Electric circuit breaker

The invention claimed is: 1. An electrical circuit breaker comprising: a stored-energy spring drive including a spring and a manual winding device for manually tensioning the spring, the manual winding device including a rotatable latching disk, a latching pawl arranged next to the latching disk, and a manual operating device connected to the latching pawl and configured to move the latching pawl, the latching pawl being guidable in a controlled manner into a latching tooth system of the latching disk and, by virtue of operation of the manual operating device, the latching pawl being movable and rotatable along a desired rotation direction to tension the spring, the latching tooth system being asymmetrical such that transmission of force from the latching pawl to the latching disk is possible only along the desired rotation direction, the latching disk being configured to slide along the latching pawl when the latching disk rotates along the desired rotation direction relatively more quickly than the latching pawl, the latching tooth system of the latching disk being an external tooth system in a form of an arc of a circle, an angle of the arc of the circle having an angle value of between 160° and 200° inclusive, wherein the latching disk is connected in a rotationally fixed manner to a switching shaft of the circuit breaker, the spring of the stored-energy spring drive forms a switch-on spring, and a first rotation angle range of the switching shaft, in an event of rotation along the desired rotation direction, serves to tension the spring, and a second rotation angle range of the switching shaft, in an event of rotation along the desired rotation direction, serves to relieve the spring of tension and to switch on the circuit breaker. 2. The circuit breaker of claim 1 , wherein the external tooth system of the latching disk and the latching pawl are arranged relative to one another such that the latching pawl is configured to engage into the external tooth system when the switching shaft is in the first rotation angle range. 3. The circuit breaker of claim 2 , wherein the external tooth system of the latching disk and the latching pawl are arranged relative to one another such that the latching pawl disengages from the external tooth system when the switching shaft is in the second rotation angle range. 4. The circuit breaker of claim 3 , wherein the manual winding device includes a rocker, pivotable about a fixed rocker axis and on which the latching pawl is configured to be held to pivot about a pivot axis, and wherein the pivot axis lies parallel to the rocker axis and, upon the rocker being pivoted about the rocker, the pivot axis of the latching pawl is rotated about the rocker axis. 5. The circuit breaker of claim 4 , wherein a pivot region of the latching pawl is delimited in a direction of the latching disk by way of a stop. 6. The circuit breaker of claim 2 , wherein the manual winding device comprises a positioning spring, configured to generate a spring force on the latching pawl in a direction of the latching disk. 7. The circuit breaker of claim 1 , wherein a spring end of the spring of the stored-energy spring drive is fastened to the switching shaft in an eccentric manner, in relation to an axis of the shaft, and a rotation axis of the latching disk and the axis of the switching shaft are identical. 8. The circuit breaker of claim 1 , further comprising: a return movement-limiting mechanism, configured to prevent rotation of the latching disk counter to the desired rotation direction. 9. The circuit breaker of claim 8 , wherein the return movement-limiting mechanism comprises a gear wheel, arranged on the switching shaft of the circuit breaker coaxially to the latching disk in a manner fixed in terms of rotation. 10. The circuit breaker of claim 1 , wherein the latching pawl is arranged at an end of the latching disk. 11. The circuit breaker of claim 3 , wherein the manual winding device comprises a positioning spring, configured to generate a spring force on the latching pawl in the direction of the latching disk. 12. An electrical circuit breaker, comprising: a stored-energy spring drive including a spring and a manual winding device for manually tensioning the spring, the manual winding device including a rotatable latching disk, a latching pawl arranged next to the latching disk, and a manual operating device connected to the latching pawl and configured to move the latching pawl, the latching pawl being guidable in a controlled manner into a latching tooth system of the latching disk and, by virtue of operation of the manual operating device, the latching pawl being movable and rotatable along a desired rotation direction to tension the spring, the latching tooth system being asymmetrical such that transmission of force from the latching pawl to the latching disk is possible only along the desired rotation direction, the latching disk being configured to slide along the latching pawl when the latching disk rotates along the desired rotation direction relatively more quickly than the latching pawl, wherein the latching tooth system of the latching disk is an external tooth system in a form of an arc of a circle, and wherein the latching disk is connected in a rotationally fixed manner to a switching shaft of the circuit breaker, the spring of the stored-energy spring drive forms a switch-on spring, and a first rotation angle range of the switching shaft, in an event of rotation along the desired rotation direction, serves to tension the spring, and a second rotation angle range of the switching shaft, in an event of rotation along the desired rotation direction, serves to relieve the spring of tension and to switch on the circuit breaker. 13. The circuit breaker of claim 12 , wherein the external tooth system of the latching disk and the latching pawl are arranged relative to one another such that the latching pawl is configured to engage into the external tooth system when the switching shaft is in the first rotation angle range. 14. The circuit breaker of claim 13 , wherein the external tooth system of the latching disk and the latching pawl are arranged relative to one another such that the latching pawl disengages from the external tooth system when the switching shaft is in the second rotation angle range. 15. An electrical circuit breaker, comprising: a stored-energy spring drive including a spring and a manual winding device for manually tensioning the spring, the manual winding device including a rotatable latching disk, a latching pawl arranged next to the latching disk, a manual operating device connected to the latching pawl and configured to move the latching pawl, the latching pawl being guidable in a controlled manner into a latching tooth system of the latching disk and, by virtue of operation of the manual operating device, the latching pawl being movable and rotatable along a desired rotation direction to tension the spring, the latching tooth system being asymmetrical such that transmission of force from the latching pawl to the latching disk is possible only along the desired rotation direction, the latching disk being configured to slide along the latching pawl when the latching disk rotates along the desired rotation direction relatively more quickly than the latching pawl, and a rocker, pivotable about a fixed rocker axis and on which the latching pawl is configured to be held to pivot about a pivot axis, wherein the pivot axis lies parallel to the rocker axis and wherein, upon the rocker being pivoted about the rocker axis, the pivot axis of the latchin