Drive arrangement for a unison ring of a variable-vane assembly

What is claimed is: 1. A variable-vane assembly for a turbocharger, comprising: a nozzle ring having opposite first and second faces; a plurality of vanes adjacent the second face of the nozzle ring and having respective axles received into apertures in the nozzle ring and being rotatable in the apertures such that the vanes are rotatable about respective vane axes defined by the axles in the apertures, a distal end of each axle projecting out from the respective aperture beyond the first face; a plurality of vane arms respectively affixed rigidly to the distal ends of the axles, each vane arm having a free end; a unison ring positioned adjacent the nozzle ring with a first face of the unison ring opposing the first face of the nozzle ring, the unison ring being connected to the free ends of the vane arms, the unison ring being rotatable about a rotation axis so as to pivot the vane arms about the vane axes, thereby pivoting the vanes in unison; and a crank mechanism for rotatably driving the unison ring to pivot the vanes, the crank mechanism including an external crank assembly positioned radially outward of the unison ring, a non-round drive block disposed in a correspondingly shaped non-round recess in an outer periphery of the unison ring such that the drive block is prevented from rotating relative to the unison ring, and a crank arm having a forked end connected to the drive block and an opposite end connected to the external crank assembly, the forked end defining two legs spaced apart in a direction parallel to the rotation axis of the unison ring, the drive block being disposed between the legs and being pivotally connected to the legs such that the drive block is pivotable relative to the crank arm about a pivot axis that is generally parallel to the rotation axis of the unison ring, the crank mechanism being arranged such that the crank arm is caused to swing through an arc of movement about an axis located at the opposite end of the crank arm, thereby rotating the unison ring. 2. The variable-vane assembly of claim 1 , wherein the unison ring, the vane arms, and the crank arm are all substantially co-planar. 3. The variable-vane assembly of claim 1 , wherein the drive block and the recess are configured such that the drive block is slidable in the recess in a radial direction of the unison ring, such that the drive block is able to undergo radial movement with respect to the unison ring as the crank arm swings through the arc of movement. 4. The variable-vane assembly of claim 1 , wherein two protrusions respectively extend from two opposite faces of the drive block, and each of the legs of the forked end is affixed to a respective one of the protrusions. 5. The variable-vane assembly of claim 4 , wherein the protrusions comprise opposite ends of a pin that extends through a bore in the drive block. 6. The variable-vane assembly of claim 5 , wherein the opposite ends of the pin are rigidly affixed to the legs of the forked end, and the pin includes a cylindrical portion residing in the bore in the drive block, the pin being rotatable relative to the drive block about an axis of the bore. 7. The variable-vane assembly of claim 1 , wherein the first face of the nozzle ring includes a machined pocket to accommodate one of the legs of the forked end of the crank arm.