Radiation imaging system comprising a plurality of radiation imaging devices and a plurality of retainers configured to position and retain the plurality of radiation imaging devices

What is claimed is: 1. A radiation imaging system comprising: a housing containing a plurality of radiation imaging devices, each radiation imaging device including a radiation detecting panel having a two-dimensional matrix of pixels and arranged to convert applied radiation to an image signal; a plurality of retainers configured to position and retain the plurality of radiation imaging devices so that parts of the plurality of radiation imaging devices spatially overlap as viewed from an irradiation side; and a radiographing controller configured to acquire a radiographic image on the basis of image signals from the plurality of radiation imaging devices, wherein the plurality of retainers are configured to retain the plurality of radiation imaging devices in areas other than effective pixel areas of the plurality of radiation imaging devices. 2. The radiation imaging system according to claim 1 , wherein the plurality of retainers are disposed only in areas other than irradiated sides of the effective pixel areas of the plurality of radiation imaging devices. 3. The radiation imaging system according to claim 2 , wherein the plurality of radiation imaging devices include a first radiation imaging device and a second radiation imaging device; of the plurality of retainers, a retainer retaining the second radiation imaging device disposed opposite an irradiated side of the first radiation imaging device is disposed only in an area other than the irradiated side of the effective pixel area of the second radiation imaging device; and of the plurality of retainers, a retainer retaining the first radiation imaging device is disposed only in an area other than the irradiated side of the effective pixel area of the first radiation imaging device and an area other than the irradiated side of the effective pixel area of the second radiation imaging device. 4. The radiation imaging system according to claim 3 , wherein the retainer retaining the second radiation imaging device is disposed opposite the irradiated side of the effective pixel area of the first radiation imaging device. 5. The radiation imaging system according to claim 4 , wherein the plurality of radiation imaging devices include a third radiation imaging device disposed closer to the irradiation side than the second radiation imaging device is; and the plurality of retainers are configured to position and retain the plurality of radiation imaging devices such that the third radiation imaging device is disposed lower than the first radiation imaging device and the second radiation imaging device, and that the first radiation imaging device is disposed higher than the second radiation imaging device. 6. The radiation imaging system according to claim 5 , wherein the first radiation imaging device is retained by a first retainer and a second retainer of the plurality of retainers; the first retainer retains a side portion of the first radiation imaging device in a lateral direction for positioning of the first radiation imaging device in the lateral direction; and the second retainer retains a lower corner of the first radiation imaging device. 7. The radiation imaging system according to claim 6 , wherein the second radiation imaging device is retained by a third retainer, a fourth retainer, and a fifth retainer of the plurality of retainers; the third retainer is disposed only opposite the irradiated side of the effective pixel area of the first radiation imaging device and above the effective pixel area of the second radiation imaging device; the fourth retainer is disposed only opposite the irradiated side of the effective pixel area of the third radiation imaging device and below the effective pixel area of the second radiation imaging device; and the fifth retainer is disposed only outside the effective pixel area of the second radiation imaging device in the lateral direction. 8. The radiation imaging system according to claim 7 , wherein the third radiation imaging device is retained by a sixth retainer and a seventh retainer of the plurality of retainers; the sixth retainer is disposed only outside the effective pixel area of the third radiation imaging device in the lateral direction; and the seventh retainer is disposed only below the effective pixel area of the third radiation imaging device. 9. The radiation imaging system according to claim 5 , wherein the first radiation imaging device and the third radiation imaging device are mounted from the irradiation side, which is the front of the plurality of retainers, into the housing, and the second radiation imaging device is mounted from a side of the plurality of retainers into the housing. 10. The radiation imaging system according to claim 3 , wherein an overlapping order of the plurality of radiation imaging devices from the irradiated side can be changed. 11. The radiation imaging system according to claim 10 , wherein the plurality of retainers are each configured so as to be rotatable in a plane parallel to radiation incidence planes of the plurality of radiation imaging devices. 12. The radiation imaging system according to claim 1 , wherein the housing comprises a grid for eliminating scattered radiation, and the grid has a seam formed by arranging a plurality of smaller grids together in a longitudinal direction, and the seam is positioned to spatially overlap an overlapping portion of two of the plurality of radiation imaging devices. 13. The radiation imaging system according to claim 1 , wherein the housing has an index to make a position of an overlapping portion of two of the plurality of radiation imaging devices externally visible. 14. The radiation imaging system according to claim 1 , wherein the housing has an index to make an effective photographing area externally visible, the effective photographing area corresponding to the effective pixel area of each of the plurality of radiation imaging devices as viewed from a predetermined radiation source. 15. The radiation imaging system according to claim 1 , wherein the housing has a display unit for displaying a state of each of the plurality of radiation imaging devices. 16. The radiation imaging system according to claim 1 , wherein, of the plurality of radiation imaging devices, a first radiation imaging device disposed in front of a second radiation imaging device, as viewed from the irradiation side, includes a radiation shielding member on a back side of the radiation detecting panel; and the radiation shielding member is disposed so as not to spatially overlap the effective pixel area of the second radiation imaging device. 17. The radiation imaging system according to claim 16 , wherein, of the plurality of radiation imaging devices, a third radiation imaging device disposed lower than the first radiation imaging device and the second radiation imaging device and in front of the second radiation imaging device, as viewed from the irradiation side, includes a radiation shielding member on a back side of the radiation detecting panel; and the radiation shielding member is disposed so as not to spatially overlap the effective pixel area of the second radiation imaging device. 18. The radiation imaging system according to claim 16 , wherein the radiation shielding member is disposed in the same area as an effective pixel area of the radiation detecting panel in the first radiation imaging device, or in an area inside the effective pixel area of the radiation detecting panel. 19. A radiation imaging system comprising: a plurality of retain