Printhead air management using unsaturated ink

Incremental printing of symbolic information – Ink jet – Fluid or fluid source handling means

Reexamination Certificate

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Reexamination Certificate

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06547377

ABSTRACT:

TECHNICAL FIELD OF THE INVENTION
This invention relates to inkjet printing systems, and more particularly to techniques for managing air using unsaturated ink.
BACKGROUND OF THE INVENTION
Inkjet printing systems frequently make use of an inkjet printhead mounted to a carriage which is moved back and forth across a print media, such as paper. As the printhead is moved across the print media, control electronics activate an ejector portion of the printhead to eject, or jet, ink droplets from ejector nozzles and onto the print media to form images and characters. An ink supply provides ink replenishment for the printhead ejector portion.
Some printing systems make use of an ink supply that is replaceable separately from the printhead. When the ink supply is exhausted the ink supply is removed and replaced with a new ink supply. The printhead is then replaced at or near the end of printhead life and not when the ink supply is exhausted. When a replaceable printhead is capable of utilizing a plurality of ink supplies, this will be referred to as a “semipermanent” printhead. This is in contrast to a disposable printhead, that is replaced with each container of ink.
A significant issue with semipermanent printheads is premature failure due to loss of proper pressure regulation. To operate properly, many printheads have an operating pressure range that must be maintained in a narrow range of slightly negative gauge pressure, typically between −1 and −6 inches of water. Gauge pressure refers to a measured pressure relative to atmospheric pressure. Pressures referred to herein will all be gauge pressures. If the pressure becomes positive, printing and printing system storage will be adversely affected. During a printing operation, positive pressure can cause drooling and halt ejection of droplets. During storage, positive pressure can cause the printhead to drool. Ink that drools during storage can accumulate and coagulate on printheads and printer parts. This coagulated ink can permanently impair droplet ejection of the printhead and result in a need for costly printer repair. To avoid positive pressure, the printhead makes use of an internal mechanism to maintain negative pressure.
Air present in a printhead can interfere with the maintenance of negative pressure. When a printhead is initially filled with ink, air bubbles are often present. In addition, air accumulates during printhead life from a number of sources, including diffusion from outside atmosphere into the printhead and dissolved air coming out of the ink referred to as outgassing. During environmental changes, such as temperature increases or pressure drops, the air inside the printhead will expand in proportion to the total amount of air contained. This expansion is in opposition to the internal mechanism that maintains negative pressure. The internal mechanism within the printhead can compensate for these environmental changes over a limited range of environmental excursions. Outside of this range, the pressure in the printhead will become positive.
One solution to the air accumulation problem has been the use of disposable printheads. The amount of ink associated with a disposable printhead can be adjusted to keep air accumulation below a critical threshold. When the amount of ink is small, this increases the cost of printing by requiring frequent printhead replacement. Alternatively, the ink container can be made large to reduce frequency of printhead replacement. However, large ink containers become problematic when the printing application is a compact desktop printer. An example of a system utilizing a disposable printhead, wherein a large ink supply is replaced each time the printhead is replaced, is described in U.S. Pat. No. 5,369,429.
Another solution to the air accumulation problem has been the use of air purge mechanisms to make semipermanent printheads viable. An example of an air purge approach is described in U.S. Pat. No. 4,558,326. Issues with purging systems include the added printer cost for the purge mechanism, the reliability problems associated with accommodating the ink that tends to be purged out with air, and the stranding of air in the ink ejectors of the printhead, and increase in maintenance requirements.
Another solution to air management in inkjet printheads has been in the form of air warehousing. Air generated during the life of the pen is stored in the printhead. This requires the printhead to be able to compensate for expansion of the stored air due to thermal and pressure variations, which necessitates additional size and complexity. This additional size constrains the printer by placing more mass on the carriage and requiring a larger carriage for the printheads. As more printheads are added to the carriage, this issue becomes even more important.
It is known to use unsaturated ink in filling ink supplies. Insofar as is known, however, unsaturated ink has not heretofore been employed in addressing the problem of air accumulation in ink jet printheads.
SUMMARY OF THE INVENTION
Problems of air management in an inkjet printhead are addressed by preventing or minimizing the generation of air bubbles during the printing process, and providing techniques for reabsorption of air that does get introduced into the printing system.
In accordance with an aspect of the invention, a method of air management in an inkjet printing system is described. The method includes
providing an ink supply for holding a supply of liquid ink, the ink supply including high barriers to air diffusion;
filling the ink supply with a quantity of liquid unsaturated ink;
storing the filled ink supply for a storage time interval or until needed;
installing the ink supply in an inkjet printing system including an inkjet printhead;
supplying unsaturated ink from the ink supply to the inkjet printhead for printing, and allowing the unsaturated ink to absorb air introduced into the printing system; and
ejecting droplets of the liquid ink from the printing system during the printing.
In accordance with a further aspect of the invention, a semipermanent inkjet printhead is described, and includes a printhead body with an internal plenum, a pressure regulator for regulating pressure in the plenum, a nozzle array for ejecting droplets of ink, a fluid inlet mounted to the printhead body and coupled to the plenum for connection to an ink supply path for ink delivered from a replaceable ink supply, and a supply of unsaturated ink disposed in the plenum, the unsaturated ink having an air saturation level sufficient to absorb air introduced into the printhead.
The printhead can be used in a printing system, which includes a replaceable ink supply comprising an ink reservoir structure, a fluid interconnect fluidically coupled to the ink reservoir structure, and a body of unsaturated ink disposed in the ink reservoir structure, and an air diffusion barrier system protecting the body of unsaturated ink within the ink reservoir structure from air diffusion to provide a shelf life of at least a period of six months before the ink is saturated. The system includes an ink supply path coupled to the fluid interconnect of the ink supply and the fluid inlet of the printhead for carrying the unsaturated ink from the replaceable ink supply to the printhead.


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