Patent Number: 
Section: claims

1. A non-destructive inspection device, comprising a radiation source unit, a grating group and a radiation ray detector unit, wherein:the radiation source unit is configured to irradiate radiation rays having transmissivity to a subject toward the grating group;the grating group is composed of a plurality of gratings that transmit the radiation rays irradiated toward the grating group;each of the plurality of gratings includes a plurality of grating members arranged at a predetermined period determined for each grating;the radiation ray detector unit is configured to detect the radiation rays diffracted by the plurality of grating members;a radiation ray passage area through which the radiation rays irradiated from the radiation source unit and reaching the radiation ray detector unit pass includes at least first to third partial areas;the first to third partial areas are arranged at positions displaced from each other in a direction intersecting with an irradiation direction of the radiation rays; andwhen a part of the grating group located in a space through which each of the radiation rays to be transmitted through any one of the first to third partial areas passes is called a reference grating partial group and parts of the grating group located in spaces through which the radiation rays to be transmitted through the other ones of the first to third partial areas pass are respectively called first and second grating partial groups, the grating members of some of the gratings included in the reference grating partial group are arranged at the predetermined period in this grating, some of the gratings included in the first grating partial group includes a grating member having a first phase difference with respect to the arrangement at the predetermined period in some of these gratings, and some of the gratings included in the second grating partial group includes a grating member having a second phase difference with respect to the arrangement at the predetermined period in some of these gratings, wherein:each of the first to third partial areas includes a mutually overlapping part and a non-overlapping part;the grating member having the first phase difference and the grating member having the second phase difference are both arranged in the non-overlapping parts; andthe radiation source unit is configured to irradiate the radiation rays to the first to third partial areas at different timings; andwherein:one of the plurality of gratings is a G0 grating which constitutes a micro radiation source array,a part of the G0 grating belonging to the reference grating partial group, a part of the G0 grating belonging to the first grating partial group, and a part of the G0 grating belonging to the second grating partial group are arranged while being spaced apart or adjacent in the direction intersecting with the irradiation direction of the radiation rays, andthe first and second phase differences are set between the part of the G0 grating belonging to the reference grating partial group, the part thereof belonging to the first grating partial group, and the part thereof belonging to the second grating partial group. 2. The non-destructive inspection device according to claim 1, wherein:the radiation ray detector unit is configured to detect the radiation rays transmitted through the reference grating partial group, the radiation rays transmitted through the first grating partial group and the radiation rays transmitted through the second grating partial group. 3. The non-destructive inspection device according to claim 2, further comprising a processing unit, wherein:the processing unit is configured to calculate any one of an absorption image, a refraction image and a scattering image of the subject using detection values of the radiation rays transmitted through the reference grating partial group, detection values of the radiation rays transmitted through the first grating partial group and detection values of the radiation rays transmitted through the second grating partial group. 4. The non-destructive inspection device according to claim 1, further comprising a conveying unit, wherein:the conveying unit is configured to move the subject relative to the grating group in the direction interesting with the irradiation direction of the radiation rays. 5. The non-destructive inspection device according to claim 1, wherein:the grating group is composed of two gratings. 6. The non-destructive inspection device according to claim 1, wherein:the grating group is composed of three gratings. 7. The non-destructive inspection device according to claim 1, wherein:the radiation source unit includes first to third ray sources;the first ray source unit is configured to irradiate the radiation rays transmitted through the first partial area;the second ray source unit is configured to irradiate the radiation rays transmitted through the second partial area; andthe third ray source unit is configured to irradiate the radiation rays transmitted through the third partial area. 8. The non-destructive inspection device according to claim 1, wherein:the first and second phase differences are set at values capable of performing phase imaging using a detection result of the radiation rays transmitted through the reference grating partial group, a detection result of the radiation rays transmitted through the first grating partial group and a detection result of the radiation rays transmitted through the second grating partial group. 9. The non-destructive inspection device according to claim 1, wherein:the radiation rays are X-rays or neutron rays. 10. The non-destructive inspection device according to claim 1, further comprising a driving unit, wherein:the driving unit is configured to move the radiation source unit, the grating group and the radiation ray detector unit as a whole relative to the subject in the direction intersecting with the irradiation direction of the radiation rays. 11. The non-destructive inspection device according to claim 1, wherein:the subject is a living body. 12. A medical image diagnosis device, comprising the non-destructive inspection device according to claim 11 and an image presentation unit, wherein:the image presentation unit is configured to present an absorption image, a refraction image or a scattering image obtained from information of the radiation rays detected by the radiation ray detector unit as an image for diagnosis. 13. A non-destructive inspection method using the non-destructive inspection device according to claim 1, comprising:a step of moving the subject relative to the grating group in the direction intersecting with the irradiation direction of the radiation rays;a step of detecting the radiation rays transmitted through the subject when the subject passes through the reference grating partial group;a step of detecting the radiation rays transmitted through the subject when the subject passes through the first grating partial group; anda step of detecting the radiation rays transmitted through the subject when the subject passes through the second grating partial group. 14. The non-destructive inspection device according to claim 1, wherein:the entire non-destructive inspection device rotatable about a rotation axis that passes through the subject so that the subject moves relative to the non-destructive inspection device.