Patent Number: 
Section: claims

1. A particle beam therapy system for irradiating a charged particle beam to an affected part of the body for treatment, the therapy system comprising:a charged particle beam generator for generating the charged particle beam;irradiation devices installed respectively in a plurality of treatment rooms and irradiating the charged particle beam, each of said irradiation devices including a plurality of detectors for detecting beam information of the charged particle beam;a beam line for selectively transporting the charged particle beam extracted from said charged particle beam generator to the respective irradiation devices in said plurality of treatment rooms, said beam line being controlled to form a beam path for transporting the charged particle beam to the irradiation device in selected one of said plurality of treatment rooms;a single monitoring unit arranged for said irradiation devices for monitoring the beam information of the charged particle beam detected by said detectors;a first selector for switchably connecting said detectors provided in each of said irradiation devices and said monitoring unit; anda first control unit for controlling said first selector such that when said beam path for transporting the charged particle beam to the irradiation device in said selected one of said plurality of treatment rooms is formed, said first selector establishes connection between said detectors provided in the irradiation device in said selected one of said plurality of treatment rooms and said monitoring unit. 2. The particle beam therapy system according to claim 1, further comprising a display unit for displaying the beam state of the charged particle beam in one of said irradiation devices,wherein said first selector switchably selects one of said irradiation devices to be displayed by said display unit. 3. The particle beam therapy system according to claim 1, wherein said monitoring unit determines whether the beam information of the charged particle beam detected by said detectors is within an allowable range. 4. The particle beam therapy system according to claim 3, further comprising a second control unit for controlling said charged particle beam generator to stop extraction of the charged particle beam when said monitoring unit determines that the beam information of the charged particle beam exceeds the allowable range. 5. The particle beam therapy system according to claim 4, further comprising a determining unit for determining whether said first selector has established connection with the irradiation device in the selected one of said plurality of treatment rooms. 6. The particle beam therapy system according to claim 5, further comprising a third control unit for controlling said charged particle beam generator to stop extraction of the charged particle beam when said determining unit determines that said first selector has not established connection with the irradiation device in the selected one of said plurality of treatment rooms. 7. The particle beam therapy system according to claim 6, wherein said irradiation devices are constructed as irradiation devices utilizing the irradiation method. 8. The particle beam therapy system according to claim 7, wherein said irradiation devices are constructed as irradiation devices operating in accordance with passive irradiation. 9. The particle beam therapy system according to claim 8, wherein each of said irradiation devices includes, as said detectors, a profile monitor for measuring the centroid and width of the charged particle beam, an energy monitor for measuring energy of the charged particle beam, a flatness monitor for measuring uniformity of the charged particle beam in a direction perpendicular to the direction of travel of the beam, and a dose monitor for measuring dose, and wherein said monitoring unit determines whether the beam information of the charged particle beam detected by said profile monitor, said energy monitor and said flatness monitor is within an allowable range, and whether the dose of the charged particle beam detected by said dose monitor has reached a preset value. 10. The particle beam therapy system according to claim 7, wherein said irradiation devices are constructed as irradiation devices operating in accordance with scanning irradiation. 11. The particle beam therapy system according to claim 10, wherein each of said irradiation devices includes, as said detectors, a profile monitor for measuring the centroid and width of the charged particle beam, a spot position monitor for measuring the centroid and width of the charged particle beam bent by a bending magnet, and a dose monitor for measuring dose, and wherein said monitoring unit determines whether the beam information of the charged particle beam detected by said profile monitor and said spot position monitor is within an allowable range, and whether the dose of the charged particle beam detected by said dose monitor has reached a preset value. 12. The particle beam therapy system according to claim 6, wherein said irradiation devices include irradiation devices utilizing at least two kinds of different irradiation methods. 13. The particle beam therapy system according to claim 12, wherein said irradiation devices are made up of irradiation devices operating in accordance with passive irradiation and scanning irradiation. 14. The particle beam therapy system according to claim 13, wherein each of said irradiation devices includes, as said detectors, a profile monitor for measuring the centroid and width of the charged particle beam and a dose monitor for measuring dose, and wherein said monitoring unit determines whether the beam information of the charged particle beam detected by said profile monitor is within an allowable range, and whether the dose of the charged particle beam detected by said dose monitor has reached a preset value. 15. A particle beam therapy system for irradiating a charged particle beam to an affected part of the body for treatment, the therapy system comprising:a charged particle beam generator for generating the charged particle beam;irradiation devices installed respectively in a plurality of treatment rooms and irradiating the charged particle beam in a scanning manner, each of said irradiation devices including scanning magnets;a beam line for selectively transporting the charged particle beam extracted from said charged particle beam generator to the respective irradiation devices in said plurality of treatment rooms, said beam line being controlled to form a beam path for transporting the charged particle beam to the irradiation device in selected one of said plurality of treatment rooms;a single scan control unit arranged for said irradiation devices for controlling a scanning of the charged particle;a selector for switchably connecting said scanning magnets provided in each of said irradiation devices and said scan control unit; anda control unit for controlling said selector such that when said beam path for transporting the charged particle beam to the irradiation device in said selected one of said plurality of treatment rooms is formed, said selector establishes connection between said scanning magnets provided in the irradiation device in the selected one of said plurality of treatment rooms and said scan control unit. 16. The particle beam therapy system according to claim 15, wherein said scan control unit controls a current value of said scanning magnet for scanning the charged particle beam. 17. A control system for a particle beam therapy system having irradiation devices installed respectively in a plurality of treatment rooms for irradiating a charged particle beam, each of said irradiation devices including a plurality of detectors for detecting beam information of the charged particle beam and beam line for selectively transporting the charged particle beam to the respective irradiation devices in said plurality of treatment rooms, the control system comprising:a beam line control unit for controlling said beam line such that a beam path for transporting the charged particle beam to the irradiation device in selected one of said plurality of treatment rooms is formed;a single monitoring unit arranged for said irradiation devices for monitoring the beam information of the charged particle beam detected by said detectors;a selector for switchably connecting said detectors provided in each of said irradiation devices and said monitoring unit; anda control unit for controlling said selector such that when said beam path for transporting the charged particle beam to the irradiation device in said selected one of said plurality of treatment rooms is formed, said selector establishes connection between said detectors provided in the irradiation device in the selected one of said plurality of treatment rooms and said monitoring unit. 18. The control system for the particle beam therapy system according to claim 17, wherein said monitoring unit determines whether the beam information of the charged particle beam detected by said detectors is within an allowable range. 19. A control system for a particle beam therapy system having irradiation devices installed respectively in a plurality of treatment rooms for irradiating a charged particle beam in scanning manner, each of said irradiation devices including scanning magnets and a beam line for selectively transporting the charged particle beam to the respective irradiation devices in said plurality of treatment rooms, the control system comprising:a beam line control unit for controlling said beam line such that a beam path for transporting the charged particle beam to the irradiation device in selected one of said plurality of treatment rooms is formed;a single scan control unit arranged for said irradiation devices for controlling a scanning of the charged particle beam;a selector for switchably connecting said scanning magnets provided in each of said irradiation devices and said scan control unit; anda control unit for controlling said selector such that when said beam path for transporting the charged particle beam to the irradiation device in said selected one of said plurality of treatment rooms is formed, said selector establishes connection between said scanning magnets provided in the irradiation device in the selected one of said plurality of treatment rooms and said scan control unit. 20. The particle beam therapy system according to claim 1, wherein said beam line includes switching magnets provided correspondingly to said irradiation devices; and said particle beam therapy system further comprises a fourth control unit for exiting the switching magnet corresponding to the irradiation device in said selected one of said plurality of treatment rooms by switching a power supply for said switching magnet so as to form said beam path for transporting the charged particle beam to the irradiation device in said selected one of said plurality of treatment rooms and then deliver a first signal when the formation of said beam path is completed; and said first control unit delivers a second signal to said first selector based on said first signal delivered by said fourth control unit thereby to control said first selector such that said first selector establishes connection between said detectors provided in the irradiation device in said selected one of said plurality of treatment rooms and said monitoring unit.