A head assembly for an extrusion-based 3D printer includes: a fluid-dispensing head having a manifold and at least two fluid-dispensing nozzles, of different sizes, which are mounted in communication with a melt chamber in a manifold. Outlets of each nozzle are closed by respective valve members. A
A head assembly for an extrusion-based 3D printer includes: a fluid-dispensing head having a manifold and at least two fluid-dispensing nozzles, of different sizes, which are mounted in communication with a melt chamber in a manifold. Outlets of each nozzle are closed by respective valve members. A rocker serves both to pivot the nozzles to their lowermost nozzle-operating position and to actuate the valve members, for ready switching between the valves, such that the smaller nozzle can be used for high resolution work, and the larger nozzle can be used for bulk infill.
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1. A printer head assembly, comprising: a support for coupling the printer head assembly to a 3D printer; anda fluid-dispensing head including a manifold,first and second nozzles mounted to the manifold, each of the first and second nozzles having an outlet and a respective valve member opening and
1. A printer head assembly, comprising: a support for coupling the printer head assembly to a 3D printer; anda fluid-dispensing head including a manifold,first and second nozzles mounted to the manifold, each of the first and second nozzles having an outlet and a respective valve member opening and closing the respective outlet, wherein, when the outlet of a nozzle is open, the respective nozzle may dispense a flowable material from the manifold onto a substrate,a rocker oscillating the fluid-dispensing head about a rocker axis and moving each of the first and second nozzles to and from respective nozzle-operating positions, wherein, when one of the first and second nozzles is in its respective operating position, the outlet of the nozzle that is in the nozzle-operating position is open for dispensing the flowable material,with one of the first and second nozzles in its nozzle-operating position, the outlet of the other of the first and second nozzles is closed and disposed farther from the substrate than the outlet of the one of the first and second nozzles that is in its nozzle-operating position, andthe rocker includes at least one cam surface for engaging a respective fixture, located on the support, and, upon engagement with the fixture, displacing the rocker and moving the fluid-dispensing head, andfirst and second abutments abutting and engaging respective valve members for opening and closing the outlets of each of the first and second nozzles when a respective nozzle is in its nozzle-operating position, andan actuator controlling angular position of the rocker. 2. The printer head assembly of claim 1 further comprising a pivot coupling the fluid-dispensing head to the support, wherein the fluid-dispensing head pivots to move the first and second nozzles to and from their respective nozzle-operating positions, andthe first and second nozzles have different sizes and are in fluid communication with each other. 3. The printer head assembly of claim 2 including first and second fixtures located on the support, wherein the at least one cam surface comprises first and second cam surfaces respectively engaging the first and second fixtures, such that engagement of the first cam surface and the first fixture pivots the fluid-dispensing head in a first direction, and engagement of the second cam surface and the second fixture pivots the fluid-dispensing head in a second direction, opposite the first direction. 4. The printer head assembly of claim 3, wherein the first and second cam surfaces are external surfaces of the rocker,the rocker includes circumferentially elongated slots, andthe first and second abutments include surfaces disposed at ends of the circumferentially elongated slots in the rocker. 5. The printer head assembly of claim 2, wherein the pivot includes at least one passage in communication with the manifold. 6. The printer head assembly of claim 5, wherein the manifold includes a heating element, and the at least one passage passes a filament of the flowable material. 7. The printer head assembly of claim 5 further comprising: a mounting member to which the actuator is mounted, wherein the pivot is fixed to the manifold and to the mounting member so that the mounting member oscillates with the manifold, anda neck in the pivot and located adjacent the manifold, wherein the neck provides a thermal bridge thermally separating the manifold from the mounting member. 8. The printer head assembly of claim 1, wherein the valve members comprise needles that are retractable from the outlets. 9. The printer head assembly of claim 8, wherein the first and second abutments engage respective needles for opening the outlets, and including respective springs cooperating with the respective needles for closing the outlets. 10. The printer head assembly of claim 2, wherein the pivot has a pivot axis and the pivot axis lies in a central plane substantially symmetrically bisecting the manifold, andthe first and second nozzles are respectively disposed on opposing sides of the central plane. 11. The printer head assembly of claim 10 wherein the rocker has a rocker axis and the rocker axis is substantially parallel to the pivot axis and lies in the central plane. 12. The printer head assembly of claim 1, wherein the printer head assembly further comprises a fan mounted to the support for directing a cooling air flow adjacent the first and second nozzles. 13. The printer head assembly of claim 12, wherein the fan and the manifold are disposed on opposite sides of the printer head assembly. 14. A 3D printer having the printer head assembly of claim 1, wherein the support includes an aperture for receiving a rail along which the printer head is reciprocated linearly. 15. The printer head assembly of claim 3, wherein the first and second cam surfaces are external surfaces of the rocker,the external surfaces of the rocker include lobes, andthe first and second abutments include surfaces on the lobes on the rocker.
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이 특허에 인용된 특허 (4)
Crump S. Scott (Minnetonka MN), Apparatus and method for creating three-dimensional objects.
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