Radiation detector and radiographic imaging apparatus

What is claimed is: 1. A radiographic imaging apparatus comprising: a base; and a radiation detector, the radiation detector comprising: a sensor board including a flexible substrate and a layer which is provided on a first surface of the substrate and in which a plurality of pixels, which accumulate electrical charges generated in accordance with light converted from radiation, are formed; a conversion layer that is provided on a side, opposite to the substrate, of the layer in which the pixels are formed, and converts radiation into light; a protective film that covers at least the conversion layer; a reinforcing member that reinforces a stiffness of the flexible substrate; and a supporting member that supports the sensor board together with the reinforcing member, wherein the reinforcing member is provided at a position opposite from the first surface of the substrate, and is positioned at an outermost layer of the radiation detector, and wherein the base is provided at a position opposite from the substrate with respect to the conversion layer. 2. The radiation detector according to claim 1 , which is used for imaging in which a second surface of the substrate, which is opposite to the first surface of the substrate, is irradiated with radiation. 3. The radiation detector according to claim 1 , wherein the conversion layer includes CsI. 4. A radiographic imaging apparatus comprising: the radiation detector according to claim 1 ; a control unit that outputs control signals for reading electrical charges accumulated in the plurality of pixels; a drive unit that outputs a driving signal for reading the electrical charges from the plurality of pixels, in accordance with the control signals; and a signal processing unit that receives electrical signals according to the electrical charges read from the plurality of pixels and generates image data according to the received electrical signals to output the generated image data. 5. The radiographic imaging apparatus according to claim 4 , wherein the control unit and the radiation detector are provided side by side in a direction intersecting a lamination direction in which a substrate in the radiation detector, a layer in which the plurality of pixels are formed, and a conversion layer are arranged. 6. The radiographic imaging apparatus according to claim 4 , further comprising: a power source unit that supplies electrical power to at least one of the control unit, the drive unit, or the signal processing unit, wherein the power source unit, the control unit, and the radiation detector are provided side by side in a direction intersecting a lamination direction in which a substrate in the radiation detector, a layer in which the plurality of pixels are formed, and a conversion layer are arranged. 7. A radiation detector, comprising: a sensor board including a flexible substrate and a layer which is provided on a first surface of the substrate and in which a plurality of pixels, which accumulate electrical charges generated in accordance with light converted from radiation, are formed; a conversion layer that is provided on a side, opposite to the substrate, of the layer in which the pixels are formed, and converts radiation into light; a protective film that covers at least the conversion layer; a reinforcing member that reinforces a stiffness of the flexible substrate; and a supporting member that supports the sensor board together with the reinforcing member, wherein the reinforcing member is provided on a second surface of the substrate, which is opposite to the first surface of the substrate, and wherein the supporting member supports the reinforcing member with the reinforcing member sandwiched between the supporting member and the second surface of the substrate. 8. The radiation detector according to claim 7 , wherein the supporting member supports the reinforcing member with the reinforcing member sandwiched between the supporting member and a region on the second surface corresponding to a region outside a pixel region that is a region, on the first surface of the substrate, where the plurality of pixels are provided. 9. The radiation detector according to claim 7 , wherein the plurality of pixels include a plurality of first pixels, and a plurality of second pixels that are provided at an outer peripheral part of the plurality of first pixels and have a different application from the plurality of first pixels in forming a radiation image, and wherein the supporting member supports the reinforcing member with the reinforcing member sandwiched between the supporting member and a region, on the second surface of the substrate, corresponding to the outside of a region where the first pixels are provided. 10. The radiation detector according to claim 7 , wherein the supporting member includes a first supporting member that supports the reinforcing member with the reinforcing member sandwiched between the first supporting member and a first region corresponding to an end part of the second surface of the substrate, and a second supporting member that supports the reinforcing member with the reinforcing member sandwiched between the second supporting member and a region, on the second surface of the substrate, outside the first region. 11. The radiation detector according to claim 10 , wherein the first supporting member and the second supporting member are thermally connected together. 12. The radiation detector according to claim 10 , wherein the sensor board has an outer peripheral part including a connecting part to which at least one of a first cable or a second cable is connected, the first cable being connected to a drive unit that causes electrical charges to be read therethrough from the plurality of pixels, and the second cable being connected to a signal processing unit that receives electrical signals according to the electrical charges read from the plurality of pixels and generates image data according to the received electrical signals to output the generated image data, and wherein the first supporting member and the second supporting member are thermally connected together outside a region of the outer peripheral part including the connecting part. 13. The radiation detector according to claim 7 , wherein the protective film further covers a predetermined region in an outer peripheral part of the second surface of the substrate, and wherein the supporting member supports the reinforcing member with the reinforcing member sandwiched between the supporting member and the second surface of the substrate in the predetermined region. 14. The radiation detector according to claim 13 , wherein the protective film includes at least a first protective film that covers at least the conversion layer, and a second protective film that covers a region including the predetermined region and the entire first protective film. 15. The radiation detector according to claim 13 , wherein the protective film includes at least a first protective film that covers at least the conversion layer, and a second protective film that covers a region including the predetermined region and an end part of the first protective film. 16. The radiation detector according to claim 7 , further comprising a reinforcing layer that is provided on a surface of the conversion layer opposite to a surface provided on the sensor board. 17. A radiation detector, comprising: a sensor board including a flexible substrate and a layer which is provided on a first surface of the substrate and in which a plurality of pixels, whic