A printhead assembly including one or more nozzles is described that can include a droplet ejection module. In one embodiment, the droplet ejection module includes a liquid supply assembly, a housing and a droplet ejection body. The liquid supply assembly includes a self-contained liquid reservoir a
A printhead assembly including one or more nozzles is described that can include a droplet ejection module. In one embodiment, the droplet ejection module includes a liquid supply assembly, a housing and a droplet ejection body. The liquid supply assembly includes a self-contained liquid reservoir and a liquid outlet. The housing is configured to permanently connect to the liquid supply assembly and includes a liquid channel configured to receive a liquid from the liquid outlet of the liquid supply assembly and to deliver the liquid to a droplet ejection body. The droplet ejection body is permanently connected to the housing and includes one or more liquid inlets configured to receive liquid from the housing and one or more nozzles configured to selectively eject droplets.
대표청구항▼
What is claimed is: 1. A droplet ejection module, comprising: a liquid supply assembly including a self-contained liquid reservoir and a liquid outlet; a housing configured to connect to the liquid supply assembly and including a liquid channel configured to receive a liquid from the liquid outlet
What is claimed is: 1. A droplet ejection module, comprising: a liquid supply assembly including a self-contained liquid reservoir and a liquid outlet; a housing configured to connect to the liquid supply assembly and including a liquid channel configured to receive a liquid from the liquid outlet of the liquid supply assembly and to deliver the liquid to a droplet ejection body; and a droplet ejection body mounted within the housing and including one or more liquid inlets configured to receive the liquid from only the liquid supply assembly directly via the housing and fluidly coupled to one or more nozzles, the droplet ejection body including one or more actuators configured to selectively eject droplets from the one or more nozzles and one or more electrical contacts to receive one or more electrical signals to drive the one or more actuators wherein: the housing is connectable to the liquid supply assembly in a closed first position where the liquid is prevented from exiting the liquid outlet and entering the liquid channel; the housing is connectable to the liquid supply assembly in an open second position where the liquid is not prevented from exiting the liquid outlet and entering the liquid channel; and once the housing is connected to the liquid supply assembly in the closed first position, the housing can only be moved into the open second position and cannot be separated from the liquid supply assembly. 2. The droplet ejection module of claim 1, wherein the liquid supply assembly further comprises: a seal operable to prevent the liquid from exiting the liquid reservoir through the liquid outlet. 3. The droplet ejection module of claim 2, wherein: in the closed first position, the seal prevents the liquid from exiting the liquid outlet and entering the liquid channel; and in the open second position, the seal does not prevent the liquid from exiting the liquid outlet and entering the liquid channel. 4. The droplet ejection module of claim 1, wherein: the housing is configured to connect to the liquid supply assembly in the first and the second positions by a double snap-fit connection. 5. The droplet ejection module of claim 4, wherein the housing further comprises an elongated, pointed member configured to puncture the seal when the housing is connected to the liquid supply assembly in the second position. 6. The droplet ejection module of claim 4, wherein the liquid supply assembly further comprises a spring activated mechanism configured to maintain the seal while the housing is connected to the liquid supply assembly in the first position and release the seal when the housing is connected to the liquid supply assembly in the second position. 7. The droplet ejection module of claim 1, wherein the liquid supply assembly further comprises: a liquid supply housing; and an evacuable chamber formed within the liquid supply housing and coupled to a port for withdrawing fluid from the chamber. 8. The droplet ejection module of claim 7, wherein the liquid reservoir comprises a flexible container adapted to contain the liquid and is positioned within the evacuable chamber in the liquid supply housing. 9. The droplet ejection module of claim 7, further comprising: a flexible circuit electrically connected to the one or more electrical contacts included in the droplet ejection body to provide drive signals controlling droplet ejection from the one or more nozzles, the flexible circuit including a contact face configured to electrically connect to an external circuit providing the drive signals. 10. The droplet ejection module of claim 9, where the port coupled to the evacuable chamber and the contact face of the flexible circuit are configured such that in a single connection to a mounting assembly, the port fluidly connects to an evacuation source and the contact face electrically connects to an external circuit. 11. The droplet ejection module of claim 1, wherein the liquid reservoir comprises a flexible container adapted to contain a liquid. 12. The droplet ejection module of claim 1, wherein the liquid supply assembly further comprises a port fluidly connected to the liquid reservoir and configured to receive the liquid. 13. The droplet ejection module of claim 12, wherein the port is self-sealing. 14. The droplet ejection module of claim 1, wherein the housing and the liquid supply assembly are permanently connected and inseparable once a fluid connection is made between them. 15. A droplet ejection module, comprising: a liquid supply assembly including a self-contained liquid reservoir and a liquid outlet providing a liquid path for a liquid from the liquid supply assembly to a liquid channel formed in a droplet ejection body; a housing configured to: connect to the liquid supply assembly in a closed first position where the liquid is prevented from exiting the liquid outlet and entering the liquid channel; and connect to the liquid supply assembly in an open second position where the liquid is not prevented from exiting the liquid outlet and entering the liquid channel; where once the housing is connected to the liquid supply assembly in the closed first position, the housing can only be moved into the open second position and cannot be separated from the liquid supply assembly; a droplet ejection body permanently mounted within the housing and including a nozzle face having at least one nozzle, the droplet ejection body including one or more liquid inlets configured to receive the liquid only from the liquid supply assembly directly via the housing and fluidly coupled to the at least one nozzle, at least one actuator configured to selectively eject droplets from the at least one nozzle and at least one electrical contact to receive one or more electrical signals to drive the at least one actuator and further including at least one liquid channel; and a flexible circuit attached to the housing and to the nozzle face of the droplet ejection body, where the flexible circuit is electrically connected to the droplet ejection body to provide the one or more electrical signals to the at least one actuator to control liquid ejection from the at least one nozzle. 16. The droplet ejection module of claim 15, the droplet ejection body further comprising: one or more pumping chambers formed in a base substrate, where each pumping chamber includes a receiving end configured to receive a liquid from a liquid supply and an ejected end for ejecting liquid from the pumping chamber. 17. The droplet ejection module of claim 16, the droplet ejection body further comprising: a nozzle plate attached to the base substrate including one or more nozzles formed through the nozzle plate, where each nozzle is in fluid communication with a pumping chamber and receives liquid from the ejected end of the pumping chamber for ejection from the nozzle. 18. The droplet ejection module of claim 17, wherein the at least one actuator included in the droplet ejection body comprises: one or more piezoelectric actuators connected to the nozzle plate, where a piezoelectric actuator is positioned over each pumping chamber and includes a piezoelectric material configured to deflect and pressurize the pumping chamber so as to eject liquid from a corresponding nozzle that is in fluid communication with the ejecting end of the pumping chamber. 19. The droplet ejection module of claim 15, the liquid supply assembly further comprising: a liquid supply housing; and an evacuable chamber formed within the liquid supply housing fluidly coupled to a port for withdrawing a fluid from the chamber; and a bag adapted to contain a liquid, the bag positioned within the evacuable chamber. 20. The droplet ejection module of claim 19, wherein: the flexible circuit further comprises a contact face configured to electrically connect to an external circuit providing the one or more electrical signals; and the port coupled to the chamber and the contact face of the flexible circuit are configured such that in a single connection to a mounting assembly, the port fluidly connects to an evacuation source and the contact face electrically connects to an external circuit. 21. The droplet ejection module of claim 15, wherein the housing is configured to permanently connect to the liquid supply assembly, and they are inseparable once a fluid connection is made between them. 22. The droplet ejection module of claim 15, wherein the liquid channel is formed in a back face of the droplet ejection body.
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