There are provided a leaf row (5C) in which a plurality of leaf plates (5L) are arranged in the thickness direction of the row (5C) in such a way that respective end faces (EL) of the leaf plates (5L) are trued up, and a leaf plate drive mechanism (5D) that drives each of the plurality of leaf plate
There are provided a leaf row (5C) in which a plurality of leaf plates (5L) are arranged in the thickness direction of the row (5C) in such a way that respective end faces (EL) of the leaf plates (5L) are trued up, and a leaf plate drive mechanism (5D) that drives each of the plurality of leaf plates (5L) in such a way that the end face (EL) approaches or departs from a beam axis (XB). In each of the leaf plates (5L), a facing side (PL) facing a leaf plate that is adjacent to that leaf plate in the thickness direction is formed of a plane (Psa) including a first axis (Asa) on the beam axis (XB); the leaf plate drive mechanism (5D) drives the leaf plate (5L) along a circumferential orbit (OL) around the second axis (Asb), on the beam axis (XB), that is perpendicular to the beam axis (XB) and the first axis (Asa).
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1. A multi-leaf collimator that is disposed in a particle beam that is irradiated so as to enlarge an irradiation field of the particle beam, in order to conform the irradiation field to an irradiation subject, the multi-leaf collimator comprising: a leaf row in which a plurality of leaf plates are
1. A multi-leaf collimator that is disposed in a particle beam that is irradiated so as to enlarge an irradiation field of the particle beam, in order to conform the irradiation field to an irradiation subject, the multi-leaf collimator comprising: a leaf row in which a plurality of leaf plates are arranged in the thickness direction thereof in such a way that respective one end faces of the leaf plates are trued up; anda leaf plate drive mechanism that drives each of the plurality of leaf plates in such a way that the one end face approaches or departs from a beam axis of the particle beam,wherein in each of the leaf plates, a facing side facing a leaf plate that is adjacent to that leaf plate in the thickness direction is formed of a plane including a first axis that is perpendicular to the beam axis and is set at a first position on the beam axis; andwherein the leaf plate drive mechanism drives the leaf plate along a circumferential orbit around a second axis that is perpendicular to the beam axis and the first axis and is set at a second position that is on the beam axis and separate from the first position by a predetermined distance wherein the first axis coincides with a scanning axis of one of two electromagnets, and wherein the second axis coincides with a scanning axis of the other of two electromagnets. 2. The multi-leaf collimator according to claim 1, wherein each of the leaf plates has four end faces, and an incident-side end face and an emitting-side end face, among the four end faces, which are adjacent to the one end face are formed in the shape of an arc whose center is the second axis. 3. A particle beam therapy system comprising: an irradiation nozzle that scans a particle beam supplied from an accelerator, by use of two electromagnets whose scanning directions are different from each other, and that irradiates the particle beam in such a way as to enlarge an irradiation field; anda multi-leaf collimator according to claim 1, disposed in a particle beam irradiated from the irradiation nozzle. 4. A particle beam therapy system comprising: an irradiation nozzle that scans a particle beam supplied from an accelerator, by use of two electromagnets whose scanning directions are different from each other, and that irradiates the particle beam in such a way as to enlarge an irradiation field; anda multi-leaf collimator according to claim 2, disposed in a particle beam irradiated from the irradiation nozzle. 5. The particle beam therapy system according to claim 3, wherein the irradiation nozzle enlarges the irradiation field through a spiral wobbling method. 6. The particle beam therapy system according to claim 4, wherein the irradiation nozzle enlarges the irradiation field through a spiral wobbling method. 7. The particle beam therapy system according to claim 3, wherein the irradiation nozzle enlarges the irradiation field through a scanning method. 8. The particle beam therapy system according to claim 4, wherein the irradiation nozzle enlarges the irradiation field through a scanning method. 9. The particle beam therapy system according to claim 3, wherein scanning for one direction out of the two directions is performed by a deflection electromagnet that deflects the direction of a beam axis, and the beam axis on which the first position and the second position are set is the beam axis of a beam that enters the multi-leaf collimator. 10. The particle beam therapy system according to claim 4, wherein scanning for one direction out of the two directions is performed by a deflection electromagnet that deflects the direction of a beam axis, and the beam axis on which the first position and the second position are set is the beam axis of a beam that enters the multi-leaf collimator. 11. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 3, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 12. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 4, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 13. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 5, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 14. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 6, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 15. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 7, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 16. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 8, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 17. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 9, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis. 18. A treatment planning apparatus comprising: a three-dimensional data generation unit for generating three-dimensional data from image data on an irradiation subject;an irradiation condition setting unit that sets an irradiation condition, based on the generated three-dimensional data; anda control data generation unit that generates control data for controlling leaf driving for the multi-leaf collimator in the particle beam therapy system according to claim 10, based on the set irradiation condition, wherein the three-dimensional data generation unit generates the three-dimensional data by utilizing at least a beam deflection angle with respect to the first axis and a beam deflection angle with respect to the second axis.
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