Magnetic field generating device and superconducting rotary machine comprising magnetic field generating device

The invention claimed is: 1. A magnetic field generating device comprising: a single superconducting coil or a plurality of superconducting coils formed by winding a superconductive wire material; unseparated conductor plates, each unseparated conductor plate comprising an electric conductor and being placed such that the conductor plate is insulated from the single superconducting coil or the plurality of superconducting coils and is adjacent to the single superconducting coil or the plurality of superconducting coils in a winding axis direction of the single superconducting coil or the plurality of superconducting coils, and a main surface of the unseparated conductor plate faces the single superconducting coil or the plurality of superconducting coils; and a protection circuit which is connected in parallel with the single superconducting coil or the plurality of superconducting coils and attenuates a current flowing through the single superconducting coil or the plurality of superconducting coils, wherein the plurality of superconducting coils are stacked together such that their winding axis directions conform to each other, wherein when the winding axis direction of the superconducting coil is a vertical direction, the unseparated conductor plates are placed such that one unseparated conductor plate is located on each of upper and lower sides of the single superconducting coil or an entire of the plurality of superconducting coils stacked together, and wherein the one unseparated conductor plate located on each of upper and lower sides of the single superconducting coil or an entire of the plurality of superconducting coils stacked together covers an entire surface of the superconductive wire material wound to form the single superconducting coil or the plurality of superconducting coils, and an entire upper side or lower side of a space surrounded by the wound superconductive wire material, in the winding axis direction of the superconducting coil. 2. The magnetic field generating device according to claim 1 , wherein a conductor plate is placed such that the conductor plate is located between adjacent superconducting coils of the plurality of superconducting coils stacked together, wherein the conductor plate comprises an electric conductor, is unseparated, and is placed such that the conductor plate is insulated from the adjacent superconducting coils and one of main surfaces of the conductor plate faces the adjacent superconducting coils. 3. The magnetic field generating device according to claim 1 , wherein the single superconducting coil or the plurality of superconducting coils has a race track shape. 4. The magnetic field generating device according to claim 1 , wherein each unseparated conductor plate has a flat plate shape which does not have a groove over an entire surface. 5. The magnetic field generating device according to claim 1 , wherein each unseparated conductor plate has a thickness which is as large as or larger than 3/10 of a thickness of the single superconducting coil or the plurality of superconducting coils in the winding axis direction. 6. The magnetic field generating device according to claim 1 , wherein each unseparated conductor plate has a thickness of 3 mm or larger. 7. The magnetic field generating device according to claim 1 , wherein each unseparated conductor plate is formed of a material with a resistivity of 1.0×10 −9 Ωm or less under an operating temperature of the single superconducting coil or the plurality of superconducting coils. 8. The magnetic field generating device according to claim 1 , wherein each unseparated conductor plate is formed of at least one material which is selected from the group consisting of copper with a purity degree of 99.95% or more, aluminum with a purity degree of 99.95% or more, pure gold, and pure silver and has a residual resistance ratio of 100 or more. 9. A superconducting rotary machine including the magnetic field generating device according to claim 1 , comprising: a rotary shaft; and a superconducting coil-conductor plate assembly which is fastened to the rotary shaft, and includes (1) the single superconducting coil or the plurality of superconducting coils and (2) the unseparated conductor plates, wherein the single superconducting coil or the plurality of superconducting coils constitutes a field winding of the superconducting rotary machine, the superconducting rotary machine further comprising: a power supply for supplying a current to the single superconducting coil or the plurality of superconducting coils. 10. The superconducting rotary machine according to claim 9 , wherein the protection circuit is provided in a stationary section and connected in parallel with the single superconducting coil or the plurality of superconducting coils with respect to the power supply, to protect the single superconducting coil or the plurality of superconducting coils. 11. The superconducting rotary machine according to claim 9 , wherein the protection circuit is provided in the rotary shaft and connected in parallel with the single superconducting coil or the plurality of superconducting coils with respect to the power supply, to protect the single superconducting coil or the plurality of superconducting coils. 12. The superconducting rotary machine according to claim 11 , wherein the protection circuit includes a plurality of pole protection circuits connected in parallel with the single superconducting coil or the plurality of superconducting coils of each of a plurality of field poles of the superconducting rotary machine, to protect the single superconducting coil or to protect the superconducting coils, respectively; and an internal protection circuit connected in parallel with both ends of a series path in which all of the superconducting coils of the field poles are connected in series, to protect the superconducting coils. 13. The superconducting rotary machine according to claim 9 , wherein the protection circuit includes a first protection circuit which is provided in the rotary shaft and connected in parallel with the single superconducting coil or the plurality of superconducting coils with respect to the power supply, to protect the single superconducting coil or the plurality of superconducting coils; and a second protection circuit which is provided in the stationary section and connected in parallel with the single superconducting coil or the plurality of superconducting coils with respect to the power supply, to protect the single superconducting coil or the plurality of superconducting coils. 14. The superconducting rotary machine according to claim 13 , wherein the first protection circuit includes a plurality of pole protection circuits connected in parallel with the single superconducting coil or the plurality of superconducting coils of each of a plurality of field poles of the superconducting rotary machine, to protect the single superconducting coil or to protect the plurality of superconducting coils, respectively; and an internal protection circuit connected in parallel with both ends of a series path in which all of the superconducting coils of the field poles are connected in series, to protect the superconducting coils. 15. A superconducting rotary machine including the magnetic field generating device according to claim 1 , comprising: a rotary shaft; and a superconducting coil-conductor plate assembly which is fastened to the rotary shaft, and includes (1) the single superconducting coil or the plurality of superconducting coils and (2) the unseparated conductor plat