Spool assembly with locking mechanism for additive manufacturing system, and methods of use thereof

The invention claimed is: 1. A method for loading a spool assembly to an additive manufacturing system, the method comprising: providing a spool assembly comprising a rotatable spool with a filament supply thereon and having a locking mechanism configured to engage with the spool to prevent rotation of the spool during transport or storage of the spool assembly; engaging the locking mechanism with the spool to prevent rotation of the spool; inserting the spool assembly into a bay of the additive manufacturing system such that the locking mechanism disengages from the spool to allow the spool to rotate within the spool assembly; and feeding the filament to a print head retained by the additive manufacturing system by rotating spool after the locking mechanism is disengaged from the spool while the spool is in the bay of the additive manufacturing system. 2. The method of claim 1 , and further comprising encasing the spool in a sealed sheath wherein the locking mechanism engages the spool through the sealed sheath to prevent rotation of the spool. 3. The method of claim 1 , and further comprising engaging the locking mechanism with a surface of the bay when inserting the spool assembly into the bay such that the engagement of the locking mechanism with the surface displaces the locking mechanism from the spool in a hands-free manner. 4. The method of claim 1 , and further comprising providing a handle having a handle slot configured for slidably coupling the locking mechanism to the handle. 5. The method of claim 1 , and further comprising: removing the spool assembly from the bay of the additive manufacturing system; and operably re-engaging the locking mechanism with the spool of the removed spool assembly. 6. The method of claim 1 , wherein the spool comprises a shaft extending along an axis of rotation of the spool and a flange extending from the shaft, the flange comprising a plurality of indentations or openings extending radially around the flange, and wherein disengaging the locking mechanism from the spool comprises operably disengaging a portion of the locking mechanism from the one indentation or opening. 7. The method of claim 2 , wherein the sealed sheath provides a moisture barrier to the encased spool. 8. The method of claim 4 , wherein inserting the spool assembly into the bay slides the locking mechanism within the handle slot to disengage the locking mechanism from the spool allowing the spool to rotate for feeding the filament to the print head when the spool is inserted into the bay. 9. A method for loading a spool assembly to an additive manufacturing system, the method comprising: providing a spool assembly comprising a spool retaining a filament, wherein the spool is retained within a sealed sheath that defines a barrier for the retained spool; engaging the spool with a locking mechanism of the spool assembly to prevent rotation of the spool assembly; inserting the spool assembly into a bay of the additive manufacturing system; engaging the locking mechanism with a member within the bay while inserting the spool assembly into the bay; and displacing the contacted locking mechanism through engagement with the member located within the bay while inserting the spool assembly into the bay to disengage to the locking mechanism from the spool; and feeding filament from the spool to a print head retained by the additive manufacturing system by rotating the spool within the sealed sheath after the locking mechanism is disengaged from the spool. 10. The method of claim 9 , wherein the locking mechanism operably engages the spool through the sealed sheath. 11. The method of claim 9 , wherein the sealed sheath provides a moisture barrier to the encased spool. 12. The method of claim 9 , and further comprising feeding the filament from the spool to the print head through a flexible tube that has a first end disposed within the sealed sheath and a second end coupled to the extrusion head, wherein the moisture barrier of the sealed sheath remains intact during the feeding step. 13. The method of claim 9 , and further comprising: removing the spool assembly from the bay of the additive manufacturing system; and operably re-engaging the locking mechanism with the spool of the removed spool assembly. 14. The method of claim 9 , wherein the spool comprises a shaft extending along an axis of rotation of the spool and a flange extending from the shaft, the flange comprising a plurality of indentations or openings extending radially around the flange, and wherein disengaging the locking mechanism from the spool comprises operably disengaging a portion of the locking mechanism from one or more of the plurality of indentations or openings. 15. The method of claim 14 , wherein operably disengaging the portion of the locking mechanism from one of the plurality of indentations or openings comprises disengaging the portion of the locking mechanism from a flexure tab, which disengages the flexure tab from the one indentation or opening. 16. A method for loading a spool assembly to an additive manufacturing system, the method comprising: providing a spool assembly comprising a spool retaining a filament, wherein the spool is retained within a sealed sheath of the spool assembly that defines a barrier for the retained spool; engaging the spool with a locking mechanism of the spool assembly to prevent the spool from rotating in the sealed sheath; inserting the spool assembly into a bay of the additive manufacturing system, which disengages the locking mechanism in a hands-free manner; removing the spool assembly from the bay of the additive manufacturing system; and operably re-engaging the locking arm with the spool of the removed spool assembly. 17. The method of claim 16 , and further comprising engaging the locking mechanism with one or more surfaces in the bay when inserting the spool assembly into the bay such that surfaces displace the locking mechanism for automatically disengaging the locking mechanism from the spool in the hands-free manner. 18. The method of claim 17 , wherein the spool comprises a shaft extending along an axis of rotation of the spool and a flange extending from the shaft, the flange comprising a plurality of indentations or openings extending radially around the flange, and wherein disengaging the locking mechanism from the spool comprises operably disengaging a portion of the locking mechanism from the one indentation or opening. 19. The method of claim 18 , wherein operably disengaging the portion of the locking mechanism from one of the plurality of indentations or openings comprises disengaging the portion of the locking mechanism from a flexure tab, which disengages the flexure tab from the one indentation or opening.