Electric power supply apparatus

What is claimed is: 1. An electric power supply apparatus comprising: a first electric power supply that is connected between a first node and a second node; a second electric power supply that is connected between a third node and a fourth node; a switch circuit having at least four input terminals, each of which is connected to the first node, the second node, the third node, and the fourth node, and having at least two output terminals; an electric load that is connected between the two output terminals; a reactor that is provided at least any one of between the first electric power supply and one of the first node and the second node, and between the second electric power supply and one of the third node and the fourth node; a voltage control section that alternately switches between: (A) a series state in which a voltage between both ends of the reactor is increased by connecting the first node with the fourth node, connecting the second node with a first output terminal, and connecting the third node with a second output terminal, to form a current loop that connects the first electric power supply, the second electric power supply, and the reactor in series with the electric load, and (B) a parallel state in which the voltage between both ends of the reactor is decreased by connecting the first node and the third node with the second output terminal, and connecting the second node and the fourth node with the first output terminal, to connect the first electric power supply and the second electric power supply in parallel with the electric load, and that performs, by the alternate switching, a voltage adjustment control which controls a voltage applied to the electric load to fall within a voltage range between a first voltage that is the voltage of the first electric power supply or the voltage of the second electric power supply and a second voltage that is the sum of the voltage of the first electric power supply and the voltage of the second electric power supply; and an electric motor as the electric load, wherein the voltage control section comprises, as an operation mode, a parallel mode that sets a first switch and a third switch to be closed and a second switch to be open, to connect the first electric power supply and the second electric power supply in parallel with the electric motor. 2. An electric power supply apparatus according to claim 1 , wherein the switch circuit comprising a first switch that is connected between the first node and the third node, a second switch that is connected between the first node and the fourth node, and a third switch that is connected between the second node and the fourth node, and wherein the voltage control section alternately switches between the series state and the parallel state, by alternately switching between a first state in which a pair of the first switch and the third switch is closed and the second switch is open, and a second state in which a pair of the first switch and the third switch is open and the second switch is closed. 3. An electric power supply apparatus according to claim 1 , comprising an electric motor as the electric load, wherein the voltage control section comprises, as an operation mode, a series mode that sets the first switch and the third switch to be open and the second switch to be closed, to connect the first electric power supply and the second electric power supply in series with the electric motor. 4. An electric power supply apparatus according to claim 1 , wherein the voltage control section further comprises, as operation modes, a series mode that sets the first switch and the third switch to be open and the second switch to be closed, to connect the first electric power supply and the second electric power supply in series with the electric motor, and performs the voltage adjustment control when switching between the parallel mode and the series mode. 5. An electric power supply apparatus according to claim 1 , wherein the reactor is provided between the first electric power supply and one of the first node and the second node. 6. An electric power supply apparatus according to claim 5 , comprising, as the reactor, a second reactor that is provided between the second electric power supply and one of the third node and the fourth node. 7. An electric power supply apparatus according to claim 6 , wherein a plurality of the reactors are magnetically coupled. 8. An electric power supply apparatus according to claim 1 , comprising a reactor that is provided between the electric load and any one of the two output terminals. 9. An electric power supply apparatus according to claim 1 , wherein the voltage control section comprises, as operation modes, a first constant current mode that makes the first switch closed, the third switch open, and the second switch open, prior to performing the parallel mode, and a second constant current mode that makes the first switch open, the third switch closed, and the second switch open, prior to performing the parallel mode. 10. An electric power supply apparatus comprising: a first electric power supply that is connected between a first node and a second node; a second electric power supply that is connected between a third node and a fourth node; a switch circuit having at least four input terminals, each of which is connected to the first node, the second node, the third node, and the fourth node, and having at least two output terminals; an electric load that is connected between the two output terminals; a reactor that is provided at least any one of between the first electric power supply and one of the first node and the second node, and between the second electric power supply and one of the third node and the fourth node; a voltage control section that alternately switches between: (A) a series state in which a voltage between both ends of the reactor is increased by connecting the first node with the fourth node, connecting the second node with a first output terminal, and connecting the third node with a second output terminal, to form a current loop that connects the first electric power supply, the second electric power supply, and the reactor in series with the electric load, and (B) a parallel state in which the voltage between both ends of the reactor is decreased by connecting the first node and the third node with the second output terminal, and connecting the second node and the fourth node with the first output terminal, to connect the first electric power supply and the second electric power supply in parallel with the electric load, and that performs, by the alternate switching, a voltage adjustment control which controls a voltage applied to the electric load to fall within a voltage range between a first voltage that is the voltage of the first electric power supply or the voltage of the second electric power supply and a second voltage that is the sum of the voltage of the first electric power supply and the voltage of the second electric power supply; and an electric motor as the electric load, wherein the voltage control section comprises, as an operation mode, a series mode that sets a first switch and a third switch to be open and a second switch to be closed, to connect the first electric power supply and the second electric power supply in series with the electric motor. 11. An electric power supply apparatus according to claim 10 , wherein the voltage control section further comprises, as operation modes, a parallel mode that sets the first switch and the third switch to be closed and the second switch to be open, to connect the first electric power supply and the second electric power supply in