Method for determining a financial amount for a logistical performance in a production system, and production system comprising a vehicle for carrying out the method

The invention claimed is: 1. A method, comprising: transmitting an item of order information to a vehicle of a production system, the vehicle including a secondary winding, a position-determination system, a force sensor, and a torque sensor, the force sensor adapted to detect a mass of a component accommodated and transported by the vehicle, the force sensor being arranged between an accommodation device of the vehicle and the rest of the vehicle, the accommodation device adapted to accommodate the component, the torque sensor adapted to detecting torque of a drive of the vehicle, the torque sensor being in operative connection with the force sensor, the production system includes a primary conductor installed in a floor of the production system and along a travel path of the vehicle, the primary conductor inductively coupled with the secondary winding and inductively supplying electrical energy to the vehicle; transporting the vehicle and the component that is accommodated in the accommodation device to workstations of the production system in sequence according to the order information, the vehicle traveling a distance during the transporting; performing a respective production-method step at a corresponding workstation on the component that is accommodated and transported by the vehicle; detecting a value of the mass of the component accommodated and transported by the vehicle by the force sensor detecting the mass of the component or based on the torque sensor detecting the torque of the drive of the vehicle; determining a logistical performance from the detected value and as a function of a product of the value of the mass of the component and a value of the distance traveled by the vehicle during the transporting; transmitting the determined logistical performance via an Internet connection to a server; and determining, by the server, a value based on the determined logistical performance. 2. The method according to claim 1 , wherein the item of order information includes an item of driving order information. 3. The method according to claim 1 , wherein the server is arranged at a position that is geographically located at a distance from the production system. 4. The method according to claim 1 , wherein the value determined by the server includes a financial value. 5. The method according to claim 1 , wherein the value determined by the server is determined in accordance with a number, a type, and/or a position of the workstations of the production system and/or driving paths of the vehicle of the production system. 6. The method according to claim 1 , wherein, if the production system is changed and/or expanded, corresponding information relating to a changed and/or expanded number, type and/or position of the workstations of the production system and/or the driving paths is transmitted to the server, the server determining the value based on the corresponding information. 7. The method according to claim 1 , wherein electrical energy inductively transmitted to the vehicle is determined and taken into account at least as a part of the logistical performance. 8. The method according to claim 1 , wherein the value of the distance traveled by the vehicle during the transporting is determined from a time characteristic of detected position values of the vehicle. 9. The method according to claim 1 , wherein the production system is adapted to perform the method. 10. The method according to claim 1 , wherein the primary conductor inductively supplies electrical energy to the vehicle to charge an energy storage device of the vehicle. 11. The method according to claim 1 , wherein electrical energy is supplied to a drive of the vehicle, a controller of the vehicle, and/or a drive of a robot arm of the vehicle from an energy storage device of the vehicle during a time that the vehicle is outside of a space region the primary conductor, and the primary conductor inductively supplies electrical energy to the vehicle to charge the energy storage device of the vehicle at a time that the vehicle is inside of the space region of the primary conductor. 12. The method according to claim 9 , wherein the primary conductor inductively supplies electrical energy to the vehicle to charge an energy storage device of the vehicle. 13. The method according to claim 9 , wherein electrical energy is supplied to a drive of the vehicle, a controller of the vehicle, and/or a drive of a robot arm of the vehicle from an energy storage device of the vehicle during a time that the vehicle is outside of a space region the primary conductor, and the primary conductor inductively supplies electrical energy to the vehicle to charge the energy storage device of the vehicle at a time that the vehicle is inside of the space region of the primary conductor. 14. A production system, comprising: a vehicle including: a secondary winding; a position-determination system; a force sensor adapted to detect a mass of a component accommodated and transported by the vehicle, the force sensor being arranged between an accommodation device of the vehicle and the rest of the vehicle, the accommodation device adapted to accommodate the component; and a torque sensor adapted to determine torque of a drive of the vehicle, the torque sensor being in operative connection with the force sensor; and a primary conductor installed in a floor of the production system and along a travel path of the vehicle, the primary conductor inductively coupled with the secondary winding an adapted to inductively supply electrical energy to the vehicle; wherein the production system is adapted to perform a method including: transmitting an item of order information to the vehicle of the production system; transporting the vehicle and the component that is accommodated in the accommodation device to workstations of the production system in sequence according to the order information, the vehicle traveling a distance during the transporting; performing a respective production-method step at a corresponding workstation on the component that is accommodated and transported by the vehicle; detecting a value of the mass of the component accommodated and transported by the vehicle by the force sensor detecting the mass of the component or based on the torque sensor detecting the torque of the drive of the vehicle; determining a logistical performance from the detected value and as a function of a product of the value of the mass of the component and a value of the distance traveled by the vehicle during the transporting; transmitting the determined logistical performance via an Internet connection to a server; and determining, by the server, a value based on the determined logistical performance. 15. The production system according to claim 14 , wherein the primary conductor is adapted to inductively supply electrical energy to the vehicle to charge an energy storage device of the vehicle. 16. The production system according to claim 14 , wherein an energy storage device of the vehicle is adapted to supply electrical energy to a drive of the vehicle, a controller of the vehicle, and/or a drive of a robot arm of the vehicle during a time that the vehicle is outside of a space region the primary conductor, and the primary conductor is adapted to inductively supply electrical energy to the vehicle to charge the energy storage device of the vehicle at a time that the vehicle is inside of the space region of the primary conductor.