Damping device for rotary stepping motor
First Claim
1. A damping device for use with a rotary stepping motor, said device comprising an inertial mass having a central axis and a central opening concentric with said axis, an inner member with an opening concentric with said central axis of said inertial mass and adapted for attachment to the output shaft of a stepping motor, said inner member being located within said central opening of said inertial mass and being of smaller external diameter than the internal diameter of said central opening so as to define an annular space between said inertial mass and said inner member, a pair of seals located respectively at opposite ends of said annular space, said pair of seals permitting rotary motion of said inertial mass relative to said inner member about said central axis and closing said opposite ends of said annular space to define a closed annular chamber, and a plurality of rolling elements positioned in said closed annular chamber and providing a rolling bearing support for said inertial mass from said inner member permitting said inertial mass to rotate relative to said inner member about said central axis, and a quantity of viscous material received in said annular chamber and filling the space thereof not occupied by said rolling elements.
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Accused Products
Abstract
A vibration damper for a rotary stepping motor consists of an inertial mass connectible to the shaft of the motor through a viscous coupling comprising a standard rolling element bearing unit filled with a high viscosity material such as a silicone compound.
28 Citations
13 Claims
- 1. A damping device for use with a rotary stepping motor, said device comprising an inertial mass having a central axis and a central opening concentric with said axis, an inner member with an opening concentric with said central axis of said inertial mass and adapted for attachment to the output shaft of a stepping motor, said inner member being located within said central opening of said inertial mass and being of smaller external diameter than the internal diameter of said central opening so as to define an annular space between said inertial mass and said inner member, a pair of seals located respectively at opposite ends of said annular space, said pair of seals permitting rotary motion of said inertial mass relative to said inner member about said central axis and closing said opposite ends of said annular space to define a closed annular chamber, and a plurality of rolling elements positioned in said closed annular chamber and providing a rolling bearing support for said inertial mass from said inner member permitting said inertial mass to rotate relative to said inner member about said central axis, and a quantity of viscous material received in said annular chamber and filling the space thereof not occupied by said rolling elements.
- 6. A damping device for use with a rotary stepping motor, said device comprising an inertial mass having a central axis and an opening concentric with said axis, a rolling element bearing unit received in said opening, said bearing unit having an outer race fixed to said inertial mass, an inner race with an opening concentric with said central axis of said inertial mass and adapted for attachment to the output shaft of a stepping motor, said inner race having an external diameter smaller than the internal diameter of said outer race so as to define an annular space between said races, a pair of seals at the opposite ends of said races closing said annular space to convert it into a closed annular chamber and a plurality of rolling elements positioned in said annular chamber between said inner and outer races, and a quantity of silicone material received in said annular chamber and occupying the spaces which exist between said inner and outer races and between the individual ones of said rolling elements of said rolling element bearing unit.
- 8. The combination comprising a rotary stepping motor having an output shaft and a damping device attached to said output shaft, said damping device comprising an inertial mass having a central axis and an opening concentric with said axis, a rolling element bearing unit received in said opening of said inertial mass, said bearing unit including an outer race fixed to said inertial mass, an inner race with an opening concentric with said central axis of said inertial mass and fixedly receiving said output shaft of said stepping motor, said inner race having an external diameter smaller than the internal diameter of said outer race so as to define an annular space between said races, a pair of seals at the opposite ends of said races closing said annular space to convert it into a closed annular chamber and a plurality of rolling elements positioned in said annular chamber between said inner and outer races, and a quantity of viscous material received in said annular chamber and occupying the spaces which exist between said inner and outer races and between the individual ones of said plurality of rolling bearing elements.
Specification