Method for controlling a loading process of a transport vehicle with milled material, device for implementing such a method and a milling device

What is claimed is: 1. A method of controlling a loading process of a transport container of a transport vehicle by a milling device during a milling operation, wherein the milling device comprises a conveyor, via which milled material is transported to the transport container during a milling operation of the milling device, and a control unit, comprising the steps: a) detecting the relative position of the transport container in a loading range of the milling device via a sensor device; b) starting the loading process by starting up the conveyor; c) monitoring the relative position of the transport container via the sensor device and controlling the loading process by detecting a discharge path of the milled material discharged from the conveyor into the transport container and at least one of the following steps: regulating a discharge width of the discharge path by regulating the operating speed of the conveyor, by vertical adjustment of the conveyor or by adjusting the position angle of the conveyor; and d) issuing a signal when a predetermined fill level of the transport container is determined or as soon as the sensor device detects the removal of the transport container from loading range for stopping the loading process. 2. The method according to claim 1 , wherein, in step c), the following steps occur: 1) detecting at least one sub-area of the transport container, and determining the fill level in this at least one sub-area of the transport container; 2) storing the fill level detected in step 1 in the at least one sub-area; 3) detecting a further sub-area of the transport container, determining the fill level in said further sub-area, and storing the detected fill level of said further sub-area; 4) determining the total fill level via the data currently determined in step 3) and the latest data stored in step 2); 5) updating the fill levels of already detected sub-areas of the transport container; and 6) determining the degree of filling of the transport container on the basis of the latest fill levels of each of the sub-areas of the transport container. 3. The method according to claim 2 , wherein the step of detecting at least one sub-area comprises detecting a sub-area of an upper edge of the transport container. 4. The method according to claim 1 , wherein the control unit, depending on the degree of loading of the transport container or the distance between the milling device and the transport vehicle, controls a signaling device, which at least gives a respective signal for the commands “Drive forward,” “Stop” and “Depart”. 5. The method according to claim 4 , wherein the control unit controls the signaling device or the transport vehicle depending on alternating detection of a front and a rear upper edge of the transport container. 6. The method according to claim 1 , wherein the control unit controls driving movement of the transport vehicle during the loading operation. 7. The method according to claim 1 , wherein the control unit considers at least one of the following operating parameters of the milling device for controlling the loading process: speed of the milling device during the milling operation; activation of a milling rotor; milling depth of a milling rotor; operating status of the conveyor; delivery speed of a conveyor belt of the conveyor; lateral deflection angle of the conveyor belt; or inclination angle of the conveyor belt. 8. The method according to claim 1 , further comprising the step: regulating a lateral deflection of the discharge path relative to the transport container through lateral displacement of the conveyor. 9. A device for controlling a loading process of a transport container of a transport vehicle by a milling device during a milling operation, wherein the milling device comprises a conveyor via which milled material is transported into the transport container during a milling operation of the milling device, wherein the device comprises: a sensor device configured to detect a relative position of the transport container to the milling device, and in that the device comprises a control unit configured to control the loading process based on the relative position of the transport container to the milling device detected by the sensor device; and a control unit configured to regulate a discharge width of a discharge path of milled material by regulating the operating speed of the conveyor, by vertical adjustment of the conveyor or by adjusting the position angle of the conveyor. 10. The device for controlling a loading process according to claim 9 , wherein the sensor device is designed for detecting at least one sub-area of an upper edge of the transport container. 11. The device for controlling a loading process according to claim 9 , wherein the sensor device comprises a camera device which is designed for detection of 3D information. 12. The device for controlling a loading process according to claim 11 , wherein the camera device comprises an electro-optical device with a sensor camera, a stereo vision camera or a camera with a sensor PMD sensor. 13. The device for controlling a loading process according to claim 9 , wherein the conveyor comprises a conveyor belt and a supporting frame, and that the sensor device is arranged on the support frame. 14. The device according to claim 13 , wherein the sensor device is arranged on an upper end of the support frame. 15. The device for controlling a loading process according to claim 9 , wherein a signaling device operated by the control unit is present, and which is designed for issuing at least the three control functions “Drive forward”, “Stop” and “Depart”. 16. The device for controlling a loading process according to claim 15 , wherein the signaling device for issuing the at least three control functions comprises an optical or acoustic output element. 17. The device for controlling a loading process according to claim 9 , wherein the control unit comprises a memory element in the form of a rolling memory, wherein the memory element is configured for storing the data determined by the sensor device and stores the most recent record with regard to the respective sub-area of the transport container. 18. The device for controlling a loading process according to claim 9 , wherein an actuating device is provided with an actuator which is arranged within the reach of an operator of the milling device, wherein the actuator is designed in such a way that control commands can be entered via the actuator and are transferable via the actuating device to the control unit. 19. A milling machine, comprising a device according to claim 9 . 20. The milling machine according to claim 19 , wherein the milling machine comprises a road milling machine or a device for removal of soil material. 21. A method of controlling a loading process of a transport container of a transport vehicle by a milling device during a milling operation, wherein the milling device comprises a conveyor, via which milled material is transported to the transport container during a milling operation of the milling device, and a control unit, comprising the steps: a) detecting the relative position of the transport container in a loading range of the milling device via a sensor device; b) starting the loading process by starting up the conveyor; c) monitoring the relative position of the transport container via the sensor device; d) automatically controlling the loading process via the control unit; e) regulatin