Apparatus for detecting bearing shaft wear utilizing rotatable magnet means
First Claim
1. In an apparatus comprising a rotating shaft mounted in a bearing and a stationary housing surrounding said rotating shaft, the improvement comprising a means for detecting wear in said bearing or said shaft including a plurality of magnets mounted about the circumference of said shaft and at least two pairs of coils mounted on said stationary housing surrounding said shaft, the coils being positioned substantially equidistant from each other, each coil being positioned to detect magnetic flux density of said magnets when said shaft rotates, and means for detecting a change in axial position of said rotating shaft independently of speed of shaft rotation by detecting a change in voltage induced in each pair of coils, said means for detecting a change of shaft position independent of shaft rotation speed comprising means for generating a D.C. voltage from each of said coils, means for generating a reference D.C. signal voltage as a function of speed of shaft rotation and means for subtracting said reference D.C. signal voltage from the D.C. voltage generated from each of said pairs of coils.
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Accused Products
Abstract
A device is provided for measuring bearing or shaft wear in an apparatus utilizing a rotating shaft positioned in a bearing. A plurality of magnets are mounted on the rotating shaft and at least three coils forming at least two pairs of coils are mounted on a stationary housing surrounding the shaft. Means are provided for measuring the change in induced voltage for each pair of coils independent of shaft rotation speed, ambient temperature, the flux density of the magnets and the concentricity of the bearing and shaft diameters.
58 Citations
7 Claims
- 1. In an apparatus comprising a rotating shaft mounted in a bearing and a stationary housing surrounding said rotating shaft, the improvement comprising a means for detecting wear in said bearing or said shaft including a plurality of magnets mounted about the circumference of said shaft and at least two pairs of coils mounted on said stationary housing surrounding said shaft, the coils being positioned substantially equidistant from each other, each coil being positioned to detect magnetic flux density of said magnets when said shaft rotates, and means for detecting a change in axial position of said rotating shaft independently of speed of shaft rotation by detecting a change in voltage induced in each pair of coils, said means for detecting a change of shaft position independent of shaft rotation speed comprising means for generating a D.C. voltage from each of said coils, means for generating a reference D.C. signal voltage as a function of speed of shaft rotation and means for subtracting said reference D.C. signal voltage from the D.C. voltage generated from each of said pairs of coils.
- 4. In a sealed pump comprising a rotatable shaft mounted in a bearing, a stationary sealed housing surrounding said rotating shaft, a plurality of inner magnets mounted on said rotatable shaft, a motor driven shell surrounding said housing and a plurality of outer magnets mounted on said shell, the improvement comprising means for detecting wear in said bearing or said shaft including at least two pairs of coils mounted on said stationary housing surrounding said shaft, the coils being positioned to detect magnetic flux density of said inner magnets when said shaft independently of speed of shaft rotation rotates and means for detecting a change in axial position of said rotating shaft by detecting a change in voltage induced in each pair of coils, said means for detecting a change of shaft position independent of shaft rotation speed comprising means for generating a D.C. voltage from each of said coils, means for generating a reference D.C. signal voltage as a function of speed of shaft rotation and means for subtracting said reference D.C. signal voltage from the D.C. voltage generated from each of said pairs of coils.
Specification