistance element is connected or connectable in an electrically conductive manner to the welding electrode body and the welding electrode cap; and heating the region of the sandwich sheet to be welded is performed by way of a current flow in a second circuit comprising the welding electrode body, the electrically conductive resistance element, and the welding electrode cap of the first welding electrode. 14. A device for resistance welding a metallic component to a sandwich sheet that comprises a thermoplastic layer disposed between metallic cover layers, the device comprising: a first welding electrode positionable on a side of the sandwich sheet, wherein the first welding electrode comprises a welding electrode body, a welding electrode cap connectable to the welding electrode body and configured to make contact with the metallic component to produce a welded connection, an electrically conductive welding electrode jacketing that at least partly surrounds the welding electrode body, and an electrically conductive resistance element for heating the metallic component, wherein the electrically conductive resistance element is configured to be integrated in the first welding electrode, wherein the electrically conductive resistance element is connected or connectable in an electrically conductive manner to the welding electrode body and the welding electrode cap, wherein the welding electrode body is connected or connectable in an electrically conductive manner to the welding electrode jacketing across the electrically conductive resistance element and the welding electrode cap; a second welding electrode positionable on a side of the metallic component; a first circuit configured to pass a welding current across the first and second welding electrodes; and means for displacing the thermoplastic layer of the sandwich sheet from a region of the sandwich sheet to be welded, wherein a second circuit comprises the welding electrode body, the electrically conductive resistance element, and the welding electrode cap of the first welding electrode, wherein the region of the sandwich sheet to be welded can be heated by passing current through the second circuit.