Patent Number: 
Section: claims

1. A radiographic apparatus for obtaining a radiological image, comprising:a radiation source for emitting radiation;a radiation detector for detecting the radiation from the radiation source;a radiation grid disposed adjacent to a detecting plane of the radiation detector, and having an arrangement of grid foil strips for absorbing scattered radiation; anda processor configured to:in a location where foil shadows by the arrangement of grid foil strips straddle pixels, identify the location based on a mutual geometric positional relationship of the radiation source, the radiation detector and the radiation grid, and calculate a straddle accumulated value of the foil shadows in the identified location, the pixels corresponding respectively to positions of detecting elements in the radiation detector;obtain an actual radiological image based on radiation detection signals from the radiation detector, the radiation detection signals being obtained in the presence of an inspection object between the radiation source and the radiation detector;calculate a bending constant which is a constant relating to bending of the arrangement of grid foil strips in the location where the foil shadows by the arrangement of grid foil strips straddle the pixels; andremove from the actual radiological image the foil shadows by the arrangement of grid foil strips based on the straddle accumulated value and the bending constant. 2. The radiographic apparatus according to claim 1, wherein the processor is further configured to:calculate a twisting constant which is a constant relating to twisting of the arrangement of grid foil strips; andremove from the corrected actual radiological image the foil shadows by the arrangement of grid foil strips based on the straddle accumulated value, the bending constant, and the twisting constant. 3. The radiographic apparatus according to claim 1, wherein the processor is further configured to multiply the straddle accumulated value of reference correction data based on X-ray detection signals detected in the absence of the inspection object by a predetermined multiplying factor based on width and pixel size of the foil shadows. 4. A radiographic apparatus for obtaining a radiological image, comprising:a radiation source for emitting radiation;a radiation detector for detecting the radiation from the radiation source emitted;a radiation grid disposed adjacent to a detecting plane of the radiation detector, and having an arrangement of grid foil strips for absorbing scattered radiation;a processor configured to:in a location where foil shadows by the arrangement of grid foil strips straddle pixels, identify the location based on a mutual geometric positional relationship of the radiation source, the radiation detector and the radiation grid, and calculate a straddle accumulated value of the foil shadows in the identified location, the pixels corresponding respectively to positions of detecting elements in the radiation detector;obtain an actual radiological image based on radiation detection signals from the radiation detector, the radiation detection signals being obtained in the presence of an inspection object between the radiation source and the radiation detector; andcalculate a twisting constant which is a constant relating to twisting of the arrangement of grid foil strips in the location where the foil shadows by the arrangement of grid foil strips straddle the pixels,remove from the actual radiological image the foil shadows by the arrangement of grid foil strips based on the straddle accumulated value and the twisting constant. 5. The radiographic apparatus according to claim 4, wherein the processor is further configured to multiply the straddle accumulated value of reference correction data based on X-ray detection signals detected in the absence of the inspection object by a predetermined multiplying factor based on width and pixel size of the foil shadows.