Vehicle sensitive seat belt retractor control with suppressed Z-axis sensitivity

The invention claimed is: 1. A vehicle sensitive seat belt retractor control system for locking a vehicle seat belt retractor in the event of acceleration loads acting on the retractor in a horizontal plane while having a reduced sensitivity to acceleration loads acting in a Z-axis direction, perpendicular to the horizontal plane, the control system engaging with a toothed ratchet wheel rotatable with a spool of the retractor, the control system comprising: a sensor ball, a housing forming a nesting surface for the sensor ball and allowing the sensor ball to move from a normal resting position to a displaced position, the housing nesting surface forming a lower aperture and having an upper restrictor engageable with the sensor ball upon a vertical displacement of the sensor ball, a locking lever pivotable about a pivot, the locking lever having an upper arm and a lower arm, the upper arm forming an engagement finger for causing engagement with the ratchet wheel to arrest rotation of the spool upon a displacement of the locking lever from a disengaged position to an engagement position, the locking lever having a center of gravity positioned relative to the pivot such that the locking lever is biased toward the engagement position with the ratchet wheel, the lower arm forming a center post engageable with a lower surface of the sensor ball and engaging the sensor ball through the housing lower aperture, and whereby the sensor ball is displaceable from the normal resting position to the displaced position in response to acceleration loads acting in the horizontal plane and in the Z-axis direction, the sensor ball engaging the locking lever lower arm center post while in the normal resting position urging the locking lever to remain in the disengaged position, wherein when acceleration loads of a defined direction and magnitude act on the sensor ball, the sensor ball moves to the displaced position, disengaging with the locking lever and allowing the locking lever to rotate to the engagement position in response to the acceleration loads and the upper restrictor restricts the sensor ball from moving to the displaced position and contacting the locking lever in response to acceleration loads acting in the Z-axis direction. 2. The vehicle sensitive retractor control system according to claim 1 wherein the upper restrictor includes an end shaped to urge the sensor ball to move off of the upper restrictor and to contact the locking lever and move it to the engagement position when the vehicle is in an inverted condition. 3. The vehicle sensitive retractor control system according to claim 2 wherein the end has an angled shape. 4. The vehicle sensitive retractor control system according to claim 1 wherein the position of the center of gravity of the locking lever is horizontally displaced from the pivot. 5. The vehicle sensitive retractor control system according to claim 4 wherein the locking lever center of gravity is positioned relative to the pivot on a side of the locking lever opposite the side of the locking lever forming the engagement finger.