Device for changing electrode caps of a welding unit and welding method

What is claimed is: 1. A device for changing electrode caps of a welding unit, the device comprising: at least one reserve unit configured to hold in reserve a plurality of electrode caps which are used by a welding tool of a welding robot of the welding unit to perform welding operations; and a cap changing unit configured to demount an electrode cap mounted on the welding tool for another electrode cap of the plurality of electrode caps held in reserve in the at least one reserve unit, the cap changing unit further configured to arrange the electrode cap demounted from the welding tool in the at least one reserve unit, wherein the welding unit includes a welding controller electrically connected to the welding robot and configured to control the welding robot, the welding controller including a wear counter configured to monitor wear of the electrode cap mounted on the welding tool, wherein the cap changing unit is configured to receive an electrode change signal from the welding robot when the wear counter determines that the electrode cap mounted on the welding tool has been worn beyond a maximum permissible wear, wherein the plurality of electrode caps held in reserve each have a separate identification, wherein the cap changing unit is configured to select a particular electrode cap of the plurality of electrode caps held in reserve based on the separate identification, and wherein the device has no mechanical connection to the welding controller and no electrical connection to the welding controller, such that the device and the welding controller are configured to operate independently. 2. The device according to claim 1 , further comprising: a handling robot configured to supply one of the electrode caps of the plurality of electrode caps held in reserve in the at least one reserve unit to the welding robot on which the welding tool is mounted. 3. The device according to claim 2 , wherein: the handling robot is additionally configured to mill the electrode cap demounted from the welding tool, and the handling robot is further configured to guide the electrode cap demounted from the welding tool to a corresponding cap milling unit. 4. The device according to claim 1 , further comprising at least one cap milling unit configured to mill the electrode cap demounted from the welding tool to a size which is required for a welding operation executed by the welding unit. 5. The device according to claim 4 , wherein the at least one cap milling unit is configured to mill the electrode cap mounted on the welding tool when wear to the electrode cap mounted on the welding tool exceeds a permissible value and a maximum number of milling steps has not been exceeded. 6. The device according to claim 1 , wherein the cap changing unit is configured to exchange the electrode cap mounted on the welding tool for the other electrode cap of the plurality of electrode caps held in reserve in the at least one reserve unit when wear to the electrode cap mounted on the welding tool exceeds a permissible value and a maximum number of milling steps has been exceeded. 7. The device according to claim 1 , wherein in response to receiving the electrode change signal, the cap changing unit demounts the electrode cap mounted on the welding tool from the welding tool, arranges the electrode cap demounted from the welding tool in the at least one reserve unit, and mounts the other electrode cap of the plurality of electrode caps held in reserve in the at least one reserve unit on the welding tool. 8. A welding unit, comprising: a welding robot including a welding tool mounted thereon; a welding controller electrically connected to the welding robot and configured to control the welding robot, the welding controller including a wear counter configured to monitor wear of an electrode cap mounted on the welding tool, the electrode cap used by the welding tool to perform welding operations; a device for changing the electrode cap of the welding tool, the device including at least one reserve unit configured to hold in reserve a plurality of additional electrode caps which are used by the welding tool to perform welding operations, and a cap changing unit configured to demount the electrode cap mounted on the welding tool for one of the additional electrode caps held in reserve in the at least one reserve unit, the cap changing unit further configured to arrange the electrode cap demounted from the welding tool in the at least one reserve unit, wherein the device is configured to receive an electrode change signal from the welding robot when the wear counter of the welding controller determines that the electrode cap mounted on the welding tool has been worn beyond a maximum permissible wear, and wherein the device has no mechanical connection to the welding controller and no electrical connection to the welding controller, such that the device and the welding controller are configured to operate independently. 9. The welding unit according to claim 8 , wherein the device further comprises: a handling robot configured to supply the plurality of additional electrode caps held in reserve in the at least one reserve unit to the welding robot on which the welding tool is mounted. 10. The welding unit according to claim 9 , wherein: the device further includes a cap milling unit, and the handling robot is further configured to guide the electrode cap demounted from the welding tool to the cap milling unit. 11. The welding unit according to claim 10 , wherein the cap milling unit is configured to mill the electrode cap demounted from the welding tool to a size which is required for a welding operation executed by the welding unit. 12. The welding unit according to claim 11 , wherein the cap milling unit is configured to mill the electrode cap mounted on the welding tool when wear to the electrode cap mounted on the welding tool exceeds a permissible value and a maximum number of milling steps has not been exceeded. 13. The welding unit according to claim 8 , wherein the cap changing unit is configured to exchange the electrode cap mounted on the welding tool for the additional electrode cap of the plurality of additional electrode caps held in reserve when wear to the electrode cap mounted on the welding tool exceeds a permissible value and a maximum number of milling steps has been exceeded. 14. The welding unit according to claim 8 , wherein in response to the device receiving the electrode change signal, the cap changing unit demounts the electrode cap mounted on the welding tool from the welding tool, arranges the electrode cap demounted from the welding tool in the at least one reserve unit, and mounts the additional electrode cap of the plurality of additional electrode caps held in reserve on the welding tool.