Movement system for moving an object, patient couch and method for operating a movement system

The invention claimed is: 1. A movement system for moving an object, the movement system comprising: a drive comprising a drive shaft; a mechanism that converts an alteration to a rotational angle of the drive shaft into an alteration to a position of the object; a rotational angle sensor operable to detect the alteration to the rotational angle; a reference sensor operable to emit a reference signal when the object enters a predetermined reference volume; a controller configured to communicate with the rotational angle sensor and the reference sensor, the controller being further configured to determine a total rotational angle from alterations to the rotational angle detected according to the reference signal and to activate the drive for rotating the drive shaft by a reference rotational angle determined as a function of a predetermined reference positional value and the total rotational angle; and a calibration sensor operable to emit a calibration signal when the object enters a predetermined calibration volume, wherein the controller is configured to store a current total rotational angle or a value derived therefrom when detecting the calibration signal as calibration information, and wherein the controller is configured to determine the reference rotational angle as a function of the calibration information. 2. The movement system of claim 1 , wherein the reference sensor, the calibration sensor, or the reference sensor and the calibration sensor are each a feeler. 3. The movement system of claim 2 , wherein an actuating element is provided on the object or fixed relative to the object, the actuating element actuating the respective feeler when the object enters the reference volume, when the object enters the calibration volume, or when the object enters the reference volume and when the object enters the calibration volume. 4. The movement system of claim 1 , wherein the alteration to the position of the object is a linear movement between a first predetermined position and a second predetermined position. 5. The movement system of claim 4 , wherein the reference sensor and the calibration sensor are arranged at a distance from one another, the distance being at least half of the distance between the first position and the second position. 6. The movement system of claim 1 , wherein the alteration to the position of the object is a rotation about a predetermined axis between a first angular position and a second angular position. 7. The movement system of claim 6 , wherein the reference sensor and the calibration sensor are arranged at an angular distance from one another, the angular distance being at least half of the angular distance between the first angular position and the second angular position. 8. The movement system of claim 1 , wherein the controller is further configured to: store a predetermined positional value or a predetermined angular value that in each case describes the relative position of the calibration sensor to the reference sensor; and calculate the reference rotational angle, the calibration information, or the reference rotational angle and the calibration information as a function of the positional value, the angular value, or the positional value and the angular value. 9. A patient couch for a medical examination, treatment, or medical examination and treatment device, the patient couch comprising: a movement system for moving an object, the movement system comprising: a drive comprising a drive shaft; a mechanism that converts an alteration to a rotational angle of the drive shaft into an alteration to a position of the object; a rotational angle sensor operable to detect the alteration to the rotational angle; a reference sensor operable to emit a reference signal when the object enters a predetermined reference volume; a controller configured to communicate with the rotational angle sensor and the reference sensor, the controller being further configured to determine a total rotational angle from alterations to the rotational angle detected according to the reference signal and to activate the drive for rotating the drive shaft by a reference rotational angle determined as a function of a predetermined reference positional value and the total rotational angle; and a calibration sensor operable to emit a calibration signal when the object enters a predetermined calibration volume, wherein the controller is configured to store a current total rotational angle or a value derived therefrom when detecting the calibration signal as calibration information, and wherein the controller is configured to determine the reference rotational angle as a function of the calibration information. 10. The patient couch of claim 9 , wherein the reference sensor, the calibration sensor, or the reference sensor and the calibration sensor are each a feeler. 11. The patient couch of claim 10 , wherein an actuating element is provided on the object or fixed relative to the object, the actuating element actuating the respective feeler when the object enters the reference volume, when the object enters the calibration volume, or when the object enters the reference volume and when the object enters the calibration volume. 12. The patient couch of claim 9 , wherein the alteration to the position of the object is a linear movement between a first predetermined position and a second predetermined position. 13. The patient couch of claim 12 , wherein the reference sensor and the calibration sensor are arranged at a distance from one another, the distance being at least half or at least two thirds of the distance between the first position and the second position. 14. The patient couch of claim 9 , wherein the alteration to the position of the object is a rotation about a predetermined axis between a first angular position and a second angular position. 15. The patient couch of claim 14 , wherein the reference sensor and the calibration sensor are arranged at an angular distance from one another, the angular distance being at least half or at least two thirds of the angular distance between the first angular position and the second angular position. 16. The patient couch of claim 9 , wherein the controller is further configured to: store a predetermined positional value or a predetermined angular value that in each case describes the relative position of the calibration sensor to the reference sensor; and calculate the reference rotational angle, the calibration information, or the reference rotational angle and the calibration information as a function of the positional value, the angular value, or the positional value and the angular value. 17. A method for operating a movement system for moving an object, the movement system comprising a drive, the drive comprising a drive shaft, the movement system further comprising a mechanism that converts an alteration to a rotational angle of the drive shaft into an alteration to a position of the object, a rotational angle sensor operable to detect the alteration to the rotational angle, a reference sensor operable to emit a reference signal when the object enters a predetermined reference volume, the movement system further comprising a controller configured to communicate with the rotational angle sensor and the reference sensor, the controller being further configured to determine a total rotational angle from alterations to the rotational angle detected according to the reference signal and to activate the drive for rotating the drive shaft by a reference rotational angle determined as a function of a pr