Patent Number: 
Section: claims

1. An electron beam irradiation apparatus comprising an electron beam system for directing electrons into an irradiation zone, the electron beam system and the irradiation zone being configured for irradiating outwardly exposed surfaces of a 3-dimensional article passing through the irradiation zone from different directions with electrons from the electron beam system, the electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons; and an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 2. The apparatus of  claim 1  in which the adjustment system is capable of moving the electron beam emitters towards or away from the irradiation zone. claim 1 3. The apparatus of  claim 2  in which the adjustment system is capable of rotating the electron beam emitters about the irradiation zone. claim 2 4. The apparatus of  claim 3  in which the adjustment system includes an adjustable rotating mechanism capable of rotating the electron beam emitters about the irradiation zone. claim 3 5. The apparatus of  claim 3  in which the electron beam system comprises four electron beam emitters. claim 3 6. The apparatus of  claim 5  in which the electron beam emitters are positioned in first and second opposed pairs. claim 5 7. The apparatus of  claim 6  in which the second opposed pair is downstream from the first opposed pair. claim 6 8. The apparatus of  claim 2  in which the adjustment system includes an adjustable linear mechanism capable of moving the electron beam emitters towards or away from the irradiation zone. claim 2 9. The apparatus of  claim 1  further comprising a conveyance system for conveying the article through the irradiation zone, the conveyance system being configured to allow the article to be irradiated with electrons on the outwardly exposed surfaces. claim 1 10. The apparatus of  claim 9  in which the article is a continuous profile, the conveyance system including at least one roller positioned beyond the irradiation zone for conveying the profile through the irradiation zone. claim 9 11. The apparatus of  claim 1  in which the apparatus cures coatings on said surfaces of the article. claim 1 12. The apparatus of  claim 1  in which the apparatus sterilizes said surfaces of the article. claim 1 13. The apparatus of  claim 1  in which the apparatus provides surface modification of said surfaces of the article. claim 1 14. The apparatus of  claim 1  in which the electron beam system provides electrons from opposing directions. claim 1 15. The apparatus of  claim 14  in which the electron beam system comprises two opposed electron beam emitters separated from each other by a gap. claim 14 16. The apparatus of  claim 15  in which the conveyance system comprises two conveyor belts for conveying the article between the opposed electron beam emitters through the gap therebetween, the conveyor belts being spaced apart from each other in tho region of the gap so that the article passing between the electron beam emitters can be frilly irradiated by the electrons. claim 15 17. An electron beam irradiation apparatus for curing coatings on a continuously moving 3-dimensional profile comprising: an electron beam system for directing electrons into an irradiation zone, the electron beam system and the irradiation zone being configured for irradiating outwardly exposed surfaces of the profile passing through the irradiation zone with electrons from the electron beam system for curing coatings thereon, the electron beam system including multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons each from a different direction; and  an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 18. An electron beam irradiation apparatus for sterilizing a 3-dimensional article comprising an electron beam system for directing electrons into an irradiation zone, the electron beam system and the irradiation zone being configured for irradiating outwardly exposed surfaces of the 3-dimensional article passing through the irradiation zone from different directions with electrons from the electron beam system to sterilize said surfaces, the electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons; and an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 19. An electron beam irradiation apparatus comprising: an electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters for directing electrons into an irradiation zone, the electron beam system and the irradiation zone being configured for irradiating an article passing through the irradiation zone with electrons from the electron beam system; and  an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 20. The apparatus of  claim 19  in which the adjustment system is capable of moving the electron beam emitters towards or away from the irradiation zone. claim 19 21. The apparatus of  claim 20  in which the adjustment system is capable of rotating the electron beam emitters about the irradiation zone. claim 20 22. A method of forming an electron beam apparatus comprising: providing an electron beam system for directing electrons into an irradiation zone;  configuring the electron beam system and the irradiation zone for irradiating outwardly exposed surfaces of a 3-dimensional article passing through the irradiation zone from different directions with electrons from the electron beam system, the electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons; and  providing an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 23. The method of  claim 22  further comprising providing the adjustment system with the capability of moving the electron beam emitters towards or away from the irradiation zone. claim 22 24. The method of  claim 23  further comprising providing the adjustment system with the capability of rotating the electron beam emitters about the irradiation zone. claim 23 25. The method of  claim 24  further comprising providing the adjustment system with an adjustable rotating mechanism capable of rotating the electron beam emitters about the irradiation zone. claim 24 26. The method of  claim 23  further comprising providing the adjustment system with cm adjustable linear mechanism capable of moving the electron beam emitters towards or away from the irradiation zone. claim 23 27. The method of  claim 23  further comprising providing the electron beam system with four electron beam emitters. claim 23 28. The method of  claim 27  further comprising positioning the electron beam emitters in first and second opposed pairs. claim 27 29. The method of  claim 28  further comprising positioning the second opposed pair downstream from the first opposed pair. claim 28 30. The method of  claim 22  further comprising providing a conveyance system for conveying the article through the irradiation zone, the conveyance system being configured to allow the article to be irradiated with electrons on the outwardly exposed surfaces. claim 22 31. The method of  claim 30  in which the article is a continuous profile, the method further comprising providing the conveyance system with at least one roller positioned beyond the irradiation zone for conveying the profile through the irradiation zone. claim 30 32. The method of  claim 22  further comprising configuring the apparatus for curing coatings on said surfaces of the article. claim 22 33. The method of  claim 22  further comprising configuring the apparatus for sterilizing said surfaces of the article. claim 22 34. The method of  claim 22  further comprising configuring the apparatus for providing surface modification of said surfaces of the article. claim 22 35. The method of  claim 22  further comprising providing electrons from opposing directions. claim 22 36. The method of  claim 35  further providing the electron beam system with two opposed electron beam emitters separated from each other by a gap. claim 35 37. The method of  claim 36  further comprising providing the conveyance system with the two conveyor belts for conveying the article between the opposed electron beam emitters through the gap therebetween, the conveyor belts being spaced apart from each other in the region of the gap so that the article passing between the electron beam emitters can be fully irradiated by the electrons. claim 36 38. A method of forming an electron beam apparatus comprising: providing an electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters for directing electrons into an irradiation zone;  configuring the electron beam system and the irradiation zone for irradiating an article passing through the irradiation zone with electrons from the electron beam system and  providing an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 39. The method of  claim 38  further comprising providing the adjustment system with the capability of moving the electron beam emitters towards or away from the irradiation zone. claim 38 40. The method of  claim 39  further comprising providing the adjustment system with the capability of rotating the electron beam emitters about the irradiation zone. claim 39 41. A method of curing coatings on a continuously moving 3-dimensional profile comprising: directing electrons from an electron beam system into an irradiation zone;  passing the profile through the irradiation zone, the electron beam system and the irradiation zone being configured for irradiating outwardly exposed surfaces of the profile with electrons from the electron beam system for curing coatings thereon, the electron beam system including multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons each from a different direction; and  moving the electron beam emitters for positioning the electron beam emitters in the proper position relative to the article with an adjustment system. 42. A method of sterilizing a moving 3-dimensional article comprising: directing electrons from an electron beam system into an irradiation zone;  passing the 3-dimensional article through the irradiation zone, the electron beam system and the irradiation zone being configured for irradiating outwardly exposed surfaces of the 3-dimensional article from different directions with electrons from the electron beam system to sterilize said surfaces, the electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons; and  providing an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 43. A method of irradiating an article comprising: directing electrons from an electron beam system into an irradiation zone, the electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters;  introducing the article into the irradiation zone, the electron beam system and the irradiation zone being configured for irradiating the article with electrons from the electron beam system; and  moving the electron beam emitters for positioning the electron beam emitters in the proper position relative to the article with an adjustment system. 44. A method of irradiating a moving 3-dimensional article comprising: directing electrons from an electron beam system into an irradiation zone; and  passing the 3-dimensional article through the irradiation zones the electron beam system and the irradiation zone being configured for irradiating outwardly exposed surfaces of the 3-dimensional article from different directions with electrons from the electron beam system, the electron beam system comprising multiple electron beam emitters having at least one opposed pair of electron beam emitters which are positioned to irradiate the irradiation zone with electrons; and  providing an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 45. An electron beam irradiation apparatus comprising: an electron beam system comprising a plurality of electron beam emitters generally surrounding an irradiation zone for directing electrons into the irradiation zone, the electron beam system and the irradiation zone being configured for irradiating an article passing through the irradiation zone with electrons from the electron beam system; and  an adjustment system capable of moving the electron beam emitters for changing the position of the electron beam emitters relative to the article. 46. The apparatus of  claim 45  in which the electron beam system includes three electron beam emitters positioned around the irradiation zone. claim 45