Wire spool rotation resistance adjusters and wire feed assemblies having adjustable wire spool rotation resistance

What is claimed is: 1. A wire spool hub assembly, comprising: a spindle configured to hold a wire spool; a spool rotation resistor positioned to resist rotation of the wire spool on the spindle; and a resistance adjuster, comprising: a spring positioned between a compressive surface and a spool hub and configured to bias the spool hub toward the spool rotation resistor, the spool hub configured to carry the wire spool on the spindle; and a cam lever coupled to the spindle to adjust the compression of the spring, wherein the resistance adjuster is configured to selectively apply two or more rotation resistances via the spool rotation resistor based on two or more discrete positions of the resistance adjuster by adjusting, via the cam lever, the compression of the spring between a first compression force in the first discrete position and a second compression force in the second discrete position. 2. The wire spool hub assembly as defined in claim 1 , wherein the cam lever is configured to control the compression of the spring by adjusting a position of the compressive surface via the spindle. 3. The wire spool hub assembly as defined in claim 1 , wherein the spool rotation resistor is configured to apply a friction to the spool hub. 4. The wire spool hub assembly as defined in claim 1 , wherein the first rotation resistance is configured for a first type of wire material, and the second rotation resistance is configured for a second type of wire material. 5. The wire spool hub assembly as defined in claim 1 , further comprising a spool support configured to attach the wire spool hub to a support surface, wherein: the spindle extends through the spool support, and the resistance adjuster is on an opposite side of the spool support from the wire spool, the spool rotation resistor, and a compressive surface. 6. The wire spool hub assembly as defined in claim 5 , wherein the resistance adjuster is configured to provide mechanical advantage, using the spool support, to change between the first discrete position and the second discrete position. 7. The wire spool hub assembly as defined in claim 1 , wherein the resistance adjuster is configured to apply a first rotation resistance on the spool hub via a compressive surface and the spool rotation resistor when the resistance adjuster is in a first discrete position and to apply a second rotation resistance on the spool hub via the compressive surface and the spool rotation resistor when the resistance adjuster is in a second discrete position. 8. The wire spool hub assembly as defined in claim 7 , wherein the resistance adjuster is configured to apply a third rotation resistance on the spool hub via the compressive surface and the spool rotation resistor when the resistance adjuster is in a third discrete position. 9. The wire spool hub assembly as defined in claim 1 , further comprising a removable cap configured to be attached to the spindle, the removable cap comprising a compressive surface. 10. The wire spool hub assembly as defined in claim 1 , wherein a position of a compressive surface along a length of the spindle is adjustable to adjust the two or more rotation resistances at corresponding ones of the two or more discrete positions of the resistance adjuster. 11. A wire feed assembly, comprising: a wire drive assembly; a wire spool support configured to support a wire spool; and a wire spool hub assembly on the wire spool support, comprising: a spindle configured to hold a wire spool; a spool rotation resistor positioned on the spindle and configured to resist rotation of the wire spool on the spindle; and a resistance adjuster configured to selectively apply two or more rotation resistances via the spool rotation resistor based on two or more discrete positions of the resistance adjuster, wherein the resistance adjuster comprises a spring positioned between a compressive surface and a spool hub and configured to bias the spool hub toward the spool rotation resistor, the spool hub configured to carry the wire spool on the spindle, the resistance adjuster further comprises a cam lever coupled to the spindle to adjust the compression of the spring between a first compression force in the first discrete position and a second compression force in the second discrete position. 12. The wire feed assembly as defined in claim 11 , wherein the wire drive assembly is configured to pull wire from the wire spool, and the spool rotation resistor is configured to stop the rotation of the wire spool when the wire drive assembly stops feeding the wire. 13. The wire feed assembly as defined in claim 11 , wherein the cam lever is configured to control the compression of the spring by adjusting a position of the compressive surface via the spindle. 14. The wire feed assembly as defined in claim 11 , wherein the spool rotation resistor is configured to apply a friction to the spool hub.