Incremental printing of symbolic information – Ink jet – Medium and processing means
Reexamination Certificate
1999-10-04
2001-05-15
Hilten, John S. (Department: 2854)
Incremental printing of symbolic information
Ink jet
Medium and processing means
C347S101000, C347S104000
Reexamination Certificate
active
06231176
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to ink jet printing machines, and more particularly to a self-tensioning flexible heater assembly for drying of ink images deposited on a recording medium or substrate by a liquid ink printhead.
Liquid ink printers of the type frequently referred to as continuous stream or as drop-on-demand, such as piezoelectric, acoustic, phase change wax-based or thermal, have at least one printhead from which droplets of ink are directed towards a recording medium. Within the printhead, the ink is contained in a plurality of channels. Power pulses cause the droplets of ink to be expelled as required from orifices or nozzles at the end of the channels.
In a thermal ink-jet printer, the power pulse is usually produced by a heater transducer or a resistor, typically associated with one of the channels. Each resistor is individually addressable to heat and vaporize ink in the channels. As voltage is applied across a selected resistor, a vapor bubble grows in the associated channel and initially bulges from the channel orifice followed by collapse of the bubble. The ink within the channel then retracts and separates from the bulging ink thereby forming a droplet moving in a direction away from the channel orifice and towards the recording medium whereupon hitting the recording medium a dot or spot of ink is deposited. The channel is then refilled by capillary action, which, in turn, draws ink from a supply container of liquid ink.
The ink jet printhead may be incorporated into either a carriage type printer, a partial width array type printer, or a page-width type printer. The carriage type printer typically has a relatively small printhead containing the ink channels and nozzles. The printhead can be sealingly attached to a disposable ink supply cartridge. The combined printhead and cartridge assembly is attached to a carriage which is reciprocated to print one swath of information (equal to the length of a column of nozzles), at a time, on a stationary recording medium, such as paper or a transparency. After the swath is printed, the paper is stepped a distance equal to the height of the printed swath or a portion thereof, so that the next printed swath is contiguous or overlapping therewith. This procedure is repeated until the entire page is printed. In contrast, the page width printer includes a stationary printhead having a length sufficient to print across the width or length of a sheet of recording medium at a time. The recording medium is continually moved past the page width printhead in a direction substantially normal to the printhead length and at a constant or varying speed during the printing process.
Many liquid inks and particularly those used in thermal ink jet printing, include a colorant or dye and a liquid which is typically an aqueous liquid vehicle, such as water, and/or a low vapor pressure solvent. The ink is deposited on the substrate to form an image in the form of text and/or graphics. Once deposited, the liquid component is removed from the ink and the paper to fix the colorant to the substrate by either natural air drying or by active drying. In natural air drying, the liquid component of the ink deposited on the substrate is allowed to evaporate and to penetrate into the substrate naturally without mechanical assistance. In active drying, the recording medium is exposed to heat energy of various types which can include infrared heating, conductive heating and heating by microwave energy.
Active drying of the image can occur either during the imaging process or after the image has been made on the recording medium. In addition, the recording medium can be preheated before an image has been made to precondition the recording medium in preparation for the deposition of ink. Preconditioning of the recording medium typically prepares the recording medium for receiving ink by driving out excess moisture which can be present in a recording medium such as paper. Not only does this preconditioning step reduce the amount of time necessary to dry the ink once deposited on the recording medium, but this step also improves image quality by reducing paper cockle and curl which can result from too much moisture remaining in the recording medium.
Various drying mechanisms for drying images deposited on recording mediums are illustrated and described in the following disclosures which may be relevant to certain aspects of the present invention.
In U.S. Pat. No. 4,982,207, to Tunmore et al., a heater construction for an ink jet printer having a rotary print platen for holding and transporting a print sheet through a print path is described. The platen heater includes a hollow shell having vacuum holes for sheet attachment. A heating foil is detachably mounted in a heat transfer relation with the interior periphery of the shell.
U.S. Pat. No. 5,005,025, to Miyakawa et al., describes an ink jet recording apparatus for recording which fixes ink through evaporation of an ink solvent. The apparatus includes a heating member extending both upstream and downstream with respect to a recording area and a conveying direction of the recording sheet. The heating member contacts the recording sheet to assist in the fixation of the ink.
U.S. Pat. No. 5,406,321, to Schwiebert et al., describes an ink jet printer and a paper preconditioning preheater therefore. The paper preconditioning preheater has a curved surface and a multi-purpose paper path component to accomplish direction reversal for the paper. The paper contacts the preheater which dries and shrinks the paper to condition it for a printing operation. The preheater is a thin flexible film carrying heater elements which is suspended in air to provide extremely low thermal mass and eliminate the need for long warm up times.
Conventionally, these heaters in the form of a thick heater strip have been bonded uniformly and totally to an underlying structure or flat plate or suspended with complex external tensioning systems. The short falls of such conventional heaters include slow warm up times, due to high thermal mass, from start up or standby to the an effective drying temperature of about 250° F. Such slow warm up time ordinarily results in a need for a waiting period to achieve proper operation of the heater. The heater is thus not capable of reaching its operating temperature before paper or recording medium has fed from the supply tray to the print zone for printing to begin.
Other disadvantages include undesirable heatsinking or heating of other printer components due to conduction of heat away from the heater strip through its mounting structure. Wrinkling and or bowing of the heater surface due to thermal expansion mismatch with underlying structure are also problems.
SUMMARY OF THE INVENTION
In accordance with one aspect of the present invention, there is provided an ink jet printing machine for printing liquid ink images on a recording medium moving along a recording medium path through a printing zone. The printing machine includes a printhead for image-wise depositing liquid ink droplets on the recording medium, and a self-tensioning flexible heater assembly for heating the recording medium to dry the image-wise liquid ink droplets. The self-tensioning flexible heater assembly is disposed adjacently to the recording medium path, for heating the recording medium, and comprises a bowed resilient leaf spring forming a concave arc having a first end and a second end, and a flexible heating strip bonded to the first end and the second end across the concave arc, thereby providing self-tensioning and preventing wrinkling despite thermal expansion thereof.
REFERENCES:
patent: 4641482 (1987-02-01), Metz
patent: 4982207 (1991-01-01), Tunmore et al.
patent: 5005025 (1991-04-01), Miyakawa et al.
patent: 5406321 (1995-04-01), Schwiebert et al.
patent: 5691756 (1997-11-01), Rise et al.
patent: 5742315 (1998-04-01), Szlucha et al.
patent: 5-112000 (1993-05-01), None
Chau Minh H.
Hilten John S.
Nguti Tallam I.
Xerox Corporation
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