Selectively deployable rotatable edge guide to support a cutting tool during a sharpening operation

What is claimed is: 1. A tool sharpener for sharpening a cutting tool, the tool sharpener comprising: an abrasive medium having an abrasive surface; a stationary tool support guide adjacent a first edge of the abrasive medium having a side guide surface extending along a guide plane at a selected angle with respect to the abrasive surface to engage, via sliding contact, a side of the tool during presentation of a cutting edge of the tool against the abrasive surface; and a rotatable edge guide adjacent an opposing, second edge of the abrasive medium so that the abrasive medium extends between the rotatable edge guide and the stationary tool support guide, the rotatable edge guide comprising a roller member having a curvilinearly extending outer surface rotatable about an edge guide roller axis, the roller member moveable between a deployed position and a retracted position, the deployed position of the rotatable edge guide configured to facilitate contacting support of a proximal end of the cutting edge of the tool by the curvilinearly extending outer surface of the roller member adjacent the second edge of the abrasive medium during concurrent support of the side of the tool by the stationary tool support guide adjacent a distal end of the cutting tool adjacent the first edge of the abrasive medium to sharpen the cutting edge, the retracted position of the rotatable edge guide configured to place the curvilinearly extending outer surface of the roller member in a non-contacting, clearing relation with respect to the tool during support of the side of the tool by the stationary tool support guide adjacent the distal end of the cutting tool adjacent the first edge of the abrasive member to sharpen the cutting edge. 2. The tool sharpener of claim 1 , wherein the curvilinear extending outer surface is a first overall distance from the stationary tool support guide in the deployed position and a second overall distance greater than the first overall distance from the stationary tool support guide in the retracted position. 3. The tool sharpener of claim 1 , wherein the edge guide roller axis intersects the guide plane at a first angle in the deployed position and a second angle less than the first angle in the retracted position. 4. The tool sharpener of claim 1 , wherein the rotatable edge guide further comprises a central body which supports the roller member, the central body rotatable with respect to the stationary tool support guide between the deployed position and the retracted position about an edge guide central axis. 5. The tool sharpener of claim 4 , wherein the edge guide central axis is orthogonal to the edge guide roller axis. 6. The tool sharpener of claim 4 , wherein the edge guide central axis is parallel to the edge guide roller axis. 7. The tool sharpener of claim 4 , further comprising a base structure which supports the rotatable edge guide, the base structure having a cam surface along which a cam member of the central body contactingly slides as the central body rotates about the edge guide central axis. 8. The tool sharpener of claim 1 , further comprising a biasing member which applies a biasing force upon the roller member to respectively retain the roller member in the deployed position and in the retracted position. 9. The tool sharpener of claim 1 , wherein the curvilinearly extending outer surface is a cylindrical surface. 10. The tool sharpener of claim 1 , further comprising a base structure which supports the rotatable edge guide, the base structure having a first locking surface to contactingly engage the rotatable edge guide to retain the roller member in the deployed position and a second locking surface to contactingly engage the rotatable edge guide to retain the roller member in the retracted position. 11. The tool sharpener of claim 1 , further comprising a biasing member which applies a biasing force to the rotatable edge guide to nominally urge the rotatable edge guide to the deployed position, wherein the rotatable edge guide is further deflectable to a deflected contact position between the deployed position and the retracted position by applying a deflection force to the roller member that overcomes the biasing force, wherein the deflected contact position is arranged to contactingly engage the cutting edge of the tool during said presentation. 12. The tool sharpener of claim 1 , wherein the roller member is formed of a compliant material to provide a desired level of friction between the roller member and the cutting edge to facilitate rotational movement of the roller during retraction of the tool. 13. The tool sharpener of claim 1 , wherein the stationary tool support guide further comprises a stationary edge guide configured to contactingly engage the cutting edge of the tool during said support of the side of the tool by the stationary tool support guide adjacent the distal end of the cutting tool adjacent the first edge of the abrasive member to sharpen the cutting edge. 14. The tool sharpener of claim 1 , wherein the abrasive medium comprises an endless abrasive belt routed about at least one belt roller along a belt path that passes adjacent the stationary tool support guide, wherein the at least one belt roller rotates about a belt roller axis, and wherein the edge guide roller axis is orthogonal to the belt roller axis in the deployed position. 15. The tool sharpener of claim 1 , wherein the abrasive medium comprises an abrasive disk which rotates about a disk rotational axis, wherein the edge guide roller axis is parallel to the disk rotational axis in the deployed position. 16. A tool sharpener for sharpening a tool, the tool sharpener comprising: a base structure which encloses an electric motor; an abrasive medium supported by the base structure and adapted for rotational movement responsive to the electric motor, the abrasive medium having an abrasive surface extending along a neutral plane; a stationary tool support guide having a guide surface extending along a guide plane at a selected angle with respect to the neutral plane to engage, via sliding contact, a side of the tool during presentation of a cutting edge of the tool against the abrasive surface, the stationary tool support guide disposed adjacent a first edge of the abrasive medium; and a rotatable edge guide disposed adjacent an opposing, second edge of the abrasive medium so that the abrasive medium is disposed between the rotatable edge guide and the stationary tool support guide, the rotatable edge guide comprising a roller member having a curvilinearly extending outer surface rotatable about an edge guide roller axis, the rotatable edge guide further rotatable about an edge guide central axis between a deployed position and a retracted position, wherein in the deployed position the roller member is a first distance from the guide surface to facilitate contacting support of a proximal end of the cutting edge of the tool by the curvilinearly extending outer surface of the roller member adjacent the second edge of the abrasive medium during concurrent support of the side of the tool by the stationary tool support guide adjacent a distal end of the cutting tool adjacent the first edge of the abrasive medium to sharpen the cutting edge, and wherein in the retracted position the roller member is a second distance from the guide surface greater than the first distance to place the curvilinearly extending outer surface of the roller member in a non-contacting, clearing relation with respect to the tool during support of the side of the tool by the stationary tool support guide adjacent the distal end