3D printer with a plurality of partitioned chambers

The invention claimed is: 1 . A 3D printer comprising: a gantry configured to move in a substantially horizontal x-y plane and in a substantially vertical z-direction substantially normal to the substantially horizontal x-y plane; at least one print head carried by the gantry, the at least one print head comprising an extrusion nozzle at a bottom end; a print head chamber containing the at least one print head and the gantry; a plurality of partitioned chambers accessible by the at least one print head, each of the partitioned chambers having an upper edge defining an opening into a cavity in each of the plurality of partitioned, chambers, wherein a lower first one of the plurality of chambers comprises a plurality of walls having first surface defining a heated build chamber and wherein a second surface of one of the plurality of walls defines a portion of an upper second chamber, wherein the upper second chamber is configured to service a print head prior to or after use in the build chamber; the print head chamber above all of the plurality of chambers; and a platen within the heated build chamber of the plurality of chambers, the platen configured to receive material from the print head to print the 3D part; wherein the gantry is positioned above each of the plurality of partitioned chambers such that the at least one print head is configured to be moved between each of the plurality of partitioned chambers by raising the print head in the substantially vertical z-direction substantially normal to the substantially horizontal x-y plane such that the extrusion nozzle is above the upper edge of the upper second chamber, moving the at least one print head in the substantially horizontal x-y plane from a first location above the heated build chamber of the plurality of partitioned, chambers to a second location above the second chamber of the plurality of partitioned chambers and lowering the at least one print head in the substantially vertical z-direction into a cavity of the second chamber such that at least one print head can be serviced prior to being used to print at least a portion of a 3D part in the heated build chamber. 2 . The 3D printer of claim 1 , wherein the build chamber is configured to be is actively heated. 3 . The 3D printer of claim 1 , wherein the second chamber comprises a calibration chamber having a sensor configured to determine a x,y, z position of the nozzle on the print head. 4 . The 3D printer of claim 3 , wherein the second chamber of the plurality of chambers is configured to clean a nozzle of the at least one print head or provide a volume to purge the at least one print head to reach a condition to print the 3D part. 5 . The 3D printer of claim 1 , and further comprising a thermal barrier above the plurality of chambers, wherein the thermal barrier provides the at least one print head access to each of the plurality of partitioned chambers. 6 . The 3D printer of claim 5 , wherein the thermal barrier comprises: a first strap extending between opposing sides of the thermal barrier and having a first free edge; and a second strap extending between the opposing sides of the thermal barrier and having a second free edge that overlaps with the first free edge to form a slit though which the bottom end of the at least one print head is inserted to each of the plurality of partitioned chambers through the slit. 7 . The 3D printer of claim 2 , wherein the gantry comprises a local z-direction linear motor configured to move the at least one print head substantially vertically. 8 . The 3D printer of claim 2 , wherein the gantry comprises: an x-direction linear motor; and a y-direction linear motor, wherein the x-direction linear motor and the y-direction linear motor are configured to move the at least one print head in the x-y plane. 9 . A 3D printer comprising: a gantry configured to move in a substantially horizontal x-y plane and in a substantially vertical z-direction substantially normal to the plane; at least one print head carried by the gantry, the at least one print head comprising an extrusion nozzle at a bottom end; a print head chamber containing the at least one print head and the gantry; a plurality of partitioned chambers accessible by the at least one print head, each of the partitioned chambers having an upper edge defining an opening to a cavity in each of the plurality of chambers, wherein a first chamber comprises a plurality of walls having first surfaces defining a first heated lower build chamber and a second upper chamber located external to the first chamber wherein a second surface of one of the plurality of walls defines a portion of the second chamber, wherein the second chamber is configured to service the at least one print head; a print head chamber above all of the plurality of chambers; and a thermal barrier spanning the plurality of partitioned chambers and located above the upper edges of the plurality of partitioned chambers, wherein the at least one print head is configured to access each of the plurality of partitioned chambers through the thermal barrier; wherein the gantry is positioned above each of the plurality of partitioned chambers such that the at least one print head is configured to be moved between each of the plurality of partitioned chambers by raising the print head in the substantially vertical z-direction substantially normal to the substantially horizontal x-y plane such that the extrusion nozzle is above the thermal barrier and the upper edge of the second chamber, moving the print head in the substantially horizontal x-y plane from a first location above the second chamber configured to service the at least one print head to a second location above the heated build chamber of the plurality of partitioned chambers and lowering the at least one print head in the substantially vertical z-direction into a cavity of the heated build chamber through the thermal barrier such that at least a portion of a 3D part can be printed in a layerwise manner. 10 . The 3D printer of claim 9 , wherein the heated build chamber includes a build platen for receiving material from the at least one print head. 11 . The 3D printer of claim 9 , wherein the second chamber of the plurality of partitioned chambers comprises a calibration chamber having a sensor configured to determine a x,y, z position of the extrusion nozzle on the at least one print head. 12 . The 3D printer of claim 11 , wherein the second chamber of the plurality of chambers is configured to clean a nozzle of the at least one print head or provide a volume to purge the at least one print head to reach a condition to print the 3D part. 13 . The 3D printer of claim 9 , wherein the thermal barrier comprises: a first strap extending between opposing sides of the thermal barrier and having a first free edge; and a second strap extending between the opposing sides of the thermal barrier and having a second free edge that overlaps with the first free edge to form a slit though which the bottom end of the at least one print head is inserted to each of the plurality of partitioned chambers through the slit. 14 . The 3D printer of claim 9 , wherein the gantry comprises a local z-direction linear motor configured to move the at least one print head substantially vertically. 15 . The 3D printer of claim 9 , wherein the gantry comprises: an x-direction linear motor; and a y-direction linear motor, wherein the x-direction linear motor and the y-direction linear motor are configured to move the at least one print head in the x-y plane. 16 .