Crank device

The invention claimed is: 1. A crank device, comprising: a crankshaft; and a transmission element configured to introduce into the crankshaft a first variable force by way of a first variable lever spacing, wherein the first variable force has a predefined profile, a profile of the first variable lever spacing is dependent on the predefined profile of the first variable force such that an effect of change in the first variable force on the crankshaft is at least partially compensated, the transmission element comprises a rotary body, the transmission element is fixed to the crankshaft, a first outer circumferential portion of the rotary body has a first monotonic changing spacing from the crankshaft, and the first monotonic changing spacing defines the first variable lever spacing, the transmission element is configured to introduce a second variable force into the crankshaft via a second variable lever spacing, a second outer circumferential portion of the rotary body has a second monotonic changing spacing from the crankshaft, and the second monotonic changing spacing defines the second variable lever spacing, and the first and second outer circumferential portions of the rotary body are point-symmetrical to the crankshaft. 2. The crank device according to claim 1 , wherein the crank device is configured such that: a first force is introduced with a first lever spacing of the first variable lever spacing, a second force is introduced with a second lever spacing of the first variable lever spacing, the first lever spacing is greater than the second lever spacing, and the first force is less than the second force. 3. The crank device according to claim 1 , further comprising a first spring, wherein the first variable force is a variable spring force that is introduced by the first spring to the crankshaft via the first variable lever spacing. 4. The crank device according to claim 3 , wherein the first variable lever spacings is adapted to the first spring such that a torque applied by the first spring to the crankshaft through the first variable lever spacing is constant over a relaxation stroke of the first spring. 5. The crank device according to claim 3 , wherein a first device configured to introduce the first variable force to the transmission element is positioned on the first outer circumferential portion of the rotary body. 6. The crank device according to claim 5 , wherein the first device is a slack traction mechanism, one end section of which is coupled to a free end section of the first spring, and the other end section of which is configured to rest against the first outer circumferential portion of the rotary body. 7. The crank device according to claim 5 , wherein: the first device is a rack guided along an axis and its rack-side teeth have a different spacing from the axis, and the rack-side teeth engage with rotating body-side teeth arranged on the first outer circumferential portion of the rotary body. 8. The crank device according to claim 1 , wherein the crank device is configured such that: a third force is introduced with a third lever spacing of the second variable lever spacing, a fourth force is introduced at a fourth lever spacing of the second variable lever spacing, the third lever spacing is greater than the fourth lever spacing, and the third force is less than the fourth force. 9. The crank device according to claim 8 , wherein the second variable force is a variable spring force that is introduced by a second spring to the crankshaft through the second variable lever spacing.