Bearing isolator seal with enhanced rotor drive coupling

We claim: 1. A bearing isolator seal comprising: a rotor surrounding a rotatable shaft, said rotatable shaft being configured to rotate about a rotation axis; a drive retention groove formed in an inward facing surface of the rotor abutting the shaft; a plurality of drive O-rings contained in the drive retention groove and compressed between the shaft and a top of the drive retention groove, the drive O-rings thereby rotationally coupling the rotor to the shaft; and a stator surrounding the shaft and configured to remain stationary when the rotor is rotating, the rotor and stator being configured to inhibit a flow of fluid between them. 2. The bearing isolator seal of claim 1 , wherein a maximum permitted axial movement is at least 0.010 inches. 3. The bearing isolator seal of claim 1 , further comprising a labyrinth passage between the rotor and the stator, the labyrinth passage being configured to expel at least one of fluid and particles from the labyrinth passage by centrifugal force when the rotor is rotating. 4. The bearing isolator seal of claim 1 , further comprising: a shut off retention groove formed in an inward-facing surface of the rotor abutting an extension of the stator; and a shut off O-ring expandably located within the shut off retention groove and configured to rotate with the rotor, the shut off O-ring having an inner diameter that contracts against the stator extension when the rotor is stationary, and expands away from contact with the stator extension when the rotor is rotating. 5. The bearing isolator of claim 1 , wherein the stator extension includes a tapered section that is configured such that interference between the tapered section and the shut off O-ring declines linearly as the rotor moves axially away from the stator. 6. The bearing isolator seal of claim 5 , wherein the tapered section is tapered at an angle of between two degrees and thirty degrees from the rotation axis. 7. The bearing isolator seal of claim 1 , further comprising a unitization feature that is configured to permit separation and combination of the rotor with the stator when sufficient force is applied, while holding the rotor and stator together during assembly of the static seal. 8. The bearing isolator seal of claim 7 , wherein the unitization feature includes a chamfered rotor extension and a chamfered stator extension, the rotor and stator extensions being configured to come into contact with each other when the rotor is shifted axially to a maximum permitted axial misalignment, and to thereby inhibit further axial movement of the rotor. 9. The bearing isolator seal of claim 8 , wherein the unitization feature provides an additional torturous path to further inhibit the flow of fluid between the rotor and the stator.