Method for determining a control parameter of a power or torque distribution regulator for a hybrid drive of a work machine

The invention claimed is: 1. A method for determining a control parameter of a load distribution regulator for a hybrid drive of a work machine, the method comprising: providing an engine having a shaft, a generator coupled to the shaft, at least one drive wheel, an intermediate gear set coupling the shaft to the drive wheel through a summation gear set, an electric motor coupled to a sun gear of the summation gear set, a power take-off, a plurality of sensors, and a control device, the control device including the load distribution regulator and an acquisition device; measuring performance values of the work machine with the plurality of sensors; automatically determining a work cycle by the control device performed by the work machine as a function of the measured performance values; and determining the control parameter by the load distribution regulator as a function of the work cycle determined in the automatically determining step; wherein, the measuring performance values step includes measuring a rotation condition of the power take-off, a speed of the work machine, and a power value of the engine; further wherein, the controller identifies a soil processing work cycle when the speed of the work machine is less than a speed threshold and the power value of the engine is greater than a power value threshold. 2. The method of claim 1 , further comprising determining the work cycle based on the measured performance values detected by sensors on the basis of a pattern recognition by a classification algorithm executed by the control device. 3. The method of claim 2 , wherein the classification algorithm is executed by the control device using a Bayes classifier, a nearest neighbor classifier, a k-nearest neighbor classifier, or distance functions. 4. The method of claim 2 , further comprising detecting the measured performance values as a function of the speed of the work machine, transmission ratio of a manual transmission, and historic load conditions of the engine. 5. The method of claim 1 , wherein: the load distribution regulator comprises a proportional-integral regulator and outputs a load value; and the control parameter comprises a factor of a load demand used by the load distribution regulator which is proportionally or integrally a portion of the load value output by the load distribution regulator. 6. The method of claim 1 , further comprising operably controlling the load distribution regulator via a predetermined standard parameter set if the work cycle is undetermined. 7. The method of claim 1 , further comprising: initiating a waiting period for a predetermined period of time; and determining via the acquisition device if the work machine is performing a new work cycle during the waiting period. 8. The method of claim 1 , further comprising: selecting by the load distribution regulator a parameter set associated with the work cycle determined by the acquisition device; and controlling a load distribution output to the engine and electric motor as a function of the parameter set. 9. The method of claim 1 , further wherein the measuring performance values of the work machine step comprises measuring at least one of a manure distributor, a plow, or a bale press. 10. The method of claim 1 , wherein the measuring performance values of the work machine step comprises transmitting data via a data bus. 11. The method of claim 1 , further wherein the work cycle is a loader work cycle if the measuring performance values of the work machine step indicates frequent direction change. 12. A control system for a hybrid drive of a work machine, the working machine including an engine, an electric motor, a drive wheel, an additional apparatus or a power take-off, and a generator, comprising: an intermediate gear set rotationally coupled to the engine, the generator rotationally coupled to the engine between the intermediate gear set and the engine; a summation gear set rotationally coupling the electric motor to the drive wheel, the summation gear set positioned at least partially between the intermediate gear set and the drive wheel; a control device for controlling the work machine; a power distribution regulator of the control device disposed in electrical communication with the generator and the electric motor; a condition acquisition device of the control device disposed in communication with the power distribution regulator, the condition acquisition device configured to determine a work cycle performed by the work machine, and a plurality of sensors disposed in communication with the control device, each of the plurality of sensors configured to detect a performance value of the work machine; wherein, the condition acquisition device determines the work cycle as a function of each performance value detected by each of the plurality of sensors; further wherein, the power distribution regulator determines a control parameter as a function of the work cycle for the regulation of a load distribution to the engine and electric motor; further wherein, the plurality of sensors determine the performance value of the power take-off, a speed of the work machine, and a power value of the engine; further wherein the control device identifies a soil processing work cycle when the speed of the work machine is less than a speed threshold and the power value of the engine is greater than a power value threshold; further wherein, the electric motor is controlled independently from the generator. 13. The control system of claim 12 , wherein: a classification algorithm is stored in the control device; and the condition acquisition device operably determines the work cycle as a function of the performance values detected by the plurality of sensors on the basis of pattern recognition by the classification algorithm wherein a bale pressing work cycle is identified when the plurality of sensors indicate frequently changing loads on the engine. 14. The control system of claim 13 , wherein the plurality of sensors are configured to detect performance values including a transmission ratio of a manual transmission, a condition of a power take-off shaft, and data transmitted via a data bus. 15. The control system of claim 12 , further comprising: an engine controller disposed in electrical communication with the control device; a charge storage device disposed in electrical communication with the control device; and a databus electrically coupled to the control device. 16. The control system of claim 12 , further wherein the additional apparatus comprises a manure distributor, a plow, or a bale press. 17. The control system of claim 12 , further wherein the performance of the additional apparatus is data transmitted via a data bus. 18. The method of claim 17 , further wherein the work cycle is a bale pressing work cycle when the control device identifies frequently changing loads on the engine.