Extrusion printheads for three-dimensional object printers

What is claimed: 1. An extrusion printhead comprising: a housing; a chamber within the housing, the chamber having an inlet to receive an extrusion material and a plurality of fluid outlets fluidly coupled to the chamber to enable the extrusion material to flow out of the chamber; a plurality of nozzles fluidly coupled to the plurality of fluid outlets in a one-to-one correspondence, each nozzle having a first end that is fluidly connected to a second end, the first end of each nozzle being fluidly connected to the fluid outlet in the plurality of fluid outlets corresponding to the nozzle to enable the extrusion material received from the fluid outlet in the plurality of fluid outlets corresponding to the nozzle to flow from the first end of the nozzle to the second end of the nozzle, the second end of the nozzle being flush with an exterior surface of the housing; a plurality of valves connected to the plurality of fluid outlets in a one-to-one correspondence, each valve in the plurality of valves being configured to block a flow of the extrusion material from the fluid outlet to the first end of the nozzle corresponding to the fluid outlet in the plurality of fluid outlets and to enable a flow of the extrusion material from the first end of the nozzle to the second end of the nozzle corresponding to the valve in the plurality of valves, each valve in the plurality of valves further comprising: a member oriented to move perpendicular to the flow of extrusion material from the fluid outlet corresponding to the valve to the first end of the nozzle corresponding to the fluid outlet; and an electromechanical actuator configured to move the member to a first position to position the member across the flow of extrusion material from the fluid outlet to the first end of the nozzle corresponding to the valve to block the flow of the extrusion material from the second end of the nozzle corresponding to the valve and to a second position to position the member outside of the flow of extrusion material between the fluid outlet to the first end of the nozzle corresponding to the valve to enable the flow of the extrusion material from the first end of the nozzle to the second end of the nozzle corresponding to the valve; and the extrusion printhead further comprising a planar member positioned on an exterior of the housing, the planar member being configured with a plurality of nozzle openings, each nozzle opening fluidly communicates with the second end of one nozzle in the plurality of nozzles in a one-to-one correspondence to enable the extrusion material at the second end of the nozzle to be emitted from the nozzle opening in the planar member that fluidly communicates with the second end of the one nozzle in the plurality of nozzles to form a thin layer of extrusion material on a surface of the planar member, wherein the planar member is a metallic plate coated with a low surface energy material. 2. The extrusion printhead of claim 1 , the member in each valve further comprising: a metal pin configured to move between the first position and the second position. 3. The extrusion printhead of claim 1 , the plurality of nozzles being arranged in a linear configuration. 4. The extrusion printhead of claim 1 , the plurality of nozzles being arranged in a two-dimensional array. 5. The extrusion printhead of claim 1 , the plurality of nozzles being arranged in a two-dimensional array with the plurality of nozzles being staggered to form a swath in response to the printhead being moved in a linear direction. 6. The extrusion printhead of claim 1 , the plurality of nozzles being arranged in a two-dimensional array where the nozzles are staggered to form a swath in response to movement of the printhead in a first linear direction and in a second linear direction orthogonal to the first direction. 7. The extrusion printhead of claim 1 , each nozzle in the plurality of nozzles having a predetermined diameter and a separation between each nozzle in the plurality of nozzles and any of the other nozzles in the plurality of nozzles on an exterior surface of the extrusion printhead being at least twice the predetermined diameter. 8. The extrusion printhead of claim 1 wherein the member in a first valve in the plurality of valves is located within the chamber and the electromechanical actuator in the first valve is configured to move the member to the first position to block the flow of the extrusion material from the chamber through the fluid outlet corresponding to the first valve in the first position and to move the member to the second position to enable the flow of the extrusion material from the chamber through the fluid outlet corresponding to the first valve in the second position. 9. The extrusion printhead of claim 1 further comprising: a heater operatively connected to the chamber and configured to heat the chamber and extrusion material in the chamber. 10. The extrusion printhead of claim 9 , the electromechanical actuator in each valve being located outside of the chamber to operate at a first temperature that is less than a second temperature of the chamber. 11. The extrusion printhead of claim 1 further comprising: a melter assembly comprising: at least one drive member configured to move the extrusion material in a solid phase into a channel; at least one heater configured to heat the extrusion material in the channel to melt the extrusion material and provide liquefied extrusion material to the inlet of the chamber; and an electric motor operatively connected to the at least one drive member and configured to adjust a rate of movement of the extrusion material in the solid phase through the channel based on a number of valves in the plurality of valves configured with members in the second position to enable the flow of the extrusion material. 12. The extrusion printhead of claim 1 further comprising: a melter assembly comprising: at least one drive member configured to move the extrusion material in a solid phase into a channel; at least one heater configured to heat the extrusion material in the channel to melt the extrusion material and provide liquefied extrusion material to the inlet of the chamber; and an electric motor operatively connected to the at least one drive member and configured to adjust a rate of movement of the extrusion material in the solid phase through the channel based on a predetermined distance between the plurality of nozzles in the printhead and an image receiving surface. 13. The extrusion printhead of claim 1 further comprising: a melter assembly comprising: at least one drive member configured to move the extrusion material in a solid phase into a channel; at least one heater configured to heat the extrusion material in the channel to melt the extrusion material and provide liquefied extrusion material to the inlet of the chamber; and an electric motor operatively connected to the at least one drive member and configured to adjust a rate of movement of the extrusion material in the solid phase through the channel based on a velocity of relative movement between the printhead and an image receiving surface in a process direction. 14. The extrusion printhead of claim 1 further comprising: a melter assembly comprising: at least one drive member configured to move the extrusion material in a solid phase into a channel; at least one heater configured to heat the extrusion material in the channel to melt the extrusion material and provide liquefied extrusion material to the inlet of the chamber; and an electric motor operatively connected to the at least one drive member and configured to