Device and method for soldering contact elements with induction heat

The invention claimed is: 1. A system for inductive soldering, comprising: at least one ferromagnetic contact element; at least one conductor structure that is arranged on a nonmetallic plate, and a device for inductively soldering the at least one ferromagnetic contact element to the at least one conductor structure on the nonmetallic plate, the device comprising: a support to support the nonmetallic plate during the soldering operation, at least one soldering tool having at least one induction loop or induction coil adapted to emit a magnetic field, the at least one soldering tool being spaced apart from said support to receive the nonmetallic plate, the at least one ferromagnetic contact element and the at least one conductor structure in a space that extends between said support and said at least one soldering tool, the at least one soldering tool and the at least one ferromagnetic contact element being positioned relative to each other in said device such that the switched-on magnetic field of the soldering tool heats the at least one ferromagnetic contact element, at least in sections, and said at least one conductor structure and said at least one ferromagnetic contact element are arranged between said nonmetallic plate and said at least one soldering tool during the soldering operation, and a generator that is adapted to generate an alternating voltage with a frequency of up to 1500 kHz and that can be connected to the induction loop or the induction coil, wherein, apart from the at least one induction loop or induction coil, the soldering tool includes no components for directing and guiding field lines of the switched-on magnetic field, wherein dimensions of the at least one induction loop or induction coil correspond to a length and width of the at least one ferromagnetic contact element, wherein the device includes at least one counterholder for pressing the at least one ferromagnetic contact element onto the nonmetallic plate, the at least one counterholder being arranged adjacent the at least one soldering tool and on a same side as the at least one soldering tool with respect to the at least one ferromagnetic contact element during the soldering operation, wherein the at least one counterholder is made only of non-ferromagnetic and non-ferritic materials, and wherein the at least one counterholder has no components for directing and guiding field lines of the switched-on magnetic field. 2. The system according to claim 1 , wherein the soldering tool includes more than one induction loop or induction coil. 3. The system according to claim 1 , wherein the soldering tool is equipped with an electrically insulating intermediate layer for application to the at least one ferromagnetic contact element. 4. The system according to claim 1 , wherein the device includes a robot for guiding and applying the at least one soldering tool to the nonmetallic plate and/or the nonmetallic plate to the soldering tool. 5. The system according to claim 1 , wherein the counterholder is combined with gripping tools for positioning the at least one ferromagnetic contact element. 6. The system according to claim 5 , wherein the gripping tool has no components for directing and guiding field lines of the switched-on magnetic field. 7. A method for inductively soldering the at least one ferromagnetic contact element to the at least one conductor structure on the nonmetallic plate of a system according to claim 1 , the method comprising: a) providing the nonmetallic plate having at least one conductor structure arranged thereon and at least one first solder connection surface, b) providing the at least one ferromagnetic contact element made of a ferromagnetic steel and having at least one second solder connection surface, c) arranging at least one solder deposit, at least in sections, on the first solder connection surface or the second solder connection surface or on both, d) arranging the second solder connection surface on the first solder connection surface, wherein the solder deposit is arranged, at least in sections, between the first solder connection surface and the second solder connection surface, e) radiating a magnetic field with a predefined frequency by the soldering tool comprising an electrically supplied loop or coil into the contact element, in order to heat it by induction and to melt the solder deposit positioned thereon wherein the at least one ferromagnetic contact element is fixed on the nonmetallic plate before and during the soldering with the aid of the at least one non-ferromagnetic and non-ferritic counterholder, and wherein the at least one counterholder has no ferromagnetic or ferritic components. 8. The method according to claim 7 , wherein the frequency of the alternating voltage applied on the induction loop or induction coil is adapted to a connector geometry and is set at 1500 kHz at most. 9. The method according to claim 8 , wherein the frequency of the magnetic field is set in the range from 5 kHz to 1100 kHz. 10. The method according to claim 7 , wherein the soldering tool is applied to the at least one ferromagnetic contact element directly or via at least one electrically insulating intermediate layer or with an air gap or with a combination of at least one electrically insulating intermediate layer and the air gap. 11. The method according to claim 7 , wherein the plate, the at least one ferromagnetic contact element, and the at least one soldering tool are fixed stationarily in the device at least during the soldering operation. 12. The method according to claim 7 , wherein the first solder connection surface or the second solder connection surface or both are provided with a lead-containing or lead-free solder deposit. 13. The method according to claim 9 , wherein the frequency of the magnetic field is set in the range from 700 kHz and 1100 kHz. 14. The method according to claim 12 , wherein the first solder connection surface or the second solder connection surface or both are provided with a lead-containing or lead-free solder deposit with an integrated or subsequently applied flux.