Automotive power unit

The invention claimed is: 1. An automotive power unit comprising: a plurality of storage batteries; a power supply box to be arranged between the storage batteries and a load; a switch means for selecting whether or not to supply power to the load from the storage batteries, the switch means being provided in the power supply box; a redundant power supply device configured to supply power to a load group from at least one of a first storage battery and a second storage battery that are included in the plurality of storage batteries; a separation device arranged between the redundant power supply device and each of the first storage battery and the second storage battery and, when one of the first storage battery and the second storage battery has made a short circuit, opens a contact provided between the one of the storage batteries and the other of the storage batteries; and a switch control unit that detects output voltages of the storage batteries and controls opening and closing of the switch means so as to select the storage battery for supplying power to the load, wherein the switch control unit enables, based on a control signal that is output from a load control unit when the load is driven, a storage battery selecting operation is to be performed by the switch means. 2. The automotive power unit according to claim 1 , wherein the switch control unit includes: a comparator that compares an output voltages of the storage batteries with each other; and a logic circuit that controls, based on the control signal, opening and closing of the switch means in correspondence with a comparison result of the comparator. 3. The automotive power unit according to claim 1 , wherein the switch control unit includes: a power supply monitoring unit that selects, based on the output voltages of the storage batteries, one of the storage batteries based on a preset program; and a driving unit that controls, based on the control signal, the switch means so as to supply power to the load from the storage battery selected by the power supply monitoring unit. 4. The automotive power unit according to claim 1 , wherein the switch control unit includes a power supply monitoring ECU that selects, based on the output voltages of the storage batteries, one of the storage batteries based on a preset program, and controls, based on the control signal, the switch means so as to supply power to the load from the selected storage battery. 5. The automotive power unit according to claim 1 , wherein the switch means includes at least one relay that is subjected to open/close control by the switch control unit. 6. The automotive power unit according to claim 1 , wherein the switch means includes at least one power MOSFETs that is subjected to open/close control by the switch control unit. 7. The automotive power unit according to claim 1 , further comprising: a current control means that supplies power supplied from the storage batteries, from the power supply box to each of the loads using at least one power source line, allows supply of power from the storage batteries to the load, and keeps a current from flowing between the storage batteries. 8. The automotive power unit according to claim 7 , wherein the current control means includes: a plurality of switches constituting the switch means, and each being arranged between the power source line and a corresponding storage battery; and the switch control unit including a power supply monitoring unit that monitors the output voltages of the storage batteries, and a driving unit that makes a switch connected to a storage battery having a low output voltage non-conductive when the power supply monitoring unit has detected a difference between the output voltages of the storage batteries, and at least one of the plurality of switches are provided in the power supply box. 9. The automotive power unit according to claim 7 , wherein the current control means includes a comparator that compares the output voltages of the storage batteries. 10. The automotive power unit according to claim 8 , wherein the power supply monitoring unit is configured to, when detecting that an output voltage of each of the storage batteries or a difference between the output voltages of the storage batteries is in an abnormal range, make a switch means connected to this storage battery non-conductive, and is provided in the power supply box. 11. The automotive power unit according to claim 8 , wherein one of the storage batteries is directly connected to a starter motor, and a switch connected to the one of the storage batteries is set to a non-conductive state when the starter motor operates. 12. The automotive power unit according to claim 7 , wherein the current control means is constituted by a plurality of diodes, each having an anode connected to the storage batteries side, and having a cathode connected to the power source line side. 13. The automotive power unit according to claim 1 , wherein the separation device includes a relay that is provided with a coil through which, when one of the first storage battery and the second storage battery has made a short circuit, a current serving as an excitation current flows toward the one of the storage batteries from the other of the storage batteries, and is also provided with a contact that is opened based on the excitation current and electrically separates the one of the storage batteries from the other of the storage batteries. 14. The automotive power unit according to claim 13 , wherein the separation device is provided with a forcible separation device that is connected to the relay and causes an excitation current to flow through the coil based on input of a separation signal. 15. The automotive power unit according to claim 1 , wherein the separation device includes a relay that is provided with a coil, an excitation current that is supplied from one of the first storage battery and the second storage battery and flows through the coil being cut off when the one of the first storage battery and the second storage battery has made a short circuit, and is also provided with a contact that is opened based on the cutting-off of the excitation current and electrically separates the one of the storage batteries from the other of the storage batteries. 16. The automotive power unit according to claim 1 , wherein the separation device is housed in the power supply box provided between the first and the second storage batteries and the redundant power supply device. 17. The automotive power unit according to claim 1 , wherein the power supply box is configured to supply power to a plurality of loads from at least one of the plurality of storage batteries, the power unit has an alternator that supplies power to the storage batteries and the loads; a plurality of switches included in the switch means and each having an input terminal connected to a corresponding one of the plurality of storage batteries; at least one power source supply lines each connecting a node between output terminals of the plurality of switches to a corresponding one of the plurality of loads; and a power supply line that supplies power from the alternator to the node and wherein the switch control unit is configured to directly or indirectly acquire current values of currents flowing through the plurality of switches and the plurality of storage batteries and, when a current value of a current flowing through each of the storage batteries and the current value of a current flowing through a switch connected