Coil coating process

The invention claimed is: 1. A coil coating method for multilayer coating of a continuous metal strip, which is disposed in a strip passage, the method comprising: applying a curable polymer primer on a flat side of the metal strip using a roller application in order to form an electrically insulating primer layer; printing at least one electrically conductive conductor track on at least some areas of the electrically insulating primer layer; and applying a curable polymer varnish onto said primer layer over the at least one electrically conductive conductor track using a roller application and curing the polymer varnish in order to form an electrically insulating varnish layer; wherein the at least one conductor track and the varnish are applied using a wet-on-wet process. 2. The coil coating method according to claim 1 , comprising pre-curing the applied primer at least up to a gel point prior to printing the at least one conductor track on the primer layer. 3. The coil coating method according to claim 1 , comprising curing the primer layer and/or the varnish layer by drying at a substrate temperature in a range of 150 to 300° C. 4. The coil coating method according to claim 2 , comprising pre-curing the primer layer at a substrate temperature in a range of 180 to 240° C. prior to printing the at least one conductor track on the primer layer. 5. The coil coating method according to claim 4 , comprising finally curing the primer layer and the varnish layer at a substrate temperature in a range of 220 to 260° C. 6. The coil coating method according to claim 1 , comprising jointly curing the at least one conductor track and the varnish layer. 7. The coil coating method according to claim 6 , comprising jointly curing the at least one conductor track and the varnish layer in one working cycle. 8. The coil coating method according to claim 1 , wherein the primer layer and/or the varnish layer has a Tg-onset value in a range of 10 to 75° C. in the cured state. 9. The coil coating method according to claim 8 , wherein the Tg-onset value of the primer layer for a metal strip in an inner region has a range of 10 to 35° C. 10. The coil coating method according to claim 9 , wherein the Tg-onset value of the primer layer for a metal strip in an outer region has a range of 30 to 75° C. 11. The coil coating method according to claim 1 , comprising applying the primer layer with a layer thickness of between 3 and 30 μm. 12. The coil coating method according to claim 1 , comprising printing the at least one electrical conductor track with a layer thickness of less than or equal to 15 μm and/or with a layer width of less than 5 mm. 13. The coil coating method according to claim 1 , comprising printing at least one electrical component between the primer layer and the varnish layer, which electrical component is electrically connected to the at least one conductor track. 14. The coil coating method according to claim 13 , comprising printing an electrical component in the form of a measurement transducer. 15. The coil coating method according to claim 1 , comprising using a roll-to-roll process to print the at least one electrical conductor track. 16. The coil coating method according to claim 15 , comprising using a roller application to print the at least one electrical conductor track. 17. The coil coating method according to claim 1 , comprising printing the at least one conductor track as a pattern repeat. 18. The coil coating method according to claim 1 , wherein the primer and the varnish are chemically cross-linked. 19. The coil coating method according to claim 1 , comprising producing a conversion layer on the flat side of the metal strip before the application of the primer.