Patent Number: 
Section: claims

1. Apparatus for irradiating articles in sequence to sterilize the articles, including an accelerator for providing radiation in a particular direction,  a first conveyor system for moving the articles in sequence past the accelerator for irradiating the articles with the radiation from the accelerator,  a second conveyor system for receiving the articles in sequence from the first conveyor system after the irradiation of the articles with the radiation from the accelerator and for moving the articles in sequence past the accelerator and for irradiating the articles with the radiation passing from the accelerator, during the movement of the articles on the second conveyor system, through the articles on the first conveyor system to obtain further radiation of the articles. 2. Apparatus as set forth in  claim 1  wherein claim 1 the accelerator provides x-ray radiation to the articles on the first and second conveyor systems. 3. Apparatus as set forth in  claim 1  wherein claim 1 the first and second conveyor systems are operative to produce a movement of the articles on the second conveyor system past the radiation passing through the articles on the first conveyor system from the accelerator in synchronism with the movement of the articles on the first conveyor system past the radiation from the accelerator. 4. Apparatus as set forth in  claim 1 , including claim 1 a loading area disposed in displaced relationship to the first and second conveyor systems and constructed to hold the articles and transfer the articles in sequence from the loading area to the first conveyor system, and  an unloading area disposed in displaced relationship to the first and second conveyor systems and constructed to hold the articles and transfer the articles in sequence from the second conveyor system to the unloading area. 5. Apparatus as set forth in  claim 1  wherein claim 1 each of the articles has first and second opposite sides and wherein  the first conveyor system is constructed to move each of the articles first and second times past the radiation from the accelerator and to obtain an irradiation of the first side of the article in the first movement of the article past the radiation from the accelerator and to obtain an irradiation of the second side of the article in the second movement of the article past the radiation from the accelerator and wherein  the second conveyor system is constructed to move each of the articles first and second times past the radiation from the accelerator and to obtain an irradiation or the first side of the article in the first movement of the article past the radiation from the accelerator and to obtain an irradiation of the second side of the article in the second movement of the article past the radiation from the accelerator. 6. Apparatus as set forth in  claim 3  wherein claim 3 a loading area is disposed in displaced relationship to the first and second conveyor systems and is constructed to hold the articles and transfer the articles in sequence from the loading area to the first conveyor system and wherein  an unloading area is disposed in displaced relationship to the first and second conveyor systems and is constructed to hold the articles and transfer the articles in sequence from the second conveyor system to the unloading area and wherein  each of the articles has first and second opposite sides and wherein  the first conveyor system is constructed to move each of the articles first and second times past the radiation from the accelerator and to obtain an irradiation of the first side of the article in the first movement of the article past the radiation from the accelerator and to obtain an irradiation of the second side of the article in the second movement of the article past the radiation from the accelerator and wherein  the second conveyor system is constructed to move each of the articles first and second times past the radiation from the accelerator and to obtain an irradiation or the first side of the article in the first movement of the article past the radiation from the accelerator and to obtain an irradiation of the second side of the article in the second movement of the article past the radiation from the accelerator. 7. Apparatus as set forth in  6  wherein the accelerator provides x-ray radiation to the articles on the first and second conveyor systems. 8. Apparatus for irradiating articles in sequence to sterilize the articles, including an accelerator for providing a radiation beam in a particular direction,  first support structure for disposing articles relative to the accelerator in the particular direction to obtain an irradiation of the articles by the accelerator,  second support structure for disposing articles in the particular direction relative to the accelerator and the articles on the first support structure to obtain an irradiation of the articles by radiation passing in the particular direction from the accelerator through the articles on the first structure, and  a transfer mechanism for transferring the articles on the first structure to the second structure after the irradiation of the articles on the first structure by radiation in the particular direction from the accelerator to obtain the irradiation of the articles on the second structure by the radiation passing in the particular direction from the accelerator through the articles on the first support structure. 9. Apparatus as set forth in  claim 8 , including claim 8 a loading area for transferring articles to the first support structure to obtain an irradiation of the articles in the particular direction by the radiation from the accelerator, and  an unloading area for providing for a transfer of articles from the second support structure after the irradiation of the articles in the particular direction on the second support structure. 10. Apparatus as set forth in  claim 8  wherein claim 8 the radiation in the particular direction to the articles on from the first support structure is in the form of a beam and wherein  the first support structure positions the articles in the first support structure to receive the radiation beam in the particular direction from the accelerator and wherein  the second support structure positions the articles on the second support structure to receive the radiation beam passing in the particular direction through the articles on the first support structure from the accelerator. 11. Apparatus as set forth in  claim 8  wherein claim 8 each of the articles has first and second opposite sides and wherein  the first support structure provides for the passage of the radiation in the particular direction from the accelerator through the first and second opposite sides of the articles on the first support structure and wherein  the second support structure provides for the passage, in the particular direction through the first and second opposite sides of each of the articles on the second support structure, of the radiation passing in the particular direction through the accelerator and the articles on the first support structure. 12. Apparatus as set forth in  claim 9  wherein claim 9 the radiation from the first support structure is in the form of a beam and wherein  the first support structure positions the articles in the first support structure to receive the radiation beam in the particular direction from the accelerator and wherein  the second support structure positions the articles on the second support structure to receive the radiation beam passing in the particular direction through the articles on the first structure from the accelerator and wherein  each of the articles has first and second opposite sides and wherein  the first support structure provides for the passage of the radiation in the particular direction from the accelerator through the first and second opposite sides of the articles on the first support structure and wherein  the second support structure provides for the passage, in the particular direction through the first and second opposite sides of the articles on the second support structure, of the radiation passing in the particular direction through the accelerator and the articles on the first support structure. 13. Apparatus as set forth in  claim 12  wherein claim 12 the radiation is in the form of a beam of x-rays. 14. Apparatus as set forth in  claim 8  wherein claim 8 each of the articles has first and second opposite sides and wherein  the first support structure provides for an irradiation of each of the articles on the first support structure in the particular direction from the accelerator initially through the side of the article and subsequently through the second side of the and wherein  the second support structure provides for an irradiation of each of the articles in the particular direction on the second support structure initially through the first side of the article, and subsequently through the second side of the article on the first support structure. 15. Apparatus as set forth in  claim 14  wherein claim 14 the first and second support structures provide for the radiation from the accelerator to pass in the particular direction initially through the first sides of the articles respectively on the first and second support structures and subsequently through the second sides of the articles respectively on the first and second support structures and wherein  the transfer mechanism provides for the transfer of the articles from the second support structure, and from the first support structure to the second support structure after the irradiation of the second sides of the articles on the first and second support structures. 16. Apparatus as set forth in  claim 15 , including, claim 15 a loading area for transferring articles to the first support structure to obtain an irradiation of the articles in the particular direction by the radiation from the accelerator, and  an unloading area for providing for a transfer of articles from the second structure after the irradiation of the first and second sides of the articles in the particular direction on the second support structure. 17. Apparatus as set forth in  claim 16  wherein claim 16 the radiation of the beam from the accelerator is in the form of x-rays. 18. A method of irradiating articles to sterilize the articles, including the steps of: providing a beam of radiation,  disposing first articles to become irradiated by the radiation beam,  disposing second articles to become irradiated by the radiation beam after the passage of the radiation from the beam through the first articles, and  providing for the first articles to become the second articles after the irradiation of the first articles with the beam of radiation. 19. A method as set forth in  claim 18 , including the steps of: claim 18 providing for additional articles to become the first articles in substitution for the first articles becoming the second articles. 20. A method as set forth in  claim 18 , including the step of: claim 18 providing for the second articles to become transferred from the position of irradiation by the passing of the beam of radiation through the first articles, and to be replaced by the first articles after the irradiation of the second articles with the beam of radiation passing through the first articles. 21. A method as set forth in  claim 18  wherein claim 18 the radiation from the beam constitutes x-rays. 22. A method as set forth in  claim 18  wherein claim 18 articles are transferred in sequence from a loading area to become the first articles and wherein  the first articles are transferred in sequence to become the second articles after the first articles have been irradiated with the beam of radiation and wherein  the second articles are transferred in sequence to an unloading area after they have been irradiated with the beam of radiation passing through the first articles. 23. A method as set forth in  claim 22  wherein claim 22 the transfer of articles in sequence from the loading area to become the first articles, the transfer of the first articles in sequence to become the second articles and the transfer of the second articles in sequence to the unloading area are synchronized. 24. A method as set forth in  claim 23  wherein claim 23 the synchronization provides for the first articles and the second articles to be aligned with the beam of radiation to obtain an irradiation of the first articles with the radiation of the beam and simultaneously to obtain the irradiation of the second articles with the radiation of the beam passing through the first articles. 25. A method of irradiating articles in sequence to sterilize the articles, including the steps of: providing an accelerator for producing radiation,  providing a first conveyor system for moving the articles in a first loop past the accelerator to obtain an irradiation of the articles with the radiation from the accelerator,  providing a second conveyor system for moving the articles in a second loop past the accelerator to obtain an irradiation of the articles with the radiation from the accelerator,  providing a disposition of the first and second conveyor systems relative to the accelerator to provide for the passage of the radiation from the accelerator through the articles on the first conveyor system and the articles on the second conveyor system, and  transferring successive ones of the articles on the first conveyor system at each instant to the second conveyor system for the irradiation at that instant of the successive ones of the articles on the second conveyor system, after the previous irradiation of such successive ones of the articles on the first conveyor system, with the radiation passing from the accelerator at that instant through the articles on the first conveyor system. 26. A method as set forth in  claim 25 , including the steps of claim 25 transferring successive ones of the articles in a loading area to the first conveyor system for the irradiation of the articles by the radiation from the accelerator, and  transferring successive ones of the articles on the second conveyor system to an unloading area after the irradiation of the articles by the radiation passing through the articles on the first conveyor system from the accelerator. 27. A method as set forth in  claim 25 , including the step of: claim 25 synchronizing the movements of the articles on the first conveyor system past the radiation from the accelerator with the movement of the articles on the second conveyor system past the radiation passing through the articles on the first conveyor system from the accelerator. 28. A method as set forth in  claim 27 , including the step of: claim 27 synchronizing the transfer of the successive ones of the articles in the loading area to the first conveyor system and the transfer of the successive ones of the articles on the successive conveyor to the unloading area. 29. A method as set forth in  claim 25  wherein claim 25 the first conveyor system defines a first closed loop and wherein  the first conveyor system provides first and second movements of the articles on the first conveyor system in the first closed loop past the radiation from the accelerator and provides for a rotation of the articles on the first conveyor system through an angle of substantially 180xc2x0 between the first and second movements of the articles on the first conveyor system past the radiation from the accelerator and wherein  the second conveyor system provides first and second movements of the articles in the first conveyor system past the radiation passing through the articles on the first conveyor system from the accelerator and provides for a rotation of the articles on the second conveyor system through an angle of substantially 180xc2x0 between the first and second movements of the articles on the second conveyor system past the radiation from the source. 30. A method as set forth in  claim 29  wherein claim 29 successive ones of the articles in a loading area are transferred to the first conveyor system when the successive ones of the articles on the first conveyor system are transferred to the second conveyor system and wherein  successive ones of the articles on the second conveyor system are transferred to an unloading area when successive ones of the articles on the first conveyor system are transferred to the second conveyor system. 31. A method as set forth in  claim 30  wherein claim 30 the first movement of the articles on the first conveyor system past the radiation from the accelerator is synchronized with the first movement of the articles on the second conveyor system past the radiation passing through the articles on the first conveyor system from the accelerator and wherein  the second movement of the articles on the first conveyor system past the radiation from the accelerator is synchronized with the second movement of the articles on the second conveyor system past the radiation passing through the articles on the first conveyor system past the accelerator. 32. A method as set forth in  claim 31  wherein claim 31 the first sides of the articles are irradiated during the first movement of the articles past the radiation from the source and wherein  the second sides of the articles are irradiated during the second movements of the articles past the radiation from the source. 33. A method of irradiating articles with an x-ray beam providing a first path for the irradiation of articles,  disposing a second path for the irradiation of the article,  providing x-rays for the irradiation of the articles in the first and second path,  disposing the first and second paths relative to the x-rays to provide for the passages of the x-rays through the articles in the first and second paths, and  providing a transfer of the articles in the first path to the second path after the irradiation of the articles in the first path. 34. A method as set forth in  claim 33  wherein claim 33 the movement of the articles in the first path to the position for irradiation by the x-rays of the articles in the first path is synchronized with the movement of the articles in the sum path to the position for irradiation of the articles in the second path. 35. A method as set forth in  claim 33  wherein claim 33 each of the articles in the first path is irradiated twice by the x-rays, once on a first side of the articles and the other time on a second side of the articles, and wherein  each of the articles in the second path is irradiated twice by the x-rays, once on a first side of the articles and the other time on a second side of the articles. 36. A method as set forth in  claim 35  wherein claim 35 the irradiation of the first sides of the articles in the first and second paths by the x-rays and synchronized and wherein  the irradiation of the second sides of the articles in the first and second paths is synchronized. 37. A method as set forth in  claim 36  wherein claim 36 the x-rays are disposed relative to the articles in the first and second paths to pass initially through the articles in the first path and then through the articles in the second paths. 38. A method as set forth in  claim 36  wherein claim 36 the articles in the first path are rotated through an angle of 180xc2x0 between the first and second irradiations of the articles in the first path,  the articles in the first path are transferred to the second path after the second irradiation of the articles in the first path and wherein  the articles in the second path are related through an angle of 180xc2x0 between the first and second irradiations of the articles in the second path.