Record receiver having plural interactive leaves or a colorless – Having plural interactive leaves
Reexamination Certificate
1999-03-09
2004-02-03
Hess, B. Hamilton (Department: 1774)
Record receiver having plural interactive leaves or a colorless
Having plural interactive leaves
C156S235000
Reexamination Certificate
active
06686314
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a media for receiving a printed image during sublimation or heat activated ink printing, and for transferring the image to a final substrate.
BACKGROUND OF THE INVENTION
Transfer printing processes involve physically transferring an image from one substrate to another. One heat transfer method is melt transfer printing. A design is first printed on paper using a waxy ink. The back side is then heated with pressure, while the printed side is in close contact with a final substrate. The ink melts onto the final substrate in the mirror image of the original image.
Another method of transfer printing is film release transfer. The image is printed onto a paper substrate coated with a film of heat tackifiable resin. Upon application of heat and pressure to the back side of the image, the entire film containing the image is transferred to the final substrate. The printing method used in this invention most commonly employs heat activated dyes, such as sublimation dyes. One form of an appropriate transfer process using liquid sublimation inks is described in Hale et al., U.S. Pat. No. 5,601,023, the teachings of which are incorporated herein by reference. An image is generally printed onto an intermediate media using heat activated dyes. Heat and pressure are applied to the back side of the media, while the image is in close contact with a final substrate. The dyes vaporize, and are preferentially diffused into and/or absorbed by the final substrate to form the image on the substrate. The release of the dye during transfer depends on the vapor pressure of the dye and the rate of diffusion of the dye vapor through the layers of the paper, and the affinity of the dye for materials such as binders and additives contained in the paper substrate.
The dye transfer efficiency depends also on the competing vapor pressure from the carrier components such as water, solvent, co-solvent, humectant, polymeric and waxy materials and the like. An ink ingredient with a low melting temperature and high boiling temperature (higher than typical sublimation transfer temperature) also has a substantial negative impact on the release of the dye, especially if such an ingredient has an affinity towards the dye used in such ink. Materials and ingredients of this kind include humectants, coalescents, polymeric resins, and surfactants.
Sublimation or heat sensitive ink printing may be performed using an intermediate sheet or transfer sheet. The intermediate sheet may be paper. The paper may contain an ink acceptor material capable of readily absorbing the ink and allowing the droplets to coalesce, yet maintaining high resolution and color density. For effective sublimation transfer to take place, the liquid ink must be readily absorbed into the body of the media while the dye and/or dyes must remain relatively close to the surface of the media. The dyes used in sublimation transfer inks are relatively low in molecular weight, and preferably contain minimal active functional groups that inhibit volatility. The dyes are typically chosen from the disperse dye class. Such dyes are substantially insoluble in water or organic solvents. Dispersion of these dyes within the carrier is necessary to produce the ink, and printing of the ink so formed by commonly available digitally driven color printers, such as ink jet printers, requires a dye particle size of less than a few microns. There are a number of porous materials available with pore sizes just large enough to screen these disperse dyes from the bulk of the sublimation transfer ink.
The solid, insoluble dyes used to produce aqueous sublimation inks for use in ink jet printers tend to clog ink jet printer nozzles. This problem can be reduced by reducing the dye particle concentration in the ink formulation. However, to produce a stable ink, emulsifying enforcing agents and/or surfactants and other additives are used. To produce a printed image which will have enough color and vibrancy to be pleasing, sufficient dye must be present in the ink to overcome the presence of the added materials. The presence of these added materials reduces the ability of the dye to sublimate upon transfer or activation of the dye by the application of heat and pressure, and a higher concentration of dye must be present. The presence of the higher concentration of solid dye particles, however, aggravates the problem of ink jet nozzle clogging and agglomeration of the dye particles. Further, the presence of additional dye means that additional added materials must be present to produce a dye which is stable and has an adequate shelf life, but which further aggravate the problem of activation of the dye. The use of relatively higher concentrations of dye and higher concentrations of other materials in the ink requires relatively higher energy (heat) inputs to the media to transfer the image, and increases the transfer time.
SUMMARY OF THE INVENTION
The present invention relates to a media for receiving a printed image during sublimation or heat activated ink printing, and for transferring the image to a final substrate during subsequent heat transfer and activation. The media comprises multiple layers, including a feathering control layer containing a non-reactive, non-porous material. Beneath the feathering control layer is a dye screening layer, comprised of a porous material. The screening layer holds the solid dye particles close to the surface of the media, and allows the other materials in the ink to pass through. The distance that the dye vapor must traverse during transfer to the final substrate is thereby reduced, and the presence of other materials in the ink does not interfere with the activation or sublimation of the dye. An optional third permeation control layer is a liquid permeable, gas impermeable membrane. This semipermeable membrane allows liquids, such as aqueous or non-aqueous solutions, to pass through to subsequent layers during printing, while preventing dye vapor from penetrating beyond the dye screening layer during the final transfer step. In other words, this layer encourages dye vapor migration towards the final substrate, and retards the penetration of vapor from water or solvent toward the dye layer during the final heat transfer step. A fourth layer is an absorbent liquid retaining layer, followed by a support layer. The screening and/or absorbent layers may contain chemicals that produce an exotherm upon application of sufficient heat. Addition of these exothermic chemicals provides a means of minimizing the amount of externally applied energy necessary for transferring an image from the intermediate media to the final substrate.
An object of the invention is a receiver sheet which minimizes feathering of the ink as it is printed on the receiver/transfer sheet, to create an image having true color definition and high resolution. Another object of the invention is a receiver/transfer sheet which facilitates transfer of the dye vapor toward the final substrate as the dye is sublimated. An additional object of the invention is to produce a receiver/transfer sheet which separates the solid dye from the remaining ink components, so that interference of the components with the activation or sublimation of the dye is substantially reduced. An object of the invention is a receiver/transfer sheet which will permit the use of an ink formulation having a reduced concentration of dye solids. Another object of the invention is to produce a receiver/transfer sheet which will exotherm upon the application of heat to assist in heat transfer time. An additional object of the invention is a receiver/transfer sheet which will reduce the image transfer time and energy input requirements. It is an object of the present invention to provide a media that will receive a sublimation or heat sensitive ink that allows the ink to be immediately wicked from the surface with minimum amount of dot gain and without feathering or bleeding of the printed image, the dye to be held just on or just below the surface, and the ink carrier and o
Wagner Barbara
Xu Ming
Hess B. Hamilton
Killough B. Craig
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