Preparation of improved inks for inkjet printers

Details Preparation of improved inks for inkjet printers Preparation of improved inks for inkjet printers

1999-04-21

2002-07-09

Jagannathan, Vasu (Department: 1714)

Synthetic resins or natural rubbers -- part of the class 520 ser

Synthetic resins

Processes of preparing a desired or intentional composition...

C524S548000, C524S549000, C524S556000, C347S100000, C347S102000

Reexamination Certificate

active

06417248

ABSTRACT:

TECHNICAL FIELD
The present invention relates to printing technology. More specifically, it relates to an improved ink composition for use in inkjet printers. Even more specifically, it relates to the use of an improved ink composition, equipment, and methods to produce permanent printed images on a variety of substrates by an inkjet printer.
BACKGROUND OF THE INVENTION
Along with the computerization of offices in the 1980's came electronically controlled non-impact printers such as the ink jet and laser printers. Drop-on-demand inkjet printers can be piezo or thermal (bubble jet). In piezo ink jet systems, ink droplets are ejected by an oscillating piezo crystal. However, the thermal ink jet dominates the drop-on-demand office ink jet market. In this system, rapid heating behind the ink nozzles causes a bubble of vapor to form in the ink. The resulting bubble expansion and ink ejection from the inkjet printer cartridge causes printing to appear on the substrate.
Full-color inkjet printers are more common than color lasers and are much more economical. The main advantage of inkjet printers over lasers and other non-impact printing techniques include their low cost and simplicity. Thermal inkjet systems are capable of dispensing ink rapidly and accurately. The technology of this and other inkjet systems are discussed in the
Chemistry and Technology of Printing and Imaging Systems
, edited by P. Gregory, published by Chapman & Hall, 1996. Representative thermal inkjet systems and cartridges are discussed in U.S. Pat. No. 4,500,895 to Buck et al., U.S. Pat. No. 4,513,298 to Scheu, and U.S. Pat. No. 4,794,409 to Cowger et al., which are all hereby incorporated by reference.
The technology of inkjet printers has undergone many changes and improvements since they first appeared. Research has been conducted to ensure that the images produced are of consistent high quality. Thus, it is important that the images be waterfast and do not smear, smudge, run, or the like when exposed to chemical or mechanical abrasion. Non-smearing of the image when portions of the printed page are highlighted with colored markers is of particular interest. Oftentimes, the image produced by the inkjet printer on paper is not satisfactorily fixed and smears, blurring the printed image when subjected to highlighting. This type of image is not regarded as permanent.
Image permanence is defined as transference of color from the substrate when the image printed thereon is subjected to chemical and mechanical abrasion. Highlighting is oftentimes the form of chemical and mechanical abrasion experienced. This transference of color is measured by optical density (mOD). More permanent images have lower milli-Optical Density (mOD) values.
Another desired feature of printed images is light fastness. As used herein, light fastness will mean that the images do not fade when exposed to light. Light fastness is another measure of permanence as used herein. Light fastness is measured by exposing printed images to intense light in light chambers (fadomers) and comparing print density before and after the exposure.
There have been many past attempts at improving the permanence of water-based inkjet printing systems. Included among these attempts are U.S. Pat. No. 5,549,740 to Takahashi et al., U.S. Pat. No. 5,640,187 to Kashiwakazi et al., and U.S. Pat. No. 5,792,249 to Shirota et al. which utilizes an additional or “fifth” pen to apply a colorless fluid on to the substrate. As will be seen in the comparative testing, the mOD values for the images printed thereon are quite high.
In U.S. Pat. No. 5,831,655 Asawa discloses an ink jet recording apparatus that is concerned with forcibly drying the ink deposited on a recording medium so that the image is not scratched when contacted with other objects or blurred because of the quality of paper used.
In the '655 patent, the ink droplet is comprised of a saccharide, plus other ingredients commonly used in inks such as colorant, resin, surfactant and water. There is no mention or values measured for image permanence on various types of paper substrates. Nor is there any mention of measurement of permanence of the images after subjection to chemical and mechanical abrasion using optical density measurements.
Another highly efficient printing system in common use currently is laser printers. In a laser printer or copier, light from a laser beam is used to discharge areas of a photoreceptor to create an electrostatic image of the page to be printed. The image is created by the printer controller, a dedicated computer in the printer, and is passed to the print engine. The print engine transcribes an array of dots created by the printer controller into a printed image. The print engine includes a laser scanning assembly, photoreceptor, toner hopper, developer unit, Corotrons, discharge lamp, fuser, paper transport, paper input feeders, and paper output trays.
The final stage of laser printing or copying is to fix toner onto the paper. Toner is very fine plastic powder, which is transferred from the photoreceptor. Once transferred from the photoreceptor, it lies on the paper in a very thin coating with nothing to hold it in place. In order to fix the toner to the paper, it is heated by passing between a pair of very hot rollers, so that the plastic melts around the fibers of the paper and is “fused” into place. The image is now fixed permanently onto the paper.
The fuser of a typical laser printer is of particular interest to the printing system of this invention. In these systems, fusing or melting the polymeric resin in which the colorant is embedded converts the discrete toner particles into an amorphous film. This film becomes the permanent image that results in electrophotographic copy or laser printed copy. However, the laser printer toners are incompatible with water. Since most inkjet materials are water-based, it is not possible to use laser toners in inkjet printers, and, therefore, Inkjet technology has not yet found a way to make the printed image permanent.
Another printing technology that is inherently more permanent than water-based inkjet are hot-melt inks. These materials are solid at room temperature and are similar to wax crayons. The colorants used in these materials are solvent dyes that are soluble in the ink vehicle or pigment dispersions. Like laser toners, these materials are incompatible with the inks used in inkjet printing.
In U.S. Pat. No. 5,817,169 Sacripante discloses a hot melt ink composition which uses oxazoline as a vehicle used for the colorant in inkjet printing processes. One of the advantages of this technology is the waxy nature of the hot melt ink creates images that are more waterfast and may be successfully utilized on plain papers. This technology is in contrast with the instant invention, which utilizes an ordinary waterborne, liquid four-color ink pen set.
Accordingly, a need remains for a printing system using water-based inkjet technology which produces permanent images. These permanent images will be consistent and stable with respect to a variety of printed substrates. An ideal situation would be combining the convenience and safety of aqueous inkjet inks with the permanence of electrophotographic copies. The present invention satisfies this in a unique manner which is described herein.
SUMMARY OF THE INVENTION
The invention relates to a fusible material that is added to aqueous ink formulations and provides an improved printed image that is especially suitable for use with inkjet technology.
Further this invention encompasses methods for printing permanent images using inkjet technology which comprises a fusible material formulated with the four-pen ink-set commonly found in water-based color inks used in inkjet printing. The fusible material of the present invention can be formulated as a colorless fluid applied either before or after the color inks are applied to the substrate. The images and print quality achieved by the use of such a fusible material in waterborne ink formulations are comparable in permanence and print qua

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