Ink printing with drop separation
First Claim
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1. An ink ejecting printhead comprising:
- a substrate having an ink-emitting nozzle bore with a rim;
a heater on the substrate surrounding the rim of the nozzle bore;
an ink supply communicating with the nozzle bore to supply ink, whose surface tension decreases inversely with its temperature, to the nozzle bore under positive pressure relative to ambient pressure to form a meniscus which protrudes above the nozzle rim at a point where the force of surface tension which tends to hold the drop in, balances the force of the ink pressure, which tends to push the drop out;
an electrical power supply connected to the heater; and
a power supply control for regulating the power supplied to the heater to provide an electrical pulse of sufficient amplitude and duration to heat the ink adjacent to the heater to lower surface tension of the ink in order to cause the meniscus to move further out of the nozzle bore and subsequently to further heat the ink to a temperature greater than its boiling point, thereby causing separation of ink from the nozzle bore.
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Abstract
A liquid ink, drop on demand page-width print-head comprises a semiconductor substrate, a plurality of drop-emitter nozzles fabricated on the substrate; an ink supply manifold coupled to the nozzles; pressure means for subjecting ink in the manifold to a pressure above ambient pressure causing a meniscus to form in each nozzle; a means for applying heat to the perimeter of the meniscus in predetermined selectively addressed nozzles; and a means for combined selection and ejection of drops from the selectively addressed nozzles.
421 Citations
5 Claims
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1. An ink ejecting printhead comprising:
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a substrate having an ink-emitting nozzle bore with a rim; a heater on the substrate surrounding the rim of the nozzle bore; an ink supply communicating with the nozzle bore to supply ink, whose surface tension decreases inversely with its temperature, to the nozzle bore under positive pressure relative to ambient pressure to form a meniscus which protrudes above the nozzle rim at a point where the force of surface tension which tends to hold the drop in, balances the force of the ink pressure, which tends to push the drop out; an electrical power supply connected to the heater; and a power supply control for regulating the power supplied to the heater to provide an electrical pulse of sufficient amplitude and duration to heat the ink adjacent to the heater to lower surface tension of the ink in order to cause the meniscus to move further out of the nozzle bore and subsequently to further heat the ink to a temperature greater than its boiling point, thereby causing separation of ink from the nozzle bore. - View Dependent Claims (2, 3, 4)
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5. A process for ejecting ink from a printhead, said process comprising the steps of:
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communicating an ink supply, whose surface tension decreases inversely with its temperature, with an ink-emitting nozzle bore to supply ink, the nozzle bore having a rim; applying positive pressure relative to ambient to the ink supply to form a meniscus which protrudes above the nozzle rim at a point where the force of surface tension which tends to hold the drop in, balances the force of the ink pressure, which tends to push the drop out; and applying heat to the ink at the nozzle bore of sufficient temperature and duration to heat the ink to lower surface tension of the ink in order to cause the meniscus to move further out of the nozzle bore and subsequently further to heat the ink to a temperature greater than its boiling point, thereby causing separation of ink from the nozzle bore.
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Specification