Patent Number: 
Section: claims

1. Central dryer for electron beam curing witha first application unit to apply a first coating to a web;an irradiation unit in which a first electron beam generator and a second electron beam generator are arranged for irradiation of the web, the irradiation unit having a screen for the electron beam generators, the screen screening against high-energy radiation generated in the irradiation unit, whereby the electron beam generators arranged in the irradiation unit have connections for at least one pump system to generate an operating vacuum; anda web guiding system arranged to (a) feed the web through the screen into the irradiation unit for irradiation after passing through the first application unit, thereafter (b) feed the web through the screen out of the irradiation unit, thereafter (c) feed the web to a second application unit for application of a second coating to the web, thereafter (d) feed the web through the screen back into the irradiation unit for additional irradiation, thereafter (e) feed the web through the screen back out of the irradiation unit. 2. Central dryer for electron beam curing according to claim 1, characterised in that the web guiding system is designed to feed the web into the irradiation unit after passing through the first application unit where the web is irradiated by the first electron beam generator and by the second electron beam generator and then led back out of the irradiation unit. 3. Central dryer for electron beam curing according to claim 1, characterised in that the first electron beam generator and the second electron beam generator are designed for electron beam curing of the first coating. 4. Central dryer for electron beam curing according to claim 1, characterised in that the first electron beam generator is designed for the electron beam curing of the first coating and the second electron beam generator is designed for the electron beam curing of one or more previously applied coatings. 5. Central dryer for electron beam curing according to claim 1, characterised in that the web guiding system is designed to feed the web to the irradiation unit after passing through the first application unit where the web is beamed by the first electron beam generator and then led out of the irradiation unit and fed into the second application unit and the web, after passing through the second application unit is fed into the irradiation unit where it is beamed by the second electron beam generator and then led out of the irradiation unit. 6. Central dryer for electron beam curing according to claim 1, characterised by at least three application units outside the irradiation unit and at least three electron beam generators arranged inside the irradiation unit, whereby each application unit is assigned at least one electron beam generator and the web guiding system is designed to feed the web after passing through an application unit to the irradiation unit where the web is beamed by the at least one assigned electron beam generator and then led back out of the irradiation unit. 7. Central dryer for electron beam curing according to claim 1, characterised in that an electron beam generator assigned to an application unit is designed to cure at least one coating applied by at least one previously passed application unit. 8. Central dryer for electron beam curing according to claim 1, characterised by one or more of the following features:each of the electron beam generators arranged inside the irradiation unit extends over the whole width of the web;the irradiation is executed as a self-contained, separate module;the irradiation unit is arranged in a spatially delineated area of the central dryer for electron beam curing;the application units are arranged in a first spatially delineated area of the central dryer for electron beam curing and the irradiation unit is arranged in a second spatially delineated area of the central dryer for electron beam curing;the first application unit is arranged adjacent the irradiation unit;the irradiation unit is arranged centrally with respect to the application units;the web passes into and out of the irradiation unit at least three times. 9. Central dryer for electron beam curing according to claim 1, characterised in that at least one of said application units includes at least one of the following: a laminating unit, a lining unit, an adhesive application unit, an ink application unit, a varnish application unit, a powder application unit, a coating unit, an extruder, an extruder with moulding tool. 10. Central dryer for electron beam curing according to claim 1, characterised in that at least one of said coatings includes one or more of the following: an ink coating, a varnish coating, an adhesive coating, a lining foil with adhesive, a laminating coating, a plastic coating, a siliconisation, a finishing coating. 11. Central dryer for electron beam curing according to claim 1, characterised in that one or more of the application units are printing units for at least one of the following printing processes: flexographic, intaglio, screen, offset printing. 12. Central dryer for electron beam curing according to claim 1, characterised in that between one of the application units and one electron beam generator assigned to the application unit one or more of the following are arranged: a web dryer, a convection dryer, a solvent dryer, an excimer dryer, a UV dryer, an IR dryer, a heat treatment unit. 13. Central dryer for electron beam curing according to claim 1, characterised in that the electron beam generators arranged inside the irradiation unit are connected to a joint vacuum system for all electron beam generators. 14. Central dryer for electron beam curing according to claim 13, characterised in that the joint vacuum system has a pump system for the generation of the operating vacuum. 15. Printing press which comprises at least one central dryer for electron beam curing according to claim 1. 16. Method for application of at least two coatings on a web, the method utilizing an irradiation unit in which a first electron beam generator and a second electron beam generator are arranged for irradiation of the web, the irradiation unit having a screen for the electron beam generators, the screen screening against high-energy radiation generated in the irradiation unit, the method comprising the following steps:applying a first coating to the web;thereafter feeding the web through the screen into the irradiation unit and irradiating the web with electrons by the first electron beam generator;thereafter leading the web through the screen out of the irradiation unit;thereafter applying outside the irradiation unit a second coating to the web;thereafter feeding the web through the screen back into the irradiation unit and irradiating the web with electrons by the second electron beam generator; andthereafter leading the web through the screen back out of the irradiation unit. 17. The central dryer of claim 1, wherein the web passes into and out of the irradiation unit at least three times. 18. The central dryer of claim 1, wherein the web passes into and out of the irradiation unit at least four times. 19. The central dryer of claim 5, wherein the web guiding system is further designed to feed the web into a third application unit and the web, after passing through the third application unit, is fed into the irradiation unit where it is beamed by a third electron beam generator and then led out of the irradiation unit. 20. The method of claim 16, further comprising the steps of feeding the web through the screen into the irradiation unit a third time and thereafter leading the web through the screen back out of the irradiation unit a third time. 21. The method of claim 16, further comprising the steps of applying outside the irradiation unit a third coating to the web; thereafter feeding the web through the screen into the irradiation unit a third time and irradiating the web with electrons and thereafter leading the web through the screen back out of the irradiation unit a third time. 22. The method of claim 21, further comprising the steps of applying outside the irradiation unit a fourth coating to the web; thereafter feeding the web through the screen into the irradiation unit a fourth time and irradiating the web with electrons and thereafter leading the web through the screen back out of the irradiation unit a fourth time. 23. The method of claim 16, further comprising the step of irradiating the first coating with electrons from the second electron beam generator. 24. The method of claim 21, wherein the first coating is irradiated by at least the first electron beam generator, the second coating is irradiated by at least the second electron beam generator, and the third coating is irradiated by at least a third electron beam generator located within the irradiation unit. 25. The method of claim 16, characterized by one or more of the following features:(a) each of the electron beam generators arranged inside the irradiation unit extends over the whole width of the web;(b) the irradiation is executed as a self-contained, separate module; and(c) the web passes into and out of the irradiation unit at least three times. 26. The method of claim 16, wherein at least one of the coatings is applied by an application unit selected from the group consisting of a laminating unit, a lining unit, an adhesive application unit, an ink application unit, a varnish application unit, a powder application unit, a coating unit, an extruder, an extruder with moulding tool. 27. The method of claim 16, wherein at least one of the coatings is selected from the group consisting of an ink coating, a varnish coating, an adhesive coating, a lining foil with adhesive, a laminating coating, a plastic coating, a siliconisation, a finishing coating.