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A tool-free blade change system in one embodiment includes a handle, an arbor bolt including a keyed portion configured to mate with a keyed bore of the handle to restrict rotation of the handle with respect to the arbor bolt, a blade washer defining a plurality of washer teeth which enmesh with the

A tool-free blade change system in one embodiment includes a handle, an arbor bolt including a keyed portion configured to mate with a keyed bore of the handle to restrict rotation of the handle with respect to the arbor bolt, a blade washer defining a plurality of washer teeth which enmesh with the body teeth so as restrict rotation of the handle with respect to the blade washer in one direction while allowing rotation of the handle with respect to the blade washer in another direction, and a biasing member configured to bias the handle downwardly toward the blade washer, wherein the handle is axially movable with respect to the blade washer between a first position whereat the plurality of body teeth are enmeshed with the plurality of washer teeth and a second position whereat the plurality of body teeth are spaced apart from the plurality of washer teeth.

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1. A tool-free blade change system, comprising: a main body including a keyed bore and plurality of body teeth;an arbor bolt including a keyed portion mated with the keyed bore to restrict rotation of the main body with respect to the arbor bolt while allowing for axial movement of the main body wit

1. A tool-free blade change system, comprising: a main body including a keyed bore and plurality of body teeth;an arbor bolt including a keyed portion mated with the keyed bore to restrict rotation of the main body with respect to the arbor bolt while allowing for axial movement of the main body with respect to the arbor bolt such that a first surface of the keyed portion is substantially rotationally fixed with respect to a second surface of the keyed bore;a blade washer defining a plurality of washer teeth configured to enmesh with the plurality of body teeth so as restrict rotation of the main body with respect to the blade washer in a first direction while allowing rotation of the main body with respect to the blade washer in a second direction; anda biasing member configured to bias the main body downwardly toward the blade washer, wherein the main body is axially movable with respect to the blade washer between a first position whereat the plurality of body teeth are enmeshed with the plurality of washer teeth with the mated keyed portion and keyed bore restricting relative motion between the arbor bolt and the main body in both the first direction and the second direction, and a second position whereat the plurality of body teeth are spaced apart from the plurality of washer teeth. 2. The system of claim 1, wherein: the arbor bolt includes a left-hand threaded portion;the plurality of washer teeth each have an angled left side and a substantially vertical right side; andthe plurality of body teeth each have an angled right side and a substantially vertical left side. 3. The system of claim 1, further comprising: a first retaining member operably connected to the arbor bolt and the biasing member, wherein the biasing member is configured to bias the main body and the arbor bolt in opposite directions. 4. The system of claim 3, wherein: the arbor bolt comprises a first groove; andthe first retaining member is partially received within the first groove. 5. The system of claim 4, further comprising a first washer positioned between the first retaining member and the biasing member. 6. The system of claim 3, wherein the main body further comprises: an upwardly facing surface, wherein the biasing member operably contacts the upwardly facing surface. 7. The system of claim 3, further comprising: a second washer positioned at least partially below a lower shoulder of the arbor bolt;a thrust bearing positioned beneath the second washer and in operable contact with the blade washer; anda second retaining member operably connected to the arbor bolt, wherein the second washer and the thrust bearing are positioned between the lower shoulder of the arbor and the second retaining member. 8. The system of claim 7, wherein: the arbor bolt comprises a second groove; andthe second retaining member is partially received within the second groove. 9. The tool-free blade change system of claim 7, wherein the blade washer further comprises: a main body facing side;a blade facing side opposite the main body facing side and located downwardly from the main body facing side; anda well extending downwardly from the main body facing side, the well having a depth which is greater than a maximum height of the plurality of washer teeth, the second retaining member positioned within the well. 10. The system of claim 3, wherein the keyed portion of the arbor bolt comprises a first and a second flat side portion separated by a first and a second round side portion. 11. The tool-free blade change system of claim 1, wherein the main body is configured to transfer rotational force to the arbor bolt through the keyed bore. 12. The tool-free blade change system of claim 11, wherein the keyed portion of the bore has a maximum height along an axis of the bore which is greater than a maximum height of the plurality of teeth of the blade washer along an axis of a bore in the blade washer. 13. The system of claim 1, further comprising a third surface of the keyed portion substantially rotationally fixed with respect to a fourth surface of the keyed bore, wherein: the first surface is a planar surface extending parallel to an axis of the arbor bolt;the second surface is a planar surface extending parallel to the axis of the arbor bolt;the third surface is a planar surface extending parallel to the axis of the arbor bolt;the fourth surface is a planar surface extending parallel to the axis of the arbor bolt;the first surface is in direct opposition to the second surface; andthe third surface is in direct opposition to the fourth surface. 14. A method of operating a tool-free blade change system, comprising: inserting a threaded portion of an arbor bolt through a hole in a blade;inserting the threaded portion of the arbor bolt into a threaded bore in a rotatable shaft;rotating the threaded portion of the arbor bolt within the threaded bore in a first direction by forcing a first surface of a keyed portion of a handle against a second surface of a keyed portion of the arbor bolt, wherein the first surface of the keyed portion is substantially rotationally fixed with respect to the second surface of the keyed bore;forcing a blade washer against the blade by the rotation of the threaded portion of the arbor bolt;rotating at least one of a plurality of teeth of the handle past at least one of a plurality of teeth of the blade washer by the rotation of the threaded portion of the arbor bolt with the first surface of the keyed portion substantially rotationally fixed with respect to the second surface of the keyed bore;biasing the plurality of teeth of the handle into engagement with the plurality of teeth of the blade washer with a biasing member; andrestricting relative motion between the arbor bolt and the handle in both the first direction and a second direction opposite the first direction with the keyed portion of the handle mated with the keyed portion of the arbor bolt with the plurality of teeth of the handle biased into engagement with the plurality of teeth of the blade washer. 15. The method of claim 14, further comprising: moving a substantially vertical portion of each of the plurality of teeth of the handle out of contact with a substantially vertical portion of each of the plurality of teeth of the blade washer by moving the handle upwardly away from blade washer; androtating the threaded portion of the arbor bolt within the threaded bore in a second direction by forcing the keyed portion of the handle against the keyed portion of the arbor bolt, thereby removing the threaded portion of the arbor bolt from the threaded bore. 16. The method of claim 15, wherein moving the handle away from blade washer comprises: compressing the biasing member. 17. The method of claim 16, wherein compressing the biasing member comprises: compressing the biasing member between an upward facing surface of the handle and a first retaining member axially fixed with respect to the arbor bolt. 18. The method of claim 15, further comprising: moving the keyed portion of the handle in parallel to the keyed portion of the of the arbor bolt while moving the substantially vertical portion of each of the plurality of teeth of the handle out of contact with the substantially vertical portion of each of the plurality of teeth of the blade washer. 19. The method of claim 14, wherein forcing the blade washer against the blade by the rotation of the threaded portion of the arbor bolt comprises: forcing a thrust bearing against the blade washer using a lower shoulder of the arbor bolt. 20. The method of claim 14, wherein the keyed portion of the handle has a maximum height along an axis of the handle which is greater than a maximum height of the plurality of teeth of the blade washer along an axis of a bore in the blade washer.