Self-adjusting clutch reaction plate

What is claimed is: 1. In an automatic adjustment mechanism ( 20 ) for axially changing a positional relationship between a clutch pack ( 14 ) including an array of interposed members having facing surfaces and a clutch actuation mechanism, wherein the automatic adjustment mechanism ( 20 ) decreases an axial dimension between adjacent members of the array to compensate for wear of the facing surfaces that occurs when repeatedly engaged and disengaged under a clutch apply load within a self-adjusting clutch ( 10 ), the clutch ( 10 ) for transmitting power using frictionally engaging members of the clutch pack ( 14 ) for securing and releasing driving continuity between a driving shaft ( 44 ) and a driven shaft ( 46 ), wherein the driving shaft ( 44 ) and driven shaft ( 46 ) are rotatable about a common axis and support the array of interposed members having facing surfaces spaced along the common axis and co-axial with the driving and driven shafts ( 44 , 46 ), where some members of the array are constrained to rotate with one of the driving and driven shafts ( 44 , 46 ) and other members of the array are constrained to rotate with the other of the driving and driven shafts ( 44 , 46 ) while being movable along the common axis, the clutch actuation mechanism for moving the members toward one another for mutual engagement of the facing surfaces of the members when the clutch ( 10 ) is engaged, the improvement comprising: a reaction plate ( 12 ) normally biased toward the clutch pack ( 14 ); and a plurality of pawls ( 24 ) supported for rotation by the reaction plate ( 12 ) for acting against a ring member ( 36 ) located coaxial with the common axis and radially adjacent to the reaction plate ( 12 ), the plurality of pawls ( 24 ) normally biased toward a locking position against the ring member ( 36 ) to prevent axial movement of the reaction plate ( 12 ) along the common axis in a direction of the clutch apply load, while being movable into a released position with respect to the ring member ( 36 ) to allow axial movement of the reaction plate ( 12 ) along the common axis in a direction opposite from the clutch apply load in response to removal of the clutch apply load to compensate for any axial dimension wear of the array of interposed members located within the clutch pack ( 14 ), thereby providing automatic adjustment of the length of the clutch pack ( 14 ) along the common axis. 2. The improvement of claim 1 further comprising: a plurality of first springs ( 22 ) normally biasing the reaction plate ( 12 ) toward the clutch pack ( 14 ); a plurality of second springs ( 26 ) normally biasing the plurality of pawls ( 24 ) toward the locking position preventing axial movement of the reaction plate ( 12 ) in the direction of the clutch apply load; and a separation spring located in the clutch pack with a positive spring separation force having a higher magnitude than a spring load applied to the reaction plate ( 12 ) by the plurality of first springs ( 22 ). 3. The improvement of claim 2 , wherein the plurality of pawls ( 24 ) are disposed at circumferentially spaced locations around the reaction plate ( 12 ), and wherein the plurality of first springs ( 22 ) are disposed at circumferentially spaced locations around the reaction plate ( 12 ) and interposed between circumferentially adjacent pawls ( 24 ). 4. The improvement of claim 2 , wherein the self-adjusting clutch ( 10 ) further comprises a back plate ( 28 ) including a back plate housing ( 30 ) having an inner wall ( 34 ) and an outer wall ( 35 ), a bearing sleeve ( 32 ) located within the inner wall ( 34 ) of the back plate ( 28 ), and wherein the ring member ( 36 ) is radially located between the inner wall ( 34 ) and the reaction plate ( 12 ), the back plate housing ( 30 ) for receiving the reaction plate ( 12 ) located between the inner wall ( 34 ) and the outer wall ( 35 ). 5. The improvement of claim 1 further comprising: an electromagnetic clutch actuator ( 50 ). 6. The improvement of claim 1 , wherein the self-adjusting clutch ( 10 ) is a wet clutch. 7. The improvement of claim 1 further comprising: the plurality of pawls ( 24 ) having a plurality of cam surfaces ( 40 ); and the reaction plate ( 12 ) having a plurality of surfaces ( 16 ) providing clearance for rotation of the plurality of pawls ( 24 ) with respect to the reaction plate ( 12 ), the plurality of cam surfaces ( 40 ) rotatable to be engageable with the ring member ( 36 ). 8. In an automatic adjustment mechanism ( 20 ) for axially changing a positional relationship between a clutch pack ( 14 ) including an array of interposed members having facing surfaces and a clutch actuation mechanism, wherein the automatic adjustment mechanism ( 20 ) decreases an axial dimension between adjacent members of the array to compensate for wear of the facing surfaces that occurs when repeatedly engaged and disengaged under a clutch apply load within a self-adjusting clutch ( 10 ), the clutch ( 10 ) for transmitting power using frictionally engaging members of the clutch pack ( 14 ) for securing and releasing driving continuity between a driving shaft ( 44 ) and a driven shaft ( 46 ), wherein the driving shaft ( 44 ) and driven shaft ( 46 ) are rotatable about a common axis and support the array of interposed members having facing surfaces spaced along the common axis and co-axial with the driving and driven shafts ( 44 , 46 ), where some members of the array are constrained to rotate with one of the driving and driven shafts ( 44 , ( 46 ), and other members of the array are constrained to rotate with the other of the driving and driven shafts ( 44 , 46 ) while being movable along the common axis, the clutch actuation mechanism for moving the members toward one another for mutual engagement of the facing surfaces of the members when the clutch ( 10 ) is engaged, the improvement comprising: a reaction plate ( 12 ) supported for movement axially toward and away from the clutch pack ( 14 ); a plurality of first springs ( 22 ) biasing the reaction plate ( 12 ) toward the clutch pack ( 14 ); a plurality of pawls ( 24 ) supported by the reaction plate ( 12 ) for rotation between a locking position and a released position, the plurality of pawls ( 24 ) when in the locking position preventing axial movement of the reaction plate ( 12 ) along the common axis in a direction of the clutch apply load and when in the released position allowing axial movement of the reaction plate ( 12 ) along the common axis in a direction opposite from the clutch apply load to compensate for any axial dimension wear of the interposed members located within the clutch pack ( 14 ), thereby providing automatic adjustment of the length of the clutch pack ( 14 ) along the common axis; a plurality of second springs ( 26 ) biasing the plurality of pawls ( 24 ) toward the locking position; and a separation spring located in the clutch pack with a positive spring separation force having a higher magnitude than a spring load applied to the reaction plate ( 12 ) by the plurality of first springs ( 22 ). 9. The improvement of claim 8 , wherein the self-adjusting clutch ( 10 ) further comprises a back plate ( 28 ) including a back plate housing ( 30 ) having an inner wall ( 34 ) and an outer wall ( 35 ), a bearing sleeve ( 32 ) located within the inner wall ( 34 ) of the back plate ( 28 ), and a ring member ( 36 ) axially engageable between the inner wall ( 34 ) and the reaction plate ( 12 ), the back plate housing ( 30 ) for receiving the reaction plate ( 12 ) between the inner wall ( 34 ) and the outer wall ( 35 ). 10. The improvement of claim 8 further comprising: an electromagnetic clutch actuator ( 50 ). 11. The improve