Method for contactlessly striking an arc and welding current source for carrying out a striking process

The invention claimed is: 1. A method for contactless ignition of an arc between an electrode and a workpiece which is to be welded, for carrying out a welding process, the method comprising: providing a welding current and a welding voltage at an output of a welding current source; generating using a resonant converter in the welding current source a periodically varying, substantially sawtooth-shaped, open circuit welding voltage with voltage maxima which recur periodically with a repetition rate, wherein the resonant converter comprises a series-parallel resonant converter; and superimposing temporally synchronous high-frequency pulses on the open circuit welding voltage in a region of at least some of the periodically recurring voltage maxima of the open circuit welding voltage. 2. The method according to claim 1 , wherein temporally synchronous high-frequency pulses are superimposed on the open circuit welding voltage in a region of every nth voltage maximum of the open circuit welding voltage, where n is a positive whole number greater than or equal to 1. 3. The method according to claim 1 , wherein the welding voltage is measured and the exceeding of a defined voltage value is detected, and the high-frequency pulses are superimposed time-synchronously on at least some detected defined voltage values. 4. The method according to claim 1 , wherein the high-frequency pulses are superimposed by a specified period of time before or after the occurrence of the voltage maximum. 5. The method according to claim 1 , wherein an open circuit welding voltage is made available with a repetition rate between 10 Hz and 100 Hz. 6. The method according to claim 1 , wherein high-frequency pulses are superimposed with a frequency between 100 kHz and 10 MHz. 7. A welding current source for providing a welding current and a welding voltage at an output for carrying out a welding process with an arc between an electrode and a workpiece to be welded, comprising: a resonant converter for generating a periodically varying, substantially saw-tooth-shaped, open circuit welding voltage with voltage maxima, which recur periodically with a repetition rate, wherein the resonant converter comprises a series-parallel resonant converter; and a circuit for generating high-frequency pulses, wherein the circuit, in order to ignite the arc contactlessly, is designed to time-synchronously superpose the high-frequency pulses onto the open circuit welding voltage in a region of at least some periodically recurring voltage maxima of the open circuit welding voltage. 8. The welding current source according to claim 7 , wherein the circuit for generating the high-frequency pulses is designed to superimpose the high-frequency pulses of the open circuit welding voltage time-synchronously in a region of every nth voltage maximum of the open circuit welding voltage, where n is a positive whole number greater than or equal to 1. 9. The welding current source according to claim 7 , wherein further comprising a measuring device comprising a voltage detector for detecting the welding voltage; and a control device comprising a controller or control circuit; said measuring device being connected via the control device to the circuit for generating the high-frequency pulses so that the high-frequency pulses can be time-synchronously superimposed with detected defined voltage values. 10. The welding current source according to claim 7 , wherein the circuit for generating the high-frequency pulses is designed to superimpose the high-frequency pulses temporally offset by a specified period of time before or after the occurrence of the voltage maximum. 11. The welding current source according to claim 7 , wherein the resonant converter is designed for generating the periodically varying open circuit voltage with a repetition rate of between 10 Hz and 100 Hz, in particular 33 Hz. 12. The welding current source according to claim 7 , wherein the circuit is designed for generating high-frequency pulses between 100 kHz and 10 MHz. 13. The welding current source according to claim 7 , wherein the electrode comprises a non-melting electrode. 14. The method according to claim 1 , wherein the high-frequency pulses are superimposed by up to 5 ms before or after the occurrence of the voltage maximum. 15. The welding current source according to claim 7 , wherein the circuit for generating the high-frequency pulses is designed to superimpose the high-frequency pulses temporally offset by up to 5 ms before or after the occurrence of the voltage maximum. 16. The method according to claim 5 , wherein the repetition rate is 33 Hz. 17. The welding current source according to claim 7 , wherein the repetition rate is 33 Hz. 18. The welding current source according to claim 7 , wherein the electrode comprises a tungsten electrode.