Agricultural production machine

The invention claimed is: 1. An agricultural production machine comprising: a drive assembly comprising a drivetrain with an internal combustion engine and an electric energy supplying system having an electric auxiliary machine; and a driver assistance system comprising a control system configured to control the internal combustion engine, the electric auxiliary machine and at least one power consumer driven by the drive assembly; wherein the control system is configured to: responsive to the internal combustion engine being operated at a designated rotational speed that is lower than an idling speed of the internal combustion engine and responsive to the control system determining an action being or is to be performed indicative of connecting of a load that requires additional power from the drivetrain, controlling operation of the electric auxiliary machine so that the electrical auxiliary machine is connected to the drivetrain in order to at least partly generate a motive force to support the internal combustion engine in operating at least partly when the load is connected. 2. The agricultural production machine of claim 1 , wherein, prior to connecting to the load, the internal combustion engine has a current operation; wherein the control system is configured to operate the internal combustion engine at the the current operation both before and during connecting the load. 3. The agricultural production machine of claim 2 , wherein the control system is configured to: identify connecting the load; and responsive to identifying connecting the load, send a command to control the operation of the electric auxiliary machine in order to connect the electrical auxiliary machine to support the internal combustion engine in operating when connecting the load. 4. The agricultural production machine of claim 3 , wherein connecting the load comprises engaging a process drive of the drive assembly. 5. The agricultural production machine of claim 4 , wherein the control system is configured to identify connection of the load by detecting a tightening of a drive belt between a driveshaft of the internal combustion engine and the process drive. 6. The agricultural production machine of claim 4 , wherein the control system is configured to identify connection of the load by detecting an engagement between a driveshaft the internal combustion engine and the process drive using a clutch. 7. The agricultural production machine of claim 4 , wherein the control system is configured to identify connection of the load by detecting at least one of connection of a drive of the drive assembly, a starting of the agricultural production machine, or an actuation of emptying a grain tank of the agricultural production machine. 8. The agricultural production machine of claim 4 , wherein the control system is configured to identify connection of the load when the agricultural production machine is not moving but is performing an agricultural work order. 9. The agricultural production machine of claim 4 , wherein the control system is configured to identify the connection of the load when the agricultural production machine is performing an agricultural work order in processing a headland sequence. 10. The agricultural production machine of claim 4 , further comprising a drive assembly; and wherein the control system is configured to control the electric auxiliary machine and the drive assembly in order for the internal combustion engine and the electrical auxiliary machine to work together as a hybrid drive system. 11. The agricultural production machine of claim 4 , wherein the control system is configured to receive a value indicative of a lowest possible rotational speed; and wherein the control system, based on the value indicative of the lowest possible rotational speed, is configured to determine whether the internal combustion engine is being operated at the lowest possible rotational speed. 12. The agricultural production machine of claim 4 , wherein the electric energy supplying system is configured to receive a value indicative of a lowest possible rotational speed as a target value; and wherein the lowest possible rotational speed is used as an idling rotational speed for the agricultural production machine. 13. The agricultural production machine of claim 1 , wherein the control system is configured to: determine that there is no load connected; responsive to determining that there is no load connected, control the internal combustion engine to operate at the designated rotational speed; identify the connecting of the load; and responsive to identifying the connecting of the load, control the electrical auxiliary machine in order for the agricultural production machine to use the electrical auxiliary machine when connecting the load. 14. The agricultural production machine of claim 13 , wherein, responsive to detecting the action being or is to be performed indicative of connecting the load, the control system is configured to control the electrical auxiliary machine to connect to the drivetrain and to keep the internal combustion engine at the designated rotational speed below the idling speed. 15. The agricultural production machine of claim 13 , wherein, responsive to detecting the action being or is to be performed indicative of connecting the load, the control system is configured to control the electrical auxiliary machine to connect to the drivetrain and to keep rotation of the internal combustion engine below the idling speed. 16. The agricultural production machine of claim 1 , wherein the action is detected by monitoring at least a part of a driveshaft of the agricultural production machine. 17. The agricultural production machine of claim 1 , wherein the action is detected by monitoring an engagement of a process drive of the agricultural production machine. 18. The agricultural production machine of claim 1 , wherein the action is detected by monitoring whether a headland sequence is being processed.