Grinders with friction drives

The invention claimed is: 1. A grinder comprising: an arbor configured to rotate about a first axis, the arbor being configured to support a grinding wheel for rotation therewith; a gear surrounding a first portion of the arbor and having a slip fit with the first portion of arbor; a motor configured to supply rotation to a drive train including the gear; a collar surrounding a second portion of the arbor and having an interference fit with the second portion of the arbor such that the collar is constrained for rotation with the arbor about the first axis; at least one spring disposed between the gear and the collar, the at least one spring configured to exert a biasing force along the first axis such that one or more resulting friction forces cause the arbor to rotate with the gear when a torque exerted on the gear is less than a threshold torque; and a spindle lock hub surrounding a third portion of the arbor, the spindle lock hub being constrained for rotation with the arbor about the first axis, the first portion of the arbor being located between the second and third portions of the arbor. 2. The grinder of claim 1 , wherein the arbor is configured to rotate independently of the gear when the torque exerted on the gear is equal to or greater than the threshold torque. 3. The grinder of claim 2 , wherein the threshold torque is set to be equal to or less than a torque required to damage the gear. 4. The grinder of claim 1 , wherein the at least one spring comprises a plurality of disc springs, each of the plurality of disc springs surrounding a portion of the arbor between the first and second portions of the arbor. 5. The grinder of claim 4 , wherein the one or more resulting friction forces comprise: a friction force between the gear and one of the plurality of disc springs that contacts the gear; and a friction force between the collar and one of the plurality of disc springs that contacts the collar. 6. The grinder of claim 1 , wherein the gear contacts the spindle lock hub and the one or more resulting friction forces comprise a friction force between the gear and the spindle lock hub. 7. The grinder of claim 6 , wherein the gear and the spindle lock hub are formed of dissimilar materials. 8. The grinder of claim 1 , further comprising a thrust washer surrounding a fourth portion of the arbor, the fourth portion of the arbor being located between the first and third portions of the arbor, the thrust washer contacting both the gear and the spindle lock hub. 9. The grinder of claim 8 , wherein the one or more resulting friction forces comprise: a friction force between the thrust washer and the gear; and a friction force between the thrust washer and the spindle lock hub. 10. The grinder of claim 9 , wherein: the gear and the thrust washer are formed of dissimilar materials; and the spindle lock hub and the thrust washer are formed of dissimilar materials. 11. The grinder of claim 10 , wherein: the gear and the spindle lock hub are formed of alloy steel; and the thrust washer is formed of bronze. 12. A grinder further comprising: an arbor configured to rotate about a first axis, the arbor being configured to support a grinding wheel for rotation therewith; a gear surrounding a first portion of the arbor and having a slip fit with the first portion of arbor; a motor configured to supply rotation to a drive train including the gear; a collar surrounding a second portion of the arbor and having an interference fit with the second portion of the arbor such that the collar is constrained for rotation with the arbor about the first axis; at least one spring disposed between the gear and the collar, the at least one spring configured to exert a biasing force along the first axis such that one or more resulting friction forces cause the arbor to rotate with the gear when a torque exerted on the gear is less than a threshold torque; a bearing configured to support the arbor during rotation, the bearing comprising (i) an inner race coupled to the arbor, (ii) an outer race coupled to a housing of the grinder, and (iii) one or more balls disposed between the inner and outer races; and a thrust washer surrounding a third portion of the arbor, the first portion of the arbor being located between the second and third portions of the arbor, the thrust washer contacting both the gear and the inner race of the bearing. 13. A grinder comprising: an arbor configured to rotate about a first axis, the arbor being configured to support a grinding wheel for rotation therewith; a gear surrounding a first portion of the arbor and having a slip fit with the first portion of arbor; a motor configured to supply rotation to a drive train including the gear, the motor including a rotor configured to rotate about a second axis when a flow of compressed air is supplied to the motor; a collar surrounding a second portion of the arbor and having an interference fit with the second portion of the arbor such that the collar is constrained for rotation with the arbor about the first axis; and at least one spring disposed between the gear and the collar, the at least one spring configured to exert a biasing force along the first axis such that one or more resulting friction forces cause the arbor to rotate with the gear when a torque exerted on the gear is less than a threshold torque, wherein at least a portion of the arbor is disposed in a cooling chamber configured to receive at least a portion of the air supplied to the motor and at least a portion of the gear is disposed in the cooling chamber. 14. The grinder of claim 13 , further comprising: a spindle lock hub surrounding a third portion of the arbor, the first portion of the arbor being located between the second and third portions of the arbor, the spindle lock hub being constrained for rotation with the arbor about the first axis; and a thrust washer surrounding a fourth portion of the arbor, the fourth portion of the arbor being located between the first and third portions of the arbor, the thrust washer contacting both the gear and the spindle lock hub; wherein the spindle lock hub and the thrust washer are each disposed in the cooling chamber. 15. The grinder of claim 13 , wherein the second axis is non-parallel to the first axis. 16. The grinder of claim 15 , wherein: the gear surrounding the first portion of the arbor is a first bevel gear; and the drive train further includes a second bevel gear that meshes with the first bevel gear, the second bevel gear being configured to rotate about the second axis.