Force limiting device and method for controlling a force limiting device

The invention claimed is: 1. A load limiting device ( 10 ) for a seat belt to protect an occupant in a vehicle, comprising a controllable braking device ( 16 ) which includes a fluid-filled compartment ( 24 ) having a conduit ( 34 ) through which the fluid ( 23 ) can flow, an element to be decelerated ( 32 ) which is coupled to the seat belt, at least one sensor ( 18 ) for detecting vehicle operating data, a sensor ( 20 ) for detecting a webbing extension, and a controller ( 22 ) for controlling braking power of the braking device ( 16 ) as a function of the vehicle operating data measured and the webbing extension measured, wherein the fluid ( 23 ) is a magnetorheological fluid and a control magnet is provided which is adapted to generate a variable magnetic field inside the conduit ( 34 ) and to vary the viscosity of the magnetorheological fluid inside the conduit ( 34 ), and wherein the controller ( 22 ) adjusts the braking power independently of the weight of the occupant. 2. The load limiting device according to claim 1 , wherein the control magnet is a solenoid ( 38 ) adapted to be switched on or off by the controller ( 22 ) and adapted to generate a variable magnetic field inside the conduit ( 34 ). 3. The load limiting device according to claim 1 , wherein the control magnet is a movable permanent magnet ( 58 ) which can be displaced, as a function of acceleration, relative to the conduit ( 34 ). 4. The load limiting device according to claim 1 , wherein at or in the conduit ( 34 ) a permanent magnet ( 36 , 58 ) is provided, the magnetic field of which extends in the opposite direction or in the same direction relative to the magnetic field of the control magnet. 5. The load limiting device according to claim 1 , wherein the braking device ( 16 ) includes a displacing element ( 26 ) coupled to the element to be decelerated ( 32 ) and forcing the fluid ( 23 ) out of the fluid-filled compartment ( 24 ) during movement of the element to be decelerated ( 32 ). 6. The load limiting device according to claim 5 , wherein the displacing element ( 26 ) is a metal sheet and the element to be decelerated is a shaft onto which the metal sheet is at least one of wound and unwound during movement of the shaft. 7. The load limiting device according to claim 6 , wherein the load limiting device further includes a casing 12 having a compartment ( 14 ) in which the breaking device ( 16 ) is arranged, the metal sheet having one end ( 28 ) fastened to the casing ( 12 ) and a second end ( 30 ) fastened to the shaft. 8. The load limiting device according to claim 5 , wherein the displacing element ( 26 ) is a piston and the element to be decelerated is a plunger at which the piston is retained. 9. The load limiting device according to claim 1 , wherein a displacing element ( 26 ) is provided which is moved by the fluid ( 23 ), the conduit ( 34 ) being formed between an inner wall ( 60 ) of the fluid-filled compartment ( 24 ) and the displacing element ( 26 ). 10. The load limiting device according to claim 1 , wherein additional sensors for detecting vehicle-specific data are provided. 11. The load limiting device according to claim 1 , wherein the at least one sensor ( 18 ) for detecting vehicle operating data includes an acceleration sensor. 12. A method of controlling a load limiting device ( 10 ) for a seat belt to protect an occupant in a vehicle, the method comprises providing a controllable braking device ( 16 ) which includes a fluid-filled compartment ( 24 ) having a conduit ( 24 ) through which the fluid ( 23 ) can flow, the fluid being a magnetorheological fluid, an element to be decelerated ( 32 ) which is coupled to the seat belt, providing at least one sensor ( 18 ) for detecting vehicle operating data, a sensor ( 20 ) for detecting a webbing extension, providing a controller ( 22 ) for controlling braking power of the braking device ( 16 ) as a function of the vehicle operating data and the webbing extension so that the maximum webbing extension and/or the webbing extension rate is/are dependent exclusively on the vehicle operating data and independently of the weight of the occupant, and providing a control magnet which is adapted to generate a variable magnetic field inside the conduit ( 34 ) and to vary the viscosity of the magnetorheological fluid inside the conduit ( 34 ). 13. The method according to claim 12 , wherein the vehicle operating data are acceleration data and the maximum webbing extension and/or the webbing extension rate are determined as a function of the acceleration data. 14. The method according to claim 13 , wherein the acceleration has to exceed a defined limit for the vehicle acceleration which is dependent on vehicle speed or any other vehicle operating data. 15. The load limiting device according to claim 12 , wherein the at least one sensor ( 18 ) for detecting vehicle operating data includes an acceleration sensor.