Nuclear magnetic flowmeter

What is claimed is: 1. A nuclear magnetic flowmeter for measuring the flow rate of a medium flowing through a measuring tube, comprising: a magnetization apparatus for magnetization and for variation of the magnetization of the medium flowing through the measuring tube over a magnetization distance along a longitudinal axis of the measuring tube in a manner producing at least one magnetic field to magnetize the medium, the magnetization apparatus being provided with permanent magnets and having at least two magnetization segments which are located in succession in the direction of the longitudinal axis of the measuring tube and which produce the at least one magnetic field in a single direction and has a magnetic field strength which can be different over the length of the magnetization distance in the medium over the entire distance, and wherein each of the magnetization segments has an inner carrier which is equipped with permanent magnets and an outer carrier which is equipped with permanent magnets, and wherein the inner carrier is located surrounding the measuring tube and the outer carrier is placed surrounding the inner carrier, and wherein the orientation between the inner carrier and the outer carrier is adjustable by rotation of at least one of the inner carrier and the outer carrier around an axis of rotation of the respective segment for variation of the magnetic field strength in the medium and also for variation of the magnetization of the medium. 2. The nuclear magnetic flowmeter in accordance with claim 1 , wherein for each of the magnetization elements, the orientation between the inner carrier and the outer carrier is settable to produce a maximum field strength in the medium and to produce a minimum field strength in the medium. 3. The nuclear magnetic flowmeter in accordance with claim 2 , wherein for at least one of the magnetization segments, there is an actuator for rotation of at least one of the inner carrier and the outer carrier. 4. The nuclear magnetic flowmeter in accordance with claim 3 , wherein for at least one of the magnetization segments at least the orientation between the inner carrier and the outer carrier producing the minimum magnetic field in the medium and the orientation between the inner carrier and the outer carrier with the maximum magnetic field in the medium are adjustable by the actuator. 5. The nuclear magnetic flowmeter in accordance with claim 1 , wherein for at least one of the magnetization segments, the magnetic field of the inner carrier and the magnetic field of the outer carrier are formed such that, at the orientation between the inner carrier and the outer carrier for minimum magnetic field strength n the medium there is essentially no magnetic field in the medium. 6. The nuclear magnetic flowmeter in accordance with claim 1 , wherein for at least one of the magnetization segments, the inner carrier is fixed with reference to the measuring tube and the outer carrier is mounted to turn around the axis of rotation of the segment. 7. The nuclear magnetic flowmeter in accordance with claim 1 , wherein for at least one of the magnetization segments, the inner carrier on each of opposite ends with reference to the direction of the axis of rotation of a segment is connected securely to a respective segment carrier, wherein the outer carrier with the inner carrier forms at least one radial slide bearing, and wherein the outer carrier with the segment carriers forms at least one axial slide bearing. 8. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the at least two magnetization segments comprises at least a third magnetization segment. 9. The nuclear magnetic flowmeter in accordance with claim 8 , wherein the third magnetization segment comprises a first partial segment and of a second partial segment, the two partial segments being spaced apart with gap between the first partial segment and the second partial segment providing an adjustable magnetic resistance. 10. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the permanent magnets are arranged as a Halbach array. 11. The nuclear magnetic flowmeter in accordance with claim 1 , further comprising at least one electromagnet for varying the magnetic field strength in the medium and also for varying the magnetization of the medium, wherein the electromagnet is arranged to produce a magnetic field that is aligned parallel or anti-parallel to the magnetic field of the magnetization produced by the permanent magnets, and wherein the strength of the magnetic field produced by the electromagnet is adjustable. 12. The nuclear magnetic flowmeter in accordance with claim 1 , wherein at least one of the magnetization segments is arranged to be able to move along the longitudinal axis of the measuring tube, and wherein the magnetization of the medium is adjustable by adjusting the location of the magnetization segment along the longitudinal axis of the measuring tube relative to a measurement device. 13. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the magnetization segments have partial magnetization distances of different length. 14. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the strength of the magnetic field produced by the permanent magnets in the medium along any line parallel to the longitudinal axis of the measuring tube is constant over the length of each of the magnetization segments. 15. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the strength of the magnetic field produced by the permanent magnets in the medium along any line parallel to the longitudinal axis of the measuring tube is constant over the magnetization distance. 16. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the magnetic field produced by the permanent magnets in the medium is homogeneous over the length of each of the magnetization segments. 17. The nuclear magnetic flowmeter in accordance with claim 1 , wherein the magnetic field produced by the permanent magnets in the medium is homogeneous over the magnetization distance.