Power receiving device, power transmitting device and power transfer system

The invention claimed is: 1. A power transmitting device comprising: a power transmitting coil configured to contactlessly transmit electric power to a power receiving coil in a state where the power transmitting coil faces the power receiving coil, the power transmitting coil including a first power transmitting coil and a second power transmitting coil, the first power transmitting coil being provided so as to surround a winding axis extending in a winding axis direction that intersects with a facing direction in which the power transmitting coil faces the power receiving coil, the second power transmitting coil being electrically connected to the first power transmitting coil and arranged next to the first power transmitting coil in the winding axis direction with a gap from the first power transmitting coil; and a switching device configured to, when the power receiving coil is a solenoid coil, connect the first power transmitting coil and the second power transmitting coil in parallel with each other such that first magnetic flux generated inside the first power transmitting coil and second magnetic flux generated inside the second power transmitting coil flow in the same direction along the winding axis, and the switching device configured to, when the power receiving coil is a circular coil, connect the first power transmitting coil and the second power transmitting coil in series with each other such that the first magnetic flux and the second magnetic flux flow in opposite directions along the winding axis. 2. The power transmitting device according to claim 1 , further comprising: a core around which the power transmitting coil is wound, the core including: a first shaft portion around which the first power transmitting coil is wound; a second shaft portion around which the second power transmitting coil is wound; an intermediate portion provided between the first shaft portion and the second shaft portion; and an outside magnetic pole portion provided so as to extend in an intersecting direction that intersects with both the facing direction and the winding axis direction, the outside magnetic pole portion located at one end of the first shaft portion in the winding axis direction, the one end of the first shaft portion being opposite to the other end which faces the intermediate portion, a length of the intermediate portion being smaller in the intersecting direction than a length of the outside magnetic pole portion in the intersecting direction. 3. The power transmitting device according to claim 2 , wherein a length of the intermediate portion is larger in the winding axis direction than a length of the outside magnetic pole portion. 4. The power transmitting device according to claim 2 , wherein a length of the intermediate portion is larger in the intersecting direction than a length of the first shaft portion and a length of the second shaft portion. 5. The power transmitting device according to claim 1 , wherein the winding axis direction is a direction perpendicular to the facing direction. 6. A power receiving device characterized by comprising: a power receiving coil configured to contactlessly receive electric power from a power transmitting coil in a state where the power receiving coil faces the power transmitting coil, the power receiving coil including a first power receiving coil and a second power receiving coil, the first power receiving coil being provided so as to surround a winding axis extending in a winding axis direction that intersects with a facing direction in which the power receiving coil faces the power transmitting coil, the second power receiving coil being electrically connected to the first power receiving coil and arranged next to the first power receiving coil in the winding axis direction with a gap from the first power receiving coil; and a switching device configured to, when the power transmitting coil is a solenoid coil, connect the first power receiving coil and the second power receiving coil in parallel with each other such that first magnetic flux generated inside the first power receiving coil and second magnetic flux generated inside the second power receiving coil flow in the same direction along the winding axis, and the switching device configured to, when the power transmitting coil is a circular coil, connect the first power receiving coil and the second power receiving coil in series with each other such that the first magnetic flux and the second magnetic flux flow in opposite directions along the winding axis. 7. The power receiving device according to claim 6 , further comprising: a core around which the power receiving coil is wound, the core including: a first shaft portion around which the first power receiving coil is wound; a second shaft portion around which the second power receiving coil is wound; an intermediate portion provided between the first shaft portion and the second shaft portion; and an outside magnetic pole portion provided so as to extend in an intersecting direction that intersects with both the facing direction and the winding axis direction, the outside magnetic pole portion located at one end of the first shaft portion in the winding axis direction, the one end of the first shaft portion being opposite to other end which faces the intermediate portion, a length of the intermediate portion being smaller in the intersecting direction than a length of the outside magnetic pole portion in the intersecting direction. 8. The power receiving device according to claim 7 , wherein a length of the intermediate portion is larger in the winding axis direction than a length of the outside magnetic pole portion. 9. The power receiving device according to claim 7 , wherein a length of the intermediate portion is larger in the intersecting direction than a length of the first shaft portion and a length of the second shaft portion. 10. The power receiving device according to claim 6 , wherein the winding axis direction is a direction perpendicular to the facing direction. 11. A power transfer system characterized by comprising: a power receiving device; and a power transmitting device configured to contactlessly transmit electric power to the power receiving device in a state where the power transmitting device faces the power receiving device, one of the power receiving device and the power transmitting device including a first coil provided so as to surround a winding axis extending in a winding axis direction that intersects with a facing direction in which the power receiving device and the power transmitting device face each other; a second coil electrically connected to the first coil and arranged next to the first coil in the winding axis direction with a gap from the first coil; and a switching device configured to, when a coil included in the other one of the power receiving device and the power transmitting device is a solenoid coil, connect the first coil and the second coil in parallel with each other such that first magnetic flux generated inside the first coil and second magnetic flux generated inside the second coil flow in the same direction along the winding axis, and the switching device configured to, when the coil included in the other one of the power receiving device and the power transmitting device is a circular coil, connect the first coil and the second coil in series with each other such that the first magnetic flux and the second magnetic flux flow in opposite directions along the winding axis.