Monitoring and control of a milling operation

The invention claimed is: 1. A milling device for manufacturing antenna structures out of a metal layer laminated on an insulating backing with a controlled milling cutter and with a controller for monitoring and controlling the milling operation of the milling cutter interacting with a die, wherein the milling cutter is adapted to mill at least one antenna structure out of a metal layer on a flexible product having the backing and the metal layer, while the product is guided through a milling gap between the milling cutter and the die, the device comprising: a light emitter/receiver for outputting and receiving a light strip crossing the milling gap in or transversely to a running direction of the product, wherein a transverse dimension of the light strip is characteristic of the width of the milling gap between the milling cutter and the die, and wherein the light receiver is adapted to output a signal reproducing the width of the milling gap to the controller, and wherein the controller is adapted to output an adjusting signal at least to an adjusting drive that influences the width of the milling gap between the milling cutter and the die. 2. The device according to claim 1 , wherein the light strip is oriented and dimensioned, and the milling cutter and the die are intended to be arranged, so that the milling cutter and the die shadow the light strip at least at one of its two longitudinal edges, before the light receiver receives the light strip. 3. The device according to claim 1 , wherein the product is a band guided from a first roller to a second roller. 4. The device according to claim 1 , wherein the light emitter/receiver is formed to detect a position of the milling cutter and/or a thermal expansion of the milling cutter and/or a position of the die during operation of the device. 5. The device according to claim 1 , wherein the controller is adapted to change the position of the milling cutter and/or the die if the width of the milling gap between the milling cutter and the die falls below or exceeds a predefined threshold value. 6. The device according to claim 1 , wherein the width of the milling gap between the milling cutter and the die results from a shortest distance of a circular motion of the blades of the milling cutter to a base of the die. 7. The device according to claim 1 , wherein a chip extraction device is arranged on the milling cutter and is adapted to extract metal chips milled by the milling cutter out of the metal layer, so that these adversely affect the light strip crossing through the milling gap as little as possible. 8. A method for monitoring and controlling a milling operation for the manufacture of antenna structures with the steps: providing a milling device with a controlled milling cutter, a die and a controller for monitoring and controlling the milling operation of the milling cutter interacting with the die, milling of at least one antenna structure out of a metal layer on a flexible product having a backing and the metal layer, while the product is guided through a milling gap between the milling cutter and the die; outputting a light strip crossing through the milling gap in or transversely to a running direction of the product by a light emitter, wherein the light strip is dimensioned, and the milling cutter and the die are intended to be arranged, so that the milling cutter and the die shadow the light strip at least at one of its two longitudinal edges before a light receiver receives the light strip, wherein its transverse dimension is characteristic of the width of the milling gap between the milling cutter and the die, outputting a signal reproducing the width of the milling gap by the light receiver to a controller, and outputting an adjusting signal at least to an adjusting drive that influences the width of the milling gap between the milling cutter and the die. 9. The method according to claim 8 , wherein the signal output by the light receiver contains the width of the milling gap, the position of the milling cutter or the position of the die, wherein the signal containing the width of the milling gap contains a difference of the position of the milling cutter and the position of the die, or the signal containing the position of the milling cutter contains an absolute position of the circular motion of the milling cutter with regard to a sensor center of the light receiver, or the signal containing the position of the die contains an absolute position of the base of the die with regard to a sensor center of the light receiver. 10. The method according to claim 8 , wherein the light strip crossing through the milling gap in or transversely to a running direction of the product encloses with the product—viewed in or transversely to its running direction—an angle between 10° and 170°, preferably 180°.