Coating method and corresponding coating device

The invention claimed is: 1. A coating device for coating components with a coating agent, comprising: a) a nozzle applicator having a plurality of nozzles for applying the coating agent to the components to be coated, the nozzles in the nozzle applicator arranged next to one another in a nozzle row, b) a multi-axis coating robot which guides the nozzle applicator along a predetermined movement path over a surface of the components to be coated, and c) a control device which controls the nozzle applicator and the multi-axis coating robot, d) wherein the control device is configured to: i. flexibly control the nozzle applicator during the movement over the surface; ii. selectively operate the nozzle applicator with a large area coating performance or with a small area coating performance; iii. control the coating robot in such a way that the nozzle applicator is rotated along the predetermined movement path during the movement; iv. control the coating robot to rotate the nozzle applicator in such a way that the nozzle row is aligned transversely relative to the predetermined movement path when coating with the large area coating performance; and v. control the coating robot to rotate the nozzle applicator in such a way that the nozzle row is aligned longitudinally relative to the predetermined movement path when coating with the small area coating performance. 2. The coating device according to claim 1 , wherein a) the nozzle applicator has a plurality of parallel nozzle rows in each of which a plurality of nozzles are arranged next to one another, b) the control device controls the nozzle applicator in such a way that, during the coating with the small area coating performance, not all nozzle rows of the nozzle applicator are activated, and c) the control device controls the nozzle applicator in such a way that more than one nozzle row of the nozzle applicator is activated during the coating with the large area coating performance. 3. The coating device according to claim 1 , wherein a) the control device is configured to selectively operate the nozzle applicator in a jet mode or in a drop mode, b) in the jet mode, the nozzles of the nozzle applicator emit a coating agent jet which is connected in the longitudinal direction of the coating agent jet, in contrast to a droplet jet which consists of droplets which are separated from one another in the longitudinal direction of the droplet jet, and c) in the drop mode, the nozzles of the nozzle applicator emit a droplet jet which consists of droplets which are separated from one another in the longitudinal direction of the droplet jet, in contrast to the coating agent jet which is connected in the longitudinal direction of the coating agent jet. 4. The coating device according to claim 1 , wherein a) a first nozzle applicator is guided by a first coating robot over the surface, b) a second nozzle applicator is guided by a second coating robot over the surface, and c) the two nozzle applicators are positioned above the surface by the coating robots with a large relative positioning accuracy with a positioning tolerance of less than 2 mm. 5. The coating device according to claim 4 , wherein the spatial position of the two nozzle applicators is measured by means of an optical measurement system in order to achieve the large relative positioning accuracy. 6. The coating device according to claim 4 , wherein the coating robots have sensors in order to detect their relative position and thereby enable the large relative positioning accuracy. 7. The coating device according to claim 1 , wherein a) the nozzle applicator is a printhead, and b) the nozzle applicator emits a narrowly limited coating agent jet in contrast to a spray mist, and c) the nozzle applicator has an application efficiency of at least 80% so that substantially all of the applied coating agent is completely deposited on the component without overspray. 8. The coating device according to claim 7 , wherein a) the nozzle applicator has an area coating performance of at least 0.5 m 2 /min, and b) the volume flow of the applied coating agent and thus the exit velocity of the coating agent is set in such a way that the coating agent does not bounce off the component after it hits the component, and c) the exit velocity of the coating agent from the printhead is at least 5 m/s; and d) the exit velocity of the coating agent from the printhead is not more than 30 m/s; and e) the application distance between a nozzle of the plurality of nozzles and the surface is at least 4 mm, and f) the application distance between the nozzle of the plurality of nozzles and the surface is at most 200 mm, and g) the coating agent is a paint, and h) the nozzle applicator has at least one electrically controllable actuator in order to eject drops of the coating agent from the nozzle applicator. 9. A coating device for coating components with a coating agent, comprising: a) a nozzle applicator having a plurality of nozzles for applying the coating agent to the components to be coated, b) a multi-axis coating robot which guides the nozzle applicator along a predetermined movement path over a surface of the components to be coated, c) a control device which controls at least one of the nozzle applicator and the multi-axis coating robot, d) wherein the control device flexibly controls the nozzle applicator during the movement over the surface, and e) wherein the control device is configured to selectively operate the nozzle applicator: i. in a jet mode in which the nozzles of the nozzle applicator emit a coating agent jet which is connected in the longitudinal direction of the coating agent jet, in contrast to a droplet jet which consists of droplets which are separated from one another in the longitudinal direction of the droplet jet; or ii. in a drop mode in which the nozzles of the nozzle applicator emit a droplet jet which consists of droplets which are separated from one another in the longitudinal direction of the droplet jet, in contrast to the coating agent jet which is connected in the longitudinal direction of the coating agent jet. 10. The coating device according to claim 9 , wherein a) the control device is configured to operate the nozzle applicator in the jet mode for coating with a high area coating performance, and b) the control device is configured to operate the nozzle applicator in the drop mode for coating with a small area coating performance. 11. The coating device in accordance with claim 9 , wherein the control device is configured to operate the nozzle applicator at the path beginning and at the path end and at turning points of the predetermined movement path in the drop mode and otherwise in the jet mode. 12. The coating device according to claim 9 , wherein the control device is configured to operate the nozzle applicator in the overlapping region of overlapping coating paths in the drop mode and otherwise in the jet mode.