On-board system for a vehicle and device for controlling a current flow in an on-board system of a vehicle

What is claimed is: 1. An on-board system for a vehicle, the on-board system comprising: a first current path comprising: at least one current consumer, a first energy store, and a first self-locking switch controllable by a first control voltage, wherein, in a closed state of the first switch, the at least one current consumer is electrically connectable to the first energy store, a second current path comprising: the at least one current consumer, the first and a second energy store, and a second switch controllable by a second control voltage, wherein, in a closed state of the second switch, the at least one current consumer is electrically connectable to the first and the second energy store, and a control arrangement configured to close the first switch or to hold the first switch in the closed state when the voltage provided by the energy store supplying the first switch falls below a minimum voltage threshold value necessary to close the first switch or hold the first switch in the closed state. 2. The on-board system of claim 1 , comprising an emergency power source configured to provide the voltage necessary to close the first switch or to hold the first switch in the closed state, wherein the control arrangement is configured to close the first switch or holds the first switch in the closed state by the voltage provided by the emergency power source. 3. The on-board system of claim 2 , wherein the control arrangement is configured to close the first switch or hold the first switch in the closed state selectively by the voltage of the emergency power source or by the voltage of the first energy store or of the second energy store and in a manner dependent on (a) the voltage of the emergency power source and (b) at least one of the voltages of the first energy store and of the second energy store. 4. The on-board system of claim 2 , wherein: the emergency power source is a rechargeable accumulator, and the on-board system comprises, between the emergency power source and at least one of the first energy store and the second energy store, at least one of a first recharging unit and a second recharging unit configured to charge the emergency power source with the power of at least one of the first energy store and the second energy store. 5. The on-board system of claim 1 , wherein the first energy store and the second energy store are only electrically connected at the same time to the current consumer when the first switch is in the open state and the second switch is simultaneously in the closed state. 6. The on-board system of claim 1 , wherein the control arrangement closes the first switch or holds the first switch in the closed state by the voltage provided by the emergency power source only when the second switch is in the open state. 7. The on-board system of claim 1 , wherein: the first switch comprises a control connection for the control voltage, and the control arrangement comprises at least one of: a first diode arranged between the control connection of the first switch and the emergency power source, and conductive towards the control connection of the first switch and in the opposite direction blocking, a second diode arranged between the control connection of the first switch and the first energy store, and conductive towards the control connection of the first switch and in the opposite direction blocking, and a third diode arranged between the control connection, of the first switch and the second energy store, and conductive towards the control connection of the first switch and in the opposite direction blocking. 8. The on-board system of claim 1 , wherein the control arrangement comprises: a third controllable switch between the control connection of the first switch and the ground potential, and a control unit configured to control the third switch, and wherein said control unit is configured to: determine an effective current value at the current path from the first energy store to the current consumer, compare the effectively determined current value with a predefined target current value, and if the effectively determined current value exceeds the target current value, close the third switch and thus connect the control voltage of the first switch to ground potential. 9. A device for controlling a current flow in an on-board system, said device comprising: a first electrical connection, a second electrical connection, and a third electrical connection, a first self-locking switch arranged between the first and the second connection and controllable by a first control voltage applied to a fourth connection of the device, wherein, in a closed state of the first switch, the first connection is electrically connectable to the second connection, a second switch arranged between the first and the third connection and controllable by a second control voltage, wherein, in a closed state of the second switch, the first connection is electrically connectable to the third connection, a control arrangement configured to close the first switch or to hold the first switch in the closed state when the control voltage applied to the fourth connection of the device falls below a minimum voltage threshold value necessary to close the first switch or to hold the first switch in the closed state, and an emergency power source configured to provide the voltage necessary to the control arrangement for closing the first switch or for holding the first switch in the closed state, wherein the first switch, in the closed state controlled by the control arrangement, electrically connects the first connection to the second connection and thus prevents a potential parasitic current flow from the first connection via the open second switch to the third connection. 10. The device of claim 9 , wherein the control arrangement is configured to close the first switch or hold the first switch in the closed state selectively by the voltage of the emergency power source or by the control voltage applied to the fourth connection or to the third connection of the device, in a manner dependent on the voltage of the emergency power source and dependent on the control voltage applied to the fourth connection or to the third connection of the device. 11. The device of claim 9 , wherein: the first switch comprises a control connection for the control voltage, the control arrangement comprises at least one of: a first electric valve, in particular a diode, arranged between the control connection of the first switch and the emergency power source, and conductive towards the control connection of the first switch and in the opposite direction blocking, a second electric valve, in particular a diode, arranged between the control connection of the first switch and the fourth connection, and conductive towards the control connection of the first switch and in the opposite direction blocking, and a third electric valve, in particular a diode, arranged between the control connection of the first switch and the third connection, and conductive towards the control connection of the first switch and in the opposite direction blocking. 12. The device of claim 9 , wherein: the emergency power source is a rechargeable accumulator, and the device, between the emergency power source and at least one of the fourth connection and third connection, comprises at least one of a first recharging unit and a second recharging unit configured to charge the emergency power source with the power applied to at least one of the fourth connection and the third connection. 13. The device of claim 9 , wherein the control arrangement comprises: