Method for controlling a welding process

The invention claimed is: 1 . A method for controlling a welding process with a consumable electrode, said method comprising: using at least two different sequential welding phases after ignition of an are between the electrode and a base material, said phases comprising a cold welding phase used during a cold phase duration and a hot welding phase used during a subsequent hot phase duration; carrying out, in the cold welding phase, at least one short-circuit cycle with a short-circuit cycle time, and wherein a change is made to the hot welding phase after the cold welding phase; wherein a specific limit cycle number of short-circuit cycles is predetermined for the cold welding phase; wherein the cold phase duration of the cold welding phase is determined for a number of short-circuit cycles that exceeds the predetermined specific limit cycle number, depending on a determined cold phase time; wherein, to determine the cold phase duration, a short-circuit cycle, already started at the time of the end of the cold phase time, is completed, before changing to the hot welding phase. 2 . The method according to claim 1 , wherein: in order to determine the cold phase duration depending on the cold phase time before the end of the cold phase time, a tolerance point in time is specified from which the start of a new short-circuit cycle is not begun, a short-circuit cycle carried out at the tolerance point in time being ended before the change to the hot welding phase. 3 . The method according to claim 1 , wherein: the limit cycle number is selected to be between one and thirty. 4 . The method according to claim 1 , wherein: the limit cycle number is selected to be between five and twelve. 5 . The method according to claim 1 , wherein: the cold phase time is determined by multiplying the number of specified short-circuit cycles by an average short-circuit cycle time, the average short-circuit cycle time being set between five and fifteen milliseconds. 6 . The method according to claim 1 , wherein; the cold phase time is determined by multiplying the number of specified short-circuit cycles by an average short-circuit cycle time, the average short-circuit cycle time being ten milliseconds. 7 . The method according to claim 1 , wherein; the electrode is moved once per short-circuit cycle in a direction of the base material until it touches the base material and then, after a short circuit has formed, is moved away from the base material in an opposite direction. 8 . The method according to claim 1 , wherein: a pulsed welding current is used as the welding current in the hot welding phase. 9 . The method according to claim 1 , wherein: the cold phase duration of the cold welding phase is determined, for a number of short-circuit cycles that corresponds to the limit cycle number or is below the limit cycle number, by a sum of the short-circuit cycle times of the specified number of short-circuit cycles. 10 . A welding device for carrying out a welding process comprising: at least one control for controlling the welding process; a welding torch and at least one feeder for feeding a consumable electrode to the welding torch; the control being configured at least to carry out a cold welding phase during a cold phase duration and to carry out a hot welding phase during a subsequent hot phase duration, at least one short-circuit cycle having a short-circuit cycle time being provided in the cold welding phase; wherein the control controls the cold phase duration of the cold welding phase; wherein a specific limit cycle number of short-circuit cycles is predetermined for the cold welding phase; wherein the cold phase duration of the cold welding phase is determined for a number to complete short-circuit cycles that exceeds a predetermined specific limit cycle number, depending on a determined cold phase time; wherein, after the cold welding phase, the control causes a change to the hot welding phase, the control being configured for completing a short-circuit cycle that has already started at the time of the end of the cold phase time before the change to the hot welding phase in order to determine the cold phase duration. 11 . The welding device according to claim 10 , wherein: in the control for determining the cold phase duration depending on the cold phase time, a tolerance point in time can be set before the end of the cold phase time, from which tolerance time a new short-circuit cycle is not begun, the control being provided for completing a short-circuit cycle carried out at the tolerance point in time before the change to the hot welding phase. 12 . The welding device according to claim 10 , wherein: the limit cycle number is between one and thirty. 13 . The welding device according to claim 10 , wherein: the limit cycle number is between five and ten. 14 . The welding device according to claim 10 , wherein: the control is configured for determining the cold phase time by multiplying the number of specified short-circuit cycles by an average short-circuit cycle time, the average short-circuit cycle time being between five and fifteen milliseconds. 15 . The welding device according to claim 10 , wherein: the control is provided for determining the cold phase time by multiplying the number of specified short-circuit cycles by an average short-circuit cycle time, the average short-circuit cycle time being ten milliseconds. 16 . The welding device according to claim 10 , wherein: a user interface is configured for operating the welding device, the user interface being provided at least for specifying welding parameters, said welding parameters at least including specifying the limit cycle number. 17 . The welding device according to claim 10 , wherein: the control is configured, in each short-circuit cycle, for moving the electrode in a direction of the base material until it touches the base material and then, after a short circuit has formed, for moving the electrode away from the base material in an opposite direction. 18 . The welding device according to claim 10 , wherein: the control is configured for using a pulsed welding current in the hot welding phase. 19 . The welding device according to claim 10 , wherein: the cold phase duration of the cold welding phase is determined, for a number of short-circuit cycles that corresponds to the specified limit cycle number or is below the specified limit cycle number, by a sum of the short-circuit cycle times of the number of short-circuit cycles.