Adjustment mechanism and adjustment device comprising such adjustment mechanism

The invention claimed is: 1. An adjustment mechanism for an adjustment device, the adjustment mechanism comprising: a main worm gear wheel held in an injection molded plastic housing for rotation relative to each other about a main axis of the main worm gear wheel, the main worm gear wheel being provided with a hollow central axial passage and the housing being provided with at least one opening that is axially aligned with the central axial passage to allow a shaft to extend via the opening through the housing into the central axial passage and to be in supporting engagement with the main worm gear wheel; and a main worm having at least one circumferential spiral tooth in intermeshing arrangement with teeth on the circumference of the main worm gear wheel, the main worm being held in the housing for rotation about a main axis of the main worm, and being arranged to be driven to rotation relative to the housing about the main axis of the main worm via a drive train powered by an electric motor held in the housing, wherein a number of stiffeners is provided between the housing and at least one of the main worm gear wheel and the main worm to lock the intermeshing arrangement of the teeth under torque that is applied between the main worm gear wheel and the housing external to the drive train, and wherein the stiffeners limit rotation of the housing relative to the main gear wheel under a moment of 5 Nm applied between the housing and the main gear wheel when the drive is not in operation to less than 3°. 2. The adjustment mechanism according to claim 1 , wherein at least some of the number of stiffeners are provided between the housing and the main worm to limit at least one of axial movement, transverse movement, or rotational movement of the main worm under torque that is applied between the main worm gear wheel and the housing external to the drive train. 3. The adjustment mechanism according to claim 2 , wherein at least some of the stiffeners are provided between the housing and the main worm to limit axial, transverse, and rotational movement of the main worm under torque that is applied between the main worm gear wheel and the housing external to the drive train. 4. The adjustment mechanism according to claim 2 , wherein the stiffeners include one or more plates provided in the housing, the one or more plates limiting movement of the main worm in opposite directions along the main axis. 5. The adjustment mechanism according to claim 2 , wherein the stiffeners include at least one slot provided in the housing, the slot limiting movement of at least one of the main worm and any element of the drive train in a direction transverse to the main axis of the main worm. 6. The adjustment mechanism according to claim 2 , wherein the stiffeners include an intermediate gear set element held in the housing and included in the drive train between the electric motor that powers the drive train and the main worm gear wheel, the intermediate gear set element including a first gear on a side of the electric motor intermeshing with a second gear on a side of the main worm, the driving efficiency between the gears being less than 50% when the second gear drives the first gear so as to limit rotational movement of the main worm under torque that is applied between the main worm gear wheel and the housing external to the drive train. 7. The adjustment mechanism according to claim 1 , wherein the housing includes a base and a cover. 8. The adjustment mechanism according to claim 7 , wherein the main worm gear wheel and the main worm have been mounted to the base by insertion in an insertion direction that is transverse to a bottom plane of the base. 9. The adjustment mechanism according to claim 7 , wherein the stiffeners comprise a strut that extends from one of the base and the cover, and that is held in the other of the base and the cover. 10. The adjustment mechanism according to claim 7 , wherein the stiffeners include a bonded connection between the base and the cover. 11. The adjustment mechanism according to claim 10 , wherein the bonded connection is formed as a weld. 12. The adjustment mechanism according to claim 1 , wherein the stiffeners comprise a strut to limit radial outward movement of the main axis of the main worm relative to the main axis of the main worm gear wheel. 13. The adjustment mechanism according to claim 1 , wherein one or more stiffeners of the number of stiffeners are provided between the housing and the main worm gear wheel to limit axial and transverse movement of the main worm gear wheel relative to the main axis under torque that is applied between the main worm gear wheel and the housing external to the drive train. 14. The adjustment mechanism according to claim 13 , wherein the stiffeners include surface for the main worm gear wheel. 15. The adjustment mechanism according to claim 14 , wherein the stiffeners include a local radial bearing support at an inner portion of a mantle surface of the main worm gear wheel at a location on the circumference of the main worm gear wheel where teeth of the main worm gear wheel are in intermeshing arrangement with the circumferential spiral tooth of the main worm, so as to limit local radial inward movement of the mantle surface. 16. An adjustment device, comprising an adjustment mechanism according to claim 1 and the shaft, wherein the main worm gear wheel is in supporting engagement with the shaft, wherein the shaft extends via the opening through the housing into the central axial passage so as to be rotatable relative to the housing. 17. An adjustment mechanism for an adjustment device, the adjustment mechanism comprising: a main worm gear wheel held in an injection molded plastic housing for rotation relative to each other about a main axis of the main worm gear wheel, the main worm gear wheel being provided with a hollow central axial passage and the housing being provided with at least one opening that is axially aligned with the central axial passage to allow a shaft to extend via the opening through the housing into the central axial passage and to be in supporting engagement with the main worm gear wheel; and a main worm having at least one circumferential spiral tooth in intermeshing arrangement with teeth on the circumference of the main worm gear wheel, the main worm being held in the housing for rotation about a main axis of the main worm, and being arranged to be driven to rotation relative to the housing about the main axis of the main worm via a drive train powered by an electric motor held in the housing, wherein a number of stiffeners is provided between the housing and at least one of the main worm gear wheel and the main worm to lock the intermeshing arrangement of the teeth under torque that is applied between the main worm gear wheel and the housing external to the drive train, and wherein the at least some of the stiffeners include an intermediate gear set element held in the housing and included in the drivetrain between the electric motor that powers the drive train and the main worm gear wheel, the intermediate gear set element including a first gear on a side of the motor intermeshing with a second gear on a side of the main worm, the driving efficiency between the gears being less than 50% when the second gear drives the first gear so as to limit rotational movement of the main worm under torque that is applied between the main worm gear wheel and the housing external to the drive train. 18. An adjustment device, comprising an adjustment mechanism according to claim 17 and the s