Claims
- 1. In a vehicular power assist steering system wherein a pair of relatively rotatable hydraulic elements are connected between a driver manipulated steering shaft and a steering gear, the hydraulic elements being adapted to generate hydraulic flow for producing power assist steering force in relation to their relative rotation such that driver steering effort applied to the steering shaft produces a corresponding level of power assist steering force, apparatus for varying the driver steering effort required to produce a given power assist steering force, the apparatus comprising:
- an annular stationary coil disposed within a stationary flux conducting element in proximity to said hydraulic elements;
- a cylindrical radially magnetized permanent magnet ring connected for rotation with one of said pair of hydraulic elements;
- outer and inner cylindrical magnetic flux conducting elements disposed in radial opposition about said permanent magnet ring to define outer and inner magnetic flux paths which, together with said stationary flux conducting element, couple said permanent magnet ring to said stationary coil, the inner and outer magnetic flux conducting elements each having a given number of teeth extending radially toward said permanent magnet ring, defining inner and outer magnetic air gaps between the permanent magnet ring and the inner and outer flux conducting elements, respectively, the inner air gap having a radial dimension which is larger than that of the outer air gap so as to compensate for asymmetry inherent in said radial opposition; and
- coupling means for mutually coupling the inner and outer magnetic flux conducting elements for rotation with the other of said pair of hydraulic elements so that magnetic forces tending to center the permanent magnet ring within said inner and outer flux conducting elements also tend to center said pair of hydraulic elements.
- 2. In a vehicular power assist steering system wherein a pair of relatively rotatable hydraulic elements are connected between a driver manipulated steering shaft and a steering gear, the hydraulic elements being adapted to generate hydraulic flow for producing power assist steering force in relation to their relative rotation such that driver steering effort applied to the steering shaft produces a corresponding level of power assist steering force, apparatus for varying the driver steering effort required to produce a given power assist steering force, the apparatus comprising:
- an annular stationary coil disposed within a stationary flux conducting element in proximity to said hydraulic elements;
- a cylindrical radially magnetized permanent magnet ring connected for rotation with one of said pair of hydraulic elements;
- outer and inner cylindrical magnetic flux conducting elements disposed in radial opposition about said permanent magnet ring to define outer and inner magnetic flux paths which, together with said stationary flux conducting element, couple said permanent magnet ring to said stationary coil, the inner and outer magnetic flux conducting elements each having a given number of teeth extending radially toward said permanent magnet ring, defining inner and outer magnetic air gaps between the permanent magnet ring and the inner and outer flux conducting elements, respectively, the teeth of the outer flux conducting element being rounded relative to the teeth of said inner flux conducting element to effectively increase the outer magnetic air gap, thereby to compensate for asymmetry inherent in said radial opposition; and
- coupling means for mutually coupling the inner and outer magnetic flux conducting elements for rotation with the other of said pair of hydraulic elements so that magnetic forces tending to center the permanent magnet ring within said inner and outer flux conducting elements also tend to center said pair of hydraulic elements.
- 3. In a vehicular power assist steering system wherein a pair of relatively rotatable hydraulic elements are connected between a driver manipulated steering shaft and a steering gear, the hydraulic elements being adapted to generate hydraulic flow for producing power assist steering force in relation to their relative rotation such that driver steering effort applied to the steering shaft produces a corresponding level of power assist steering force, apparatus for varying the driver steering effort required to produce a given power assist steering force, the apparatus comprising:
- an annular stationary coil disposed within a stationary flux conducting element in proximity to said hydraulic elements;
- a cylindrical radially magnetized permanent magnet ring supported on a rotary hub connected for rotation with one of said pair of hydraulic elements;
- outer and inner cylindrical magnetic flux conducting elements disposed in radial opposition about said permanent magnet ring to define outer and inner magnetic flux paths which, together with said stationary flux conducting element, couple said permanent magnet ring to said stationary coil; and
- coupling means including a nonmagnetic ring element mutually coupling the inner and outer magnetic flux conducting elements for rotation with the other of said pair of hydraulic elements so that magnetic forces tending to center the permanent magnet ring within said inner and outer flux conducting elements also tend to center said pair of hydraulic elements, said permanent magnet extending from said rotary hub into a recess formed on said nonmagnetic ring element to mitigate axial asymmetry between said permanent magnet ring and said magnetic flux conducting elements.
Parent Case Info
This is a continuation-in-part of U.S. Ser. No. 07/392,164, filed Aug. 10, 1989, now abandoned.
US Referenced Citations (11)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
392164 |
Aug 1989 |
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