Circuit breaker device for DC voltage

The invention claimed is: 1. A circuit breaker device for coupling a DC voltage branch with a positive conductor and a negative conductor to a DC voltage bus, the circuit breaker device comprising: a series circuit including a safety fuse; and a unidirectional switching module arranged in a housing, the housing including a positive conductor input connection, a negative conductor input connection, a positive conductor output connection and a negative conductor output connection, wherein the positive conductor input connection and the negative conductor input connection are connectable to the DC voltage bus, wherein the positive conductor output connection and the negative conductor output connection are connectable to the DC voltage branch, wherein either the unidirectional switching module is provided between the positive conductor input connection and the positive conductor output connection or the unidirectional switching module is provided between the negative conductor input connection and the negative conductor output connection, and wherein the unidirectional switching module including a parallel circuit includes a controllable semiconductor switching element, and a diode, wherein the controllable semiconductor switching element is conductive only in a first current direction of a current, and the diode is in a conducting state in a second current direction of the current, opposite the first current direction. 2. The circuit breaker device of claim 1 , wherein the controllable semiconductor switching element is an insulated gate bipolar transistor, a metal oxide semiconductor field effect transistor or a gallium nitride transistor. 3. The circuit breaker device of claim 2 , further comprising: a current sensor to determine a level of the current and a direction of the current. 4. The circuit breaker device of claim 2 , wherein upon the unidirectional switching module being arranged in the positive conductor of the DC voltage branch, the controllable semiconductor switching element is conductive counter to a direction of the DC voltage bus, or upon the unidirectional switching module being arranged in the negative conductor of the DC voltage branch, the controllable semiconductor switching element is conductive in the direction of the DC voltage bus. 5. The circuit breaker device of claim 2 , wherein the safety fuse is arranged on a side of the DC voltage bus. 6. The circuit breaker device of claim 2 , further comprising: a control device connected to the unidirectional switching module and to a current sensor, the control device configured to control the unidirectional switching module to interrupt current flow in response to a first threshold value of the current in a direction of the conductivity of the controllable semiconductor switching element being exceeded. 7. The circuit breaker device of claim 6 , wherein the control device is also configured to control the unidirectional switching module to interrupt the current flow in response to a rate of rise of the current in the direction of the conductivity of the semiconductor switching element exceeding a current rise threshold value. 8. The circuit breaker device of claim 1 , further comprising: a current sensor to determine a level of the current and a direction of the current. 9. The circuit breaker device of claim 8 , wherein upon the unidirectional switching module being arranged in the positive conductor of the DC voltage branch, the controllable semiconductor switching element is conductive counter to a direction of the DC voltage bus, or upon the unidirectional switching module being arranged in the negative conductor of the DC voltage branch, the controllable semiconductor switching element is conductive in the direction of the DC voltage bus. 10. The circuit breaker device of claim 8 , wherein the safety fuse is arranged on a side of the DC voltage bus. 11. The circuit breaker device of claim 1 , wherein upon the unidirectional switching module being arranged in the positive conductor of the DC voltage branch, the controllable semiconductor switching element is conductive counter to a direction of the DC voltage bus, or upon the unidirectional switching module being arranged in the negative conductor of the DC voltage branch, the controllable semiconductor switching element is conductive in the direction of the DC voltage bus. 12. The circuit breaker device of claim 1 , wherein the safety fuse is arranged on a side of the DC voltage bus. 13. The circuit breaker device of claim 1 , further comprising: a control device connected to the unidirectional switching module and to a current sensor, the control device configured to control the unidirectional switching module to interrupt current flow in response to a first threshold value of the current in a direction of the conductivity of the controllable semiconductor switching element being exceeded. 14. The circuit breaker device of claim 13 , wherein the control device is also configured to control the unidirectional switching module to interrupt the current flow in response to a rate of rise of the current in the direction of the conductivity of the semiconductor switching element exceeding a current rise threshold value. 15. The circuit breaker device of claim 13 , wherein the control device is connected to the controllable semiconductor switching element and to the current sensor. 16. The circuit breaker device of claim 1 , wherein connections, among the positive conductor input connection, the negative conductor input connection, the positive conductor output connection and the negative conductor output connection, which do not have the unidirectional switching module provided therebetween, are connected to one another by way of an electrical line. 17. The circuit breaker device of claim 1 , wherein the safety fuse is in a form of a pyroelectrically tripping fuse. 18. The circuit breaker device of claim 1 , wherein the diode includes a low forward voltage. 19. The circuit breaker device of claim 1 , wherein the circuit breaker device is usable in an outgoer switch. 20. A DC voltage branch comprising: the circuit breaker device of claim 1 , wherein the circuit breaker device is connected to the DC voltage bus and to devices. 21. An outgoer switch comprising: a circuit breaker device for coupling a DC voltage branch with a positive conductor and a negative conductor to a DC voltage bus, the circuit breaker device including a series circuit including a safety fuse, and a unidirectional switching module arranged in a housing, the housing including a positive conductor input connection, a negative conductor input connection, a positive conductor output connection and a negative conductor output connection, wherein the positive conductor input connection and the negative conductor input connection are connectable to the DC voltage bus, wherein the positive conductor output connection and the negative conductor output connection are connectable to the DC voltage branch, wherein either the unidirectional switching module is provided between the positive conductor input connection and the positive conductor output connection or the unidirectional switching module is provided between the negative conductor input connection and the negative conductor output connection, and wherein the unidirectional switching module includes a parallel circuit including a controllable semiconductor switching element, and a diode, wherein the controllable semi