Patent Number: 
Section: claims

1. A radiographic imaging apparatus comprising:a control unit housing a control section and a power source section;a panel unit housing a radiation detection panel;a connection member that rotatably connects one edge portion of each of the control unit and the panel unit so as to adopt two states: a closed state in which one face of the control unit faces one face of the panel unit, and an open state in which the one face of the control unit and the one face of the panel unit are side-by-side facing in substantially the same direction, wherein in the open state the other face of the panel unit is positioned higher than the other face of the control unit; anda support member positioned below the other face of the panel unit and supporting the panel unit when in the open state. 2. The radiographic imaging apparatus of claim 1, wherein the support member is configured so as to be attachable to and detachable from the panel unit. 3. The radiographic imaging apparatus of claim 1, wherein in the open state, the one face of the control unit that faces the panel unit in the closed state and the one face of the panel unit are at substantially the same height. 4. The radiographic imaging apparatus of claim 1, wherein the support member is a member comprising a grid that removes scattered rays of radiation due to an imaging subject during image capture. 5. The radiographic imaging apparatus of claim 1, wherein the support member is a member comprising metal that prevents back scattering during image capture. 6. The radiographic imaging apparatus of claim 1, wherein the support member is a member comprising a battery. 7. The radiographic imaging apparatus of claim 1, wherein the support member is a handle provided at a peripheral edge portion of the panel unit. 8. The radiographic imaging apparatus of claim 1, wherein the radiation detection panel is capable of detecting radiation from both a front face and a back face. 9. The radiographic imaging apparatus of claim 8, further comprising a detection component for detecting whether the control unit and the panel unit are in the closed state or the open state, wherein the control section controls such that still image capture is performed in cases in which the closed state has been detected by the detection component, and controls such that video image capture is performed in cases in which the open state has been detected. 10. The radiographic imaging apparatus of claim 1, wherein the control unit comprises, on the one face, an operation section, a display section, or a combination thereof. 11. The radiographic imaging apparatus of claim 1, wherein the support member is displaceably configured so as to be inset to the control unit when in the closed state, and to be positioned below the other face of the panel unit when in the open state. 12. The radiographic imaging apparatus of claim 1, wherein the radiation detection panel comprises a substrate formed with switch elements and layered with a charge generation layer that generates charge by irradiation with radiation, the switch elements being configured to accumulate charge generated by the charge generation layer and read out the charge, with the radiation detection panel installed in the panel unit such that the charge generation layer is on the one face side of the panel unit. 13. The radiographic imaging apparatus of claim 1, wherein an amplification circuit for amplifying an electrical signal output from a radiation detection panel, an A/D converter for converting the electrical signal amplified by the amplification circuit to digital image data, or a combination thereof, is provided inside the connection member. 14. The radiographic imaging apparatus of claim 1, wherein the control unit further comprises a communication section that performs communication with an external device. 15. The radiographic imaging apparatus of claim 14, wherein the communication section is a wireless communication section that performs wireless communication with the external device. 16. The radiographic imaging apparatus of claim 1, wherein a surface of the control unit is formed in an undulating shape. 17. The radiographic imaging apparatus of claim 1, wherein a thickness of the panel unit is thinner than a thickness of the control unit. 18. The radiographic imaging apparatus of claim 1, wherein:the radiation detection panel is configured such that radiation is converted into light in a scintillator for converting radiation into light and the radiation detection panel outputs an electrical signal expressing a radiographic image representation of this light; andthe scintillator is configured including columnar crystals of a fluorescent material. 19. The radiographic imaging apparatus of claim 18, wherein the fluorescent material is CsI.