Lifting hoist with hysteresis clutch

The invention claimed is: 1. A hoist for moving loads (L) no greater than a nominal load (Fnom) comprising: a drive train including a motor and a gearing connected to a pulling element on an output side of the gearing for taking up the load (L), the motor being controlled by an inverter and operating at variable speeds in a forward direction and in a reverse direction; a slip clutch arrangement arranged in the drive train, the slip clutch arrangement disposed directly between the motor and an input shaft of the gearing, the slip clutch arrangement operating in the forward and reverse directions; a brake connected to the drive train and operable for holding the load (L) when the brake is in an engaged state; said slip clutch arrangement including a hysteresis clutch comprising permanent magnets that provides an unbranched torque transmitting drive path in said drive train in both the forward and reverse directions; and said slip clutch arrangement having a torque limit (Mgrenz) at which said slip clutch arrangement begins to slip which corresponds to a torque limit (Fgrenz) that is greater than the nominal load (Fnom). 2. The hoist of claim 1 in which said slip clutch arrangement has a symmetrical torque/slippage characteristic with respect to both the forward and reverse directions of the drive train. 3. The hoist of claim 1 in which said hysteresis clutch is arranged between said motor and said gearing such that the permanent magnets rotate in the forward and reverse directions with the motor, a gearing-side clutch half is connected to the input shaft of the gearing, and an adjustable gap exists between said permanent magnets and the gearing-side clutch half. 4. The hoist of claim 1 in which said brake includes at least one spring active in an engagement direction, and a release arrangement that acts against the spring when said spring is activated. 5. The hoist of claim 1 in which said brake is electrically releasable. 6. The hoist of claim 1 in which said drive train is operable for raising and lowering said load (L) depending on a direction of rotation of the motor in the forward or reverse directions while torque is transmitted through the hysteresis clutch, and said brake is releasable when loads (L) are being lifted. 7. The hoist of claim 1 in which said drive train is operable for raising and lowering said load (L) depending on a direction of rotation of the motor in the forward or reverse directions while torque is transmitted through the hysteresis clutch, and said brake is releasable when loads (L) are being lowered. 8. The hoist of claim 1 in which said brake is arranged on a side of said gearing remote from said motor. 9. The hoist of claim 1 in which said brake exhibits a maximum brake torque (Mmax) that corresponds to a torque applied onto the gearing by a load (Fmax) that is greater than a nominal load torque (Mnom) applied onto the gearing by a nominal load (Fnom). 10. The hoist of claim 9 in which said maximum brake torque (Mmax) is at least as great as a sum of the nominal load torque (Mnom) and a driving torque (MAntr), wherein the driving torque (MAntr) is the maximum torque of the motor or the maximum torque that can be transmitted by the slip clutch arrangement to the gearing. 11. The hoist of claim 10 in which said brake is connected to an emergency shutoff control. 12. The hoist of claim 1 in which said slip clutch arrangement has a torque limit (Mgrenz) at which said slip clutch arrangement begins to slip and which corresponds to a load limit (Fgrenz) that is lower than a nominal load (Fnom). 13. The hoist of claim 1 in which said brake is arranged on said drive train on a side of said motor remote from said gearing. 14. The hoist of claim 1 in which said gearing is a non self-locking gearing.