Automatic slack adjuster with adjusting clutch in control train

What is claimed is: 1. An automatic slack adjuster for a vehicle brake, comprising: a housing configured for coupling to a brake actuator; a driving worm wheel supported by the housing and configured to engage a brake cam shaft of the vehicle brake; a driving worm screw supported by the housing and in mesh with the driving worm wheel, the driving worm screw configured to transfer a brake actuating force, imparted by the brake actuator to the housing, to the driving worm wheel and brake cam shaft; and, a wear adjustment mechanism including a reference arm assembly configured to be fixed against movement and including a control ring gear; a pinion gear in mesh with the control ring gear and configured for rotation about a rotational axis, the pinion gear defining a first angular drive face; a clutch ring disposed about the rotational axis and configured for rotation with the pinion gear, the clutch ring defining a second angular drive face disposed within a common plane with the first angular drive face of the pinion gear and spaced from the first angular drive face of the pinion gear by an angular gap corresponding to a predetermined clearance between a friction lining of the vehicle brake and a friction surface of the vehicle brake; a control worm screw disposed about the rotational axis; a wrap spring engaging surfaces of the clutch ring and control worm screw; and, a control worm wheel in mesh with the control worm screw and configured for rotation with the driving worm screw. 2. The automatic slack adjuster of claim 1 wherein the pinion gear, clutch ring and control worm screw are fixed against movement along the rotational axis. 3. The automatic slack adjuster of claim 1 wherein the wear adjustment mechanism further comprises a fastener extending through the pinion gear, clutch ring and control worm screw, the fastener having a head configured to engage the pinion gear. 4. The automatic slack adjuster of claim 1 wherein the pinion gear defines a first circumferential rib defining the first angular drive face and a third angular drive face at opposite circumferential ends of the first circumferential rib and the clutch ring defines a second circumferential rib defining the second angular drive face and a fourth angular drive face at opposite circumferential ends of the second circumferential rib, the first angular drive face of the first circumferential rib configured to engage the second angular drive face of the second circumferential rib during rotation of the pinion gear in a first rotational direction about the rotational axis and the third angular drive face of the first circumferential rib configured to engage the fourth angular drive face of the second circumferential rib during rotation of the pinion gear in a second rotational direction about the rotational axis, opposite the first rotational direction. 5. The automatic slack adjuster of claim 1 , wherein the wear adjustment mechanism further comprises a torsion spring having a first end coupled to the pinion gear and a second end coupled to the clutch ring. 6. The automatic slack adjuster of claim 1 wherein the surfaces of the clutch ring and control worm screw comprise radially inner surfaces of the clutch ring and control worm screw. 7. The automatic slack adjuster of claim 1 wherein the surfaces of the clutch ring and control worm screw comprise radially outer surfaces of the clutch ring and control worm screw. 8. An automatic slack adjuster for a vehicle brake, comprising: a housing configured for coupling to a brake actuator; a driving worm wheel supported by the housing and configured to engage a brake cam shaft of the vehicle brake; a driving worm screw supported by the housing and in mesh with the driving worm wheel, the driving worm screw configured to transfer a brake actuating force, imparted by the brake actuator to the housing, to the driving worm wheel and brake cam shaft; and, means for adjusting a position of the driving worm wheel to compensate for wear in the vehicle brake. 9. The automatic slack adjuster of claim 8 wherein the adjusting means comprises: a reference arm assembly configured to be fixed against movement and including a control ring gear; a pinion gear in mesh with the control ring gear and configured for rotation about a rotational axis, the pinion gear defining a first angular drive face; a clutch ring disposed about the rotational axis and configured for rotation with the pinion gear, the clutch ring defining a second angular drive face disposed within a common plane with the first angular drive face of the pinion gear and spaced from the first angular drive face of the pinion gear by an angular gap corresponding to a predetermined clearance between a friction lining of the vehicle brake and a friction surface of the vehicle brake; a control worm screw disposed about the rotational axis; a wrap spring engaging surfaces of the clutch ring and control worm screw; and, a control worm wheel in mesh with the control worm screw and configured for rotation with the driving worm screw. 10. The automatic slack adjuster of claim 9 wherein the pinion gear, clutch ring and control worm screw are fixed against movement along the rotational axis. 11. The automatic slack adjuster of claim 9 wherein the adjusting means further comprises a fastener extending through the pinion gear, clutch ring and control worm screw, the fastener having a head configured to engage the pinion gear. 12. The automatic slack adjuster of claim 9 wherein the pinion gear defines a first circumferential rib defining the first angular drive face and a third angular drive face at opposite circumferential ends of the first circumferential rib and the clutch ring defines a second circumferential rib defining the second angular drive face and a fourth angular drive face at opposite circumferential ends of the second circumferential rib, the first angular drive face of the first circumferential rib configured to engage the second angular drive face of the second circumferential rib during rotation of the pinion gear in a first rotational direction about the rotational axis and the third angular drive face of the first circumferential rib configured to engage the fourth angular drive face of the second circumferential rib during rotation of the pinion gear in a second rotational direction about the rotational axis, opposite the first rotational direction. 13. The automatic slack adjuster of claim 9 , wherein the wear adjusting means further comprises a torsion spring having a first end coupled to the pinion gear and a second end coupled to the clutch ring. 14. The automatic slack adjuster of claim 9 wherein the surfaces of the clutch ring and control worm screw comprise radially inner surfaces of the clutch ring and control worm screw. 15. The automatic slack adjuster of claim 9 wherein the surfaces of the clutch ring and control worm screw comprise radially outer surfaces of the clutch ring and control worm screw.