METHOD OF FORMING A VARNISH-COATED IMAGE

Abstract

A printing method includes forming an image by applying marking material onto the surface of a substrate; optionally applying an intermediate layer onto the substrate; subjecting the image to a fixation treatment; applying a layer of an ionically stabilized varnish on the surface of the image; and performing image-wise gloss control by locally varying at least one of a fixation parameter and a primer application parameter.

Claims

1. A printing method comprising the steps of: forming an image by applying marking material onto a surface of a substrate; optionally applying an intermediate layer onto the substrate or onto the formed image; subjecting the image to a fixation treatment; applying a layer of an ionically stabilized varnish on the surface of the image; and image-wise gloss control by locally varying at least one of a fixation parameter and a primer application parameter.

2. The method according to claim 1, wherein the primer application parameter specifies an amount of primer to be applied on the surface of the substrate before the image is formed.

3. The method according to claim 1, wherein the primer application parameter comprises a parameter specifying an amount of primer to be applied on the surface of the image before the layer of varnish is applied.

4. The method according to claim 1, wherein the fixation parameter specifies an amount of solvent to be applied on the surface of the printed image before the varnish is applied.

5. The method according to claim 4, wherein the varnish is a water-based varnish and wherein a fixation treatment comprises exposing the surface of the printed image to an atmosphere that contains hot gases including water vapor, and the fixation parameter specifies a ratio between water vapor and other gases in said atmosphere.

6. The method according to claim 2, wherein the primer application parameter comprises a parameter specifying an amount of primer to be applied on the surface of the image before the layer of varnish is applied.

7. The method according to claim 2, wherein the fixation parameter specifies an amount of solvent to be applied on the surface of the printed image before the varnish is applied.

8. The method according to claim 3, wherein the fixation parameter specifies an amount of solvent to be applied on the surface of the printed image before the varnish is applied.

Description

[0020] Embodiment examples will now be described in conjunction with the drawings, wherein:

[0021] FIG. 1 is a schematic view of a printing system suitable for carrying out the invention;

[0022] FIG. 2 is an enlarged sectional view of a portion of a substrate having a primer layer, an ink layer and a solvent layer on its surface;

[0023] FIG. 3 is a diagram illustrating the effect of the invention on the gloss of the printed image for different settings of the print process;

[0024] FIG. 4 shows graphs indicating the amount of gloss reduction of printed images as a function of settings of the fixation treatment for different amounts of primer coverage; and

[0025] FIG. 5 shows an example of a printed image.

[0026] The printing system shown in FIG. 1 comprises a conveyer 10 that constitutes a transport path 12 for sheet-like print substrates 14. A first primer application unit 16, an ink jet print engine 18, a second primer application unit 20, a fixation unit 22 and a varnish applicator 24 are disposed in that order in transport direction along the transport path 12.

[0027] The primer application units 16 and 20 are for example constituted by ink jet print heads and are configured for applying layers of a liquid primer image-wise onto the substrate 14. In this context, “image-wise” means that the amount of primer coverage may be different for different image areas. The primer may be any known and commercially available primer that is suitable as a pre-processing liquid for printing. Typically, the primer includes one or more salts that contain divalent cations such as Mg.sup.++.

[0028] The print engine 18 comprises a multi-color inkjet print head assembly suitable for forming a printed image on the surface of the substrate 14 or rather on the surface of the first primer layer by jetting droplets of ink onto the substrate. The inks of different colors may for example be water-based inks each comprising a dispersion of color pigments. As long as the ink on the substrate is still in the liquid state, cations from the primer layer may dissolve into the ink and cause a desired destabilization of the ink, which reduces the fluidity or mobility of the ink and thereby suppresses a bleeding of ink of one color into a neighboring area of the image carrying ink of a different color.

[0029] The second primer application unit 20 may optionally be used for locally applying a layer of a transparent primer on the surface of the printed image so as to increase the concentration of cations if a particularly dull surface is desired for the respective part of the image.

[0030] The fixation unit 22 is configured to blow a stream of hot gases against the surface of the substrates 14 in order to cure the liquid ink and thereby to fix the printed images.

[0031] The hot gases may comprise hot air with a temperature of 120° at a pressure of 20.4 hPa and/or a super-heated steam (water vapor) having a temperature of 120°, a pressure of 0.4 hPa and an oxygen content of 13%. Optionally, the fixation unit may be configured to vary the ratio of hot air and steam that are jetted-out onto the substrates. The fixation unit may comprise an array of controllable nozzles by which the fixation conditions (composition and temperature of the hot gases) can be varied locally, so that different parts of the printed image are subjected to different fixation treatments.

[0032] When the stream of hot gases impinges on the surface of the substrate 14 which has a lower temperature than the stream of gas, the super-heated steam will condense on the surface of the substrate and will thus form a thin film of liquid water with a thickness of e.g. 4 μm on the surface of the printed image. Simultaneously, the substrate 14 will be heated to an elevated temperature.

[0033] While the heated substrates travel from the fixation unit 22 to the varnish applicator 24, the water contained in the liquid ink as well as the water that has been applied by the fixation unit 22 will evaporate, so that the ink is cured and the image is fixed on the substrate. As long as a film of water is still present on the surface of the substrate, cations from the primer liquid that have migrated into the ink may migrate further into the film of water. In other words, an excessive amount of salt that may be present in or on the ink layer will be dissolved into the water film.

[0034] It will be understood that, as the substrate moves towards the vanish applicator 24, only a part of the water in the film will evaporate while another part of the water will be absorbed into the substrate. The amount of water that is absorbed into the substrate will depend upon the absorptivity of the substrate material which will be high if the substrate is made of paper, for example. Due to this absorption process, a substantial portion of the cations that have been dissolved into the water film will be absorbed into the substrate so that the amount of cations remaining on the surface of the cured image will be reduced significantly.

[0035] In the example shown, the varnish applicator 24 comprises an anilox roller that is configured to apply a film of an anionically stabilized water-based varnish onto the surface of the cured image. Since the cations that have remained on the surface of the image tend to migrate into the varnish and to destabilize the varnish, the fluidity and mobility of the liquid varnish will be reduced to some extent, which diminishes the capability of the varnish to form a uniform surface layer before the varnish is set. As a consequence, the gloss of the image will be somewhat reduced due to the premature destabilization of the varnish. However, since the amount of cations present on the surface of the image has been reduced by absorbing most of the cations into the substrate, the degradation of the gloss of the printed image can be kept within predefined limits, even if the primer that has been applied by the applicator unit 16 had a high concentration of Mg salts in order to suppress inter-color bleeding and improve the quality of the printed color image. In this way, it is possible to obtain printed images which have both, a high image quality and a high gloss.

[0036] FIG. 2 is a sectional view a portion of one of the substrates 14 in the state in which it leaves the fixation unit 22. A layer of primer P and a layer of ink I have been formed by means of the first primer application unit 16 and the print engine 18, respectively, and the super-heated steam that has been applied in the fixation treatment has caused the temporary formation of a layer of solvent S (water) on the ink layer. Arrows symbolize the migration of cations from the primer P into the ink I and further into the solvent S. Part of the solvent with the ions dissolved therein will be absorbed into the substrate 14 and another part of the solvent will evaporate, as has been symbolized by “wavy” arrows. A layer of varnish V to be applied later has been indicated in dotted lines.

[0037] FIG. 3 shows three curves 30, 32 and 34 which show the glossiness of the printed images as a function of the primer coverage (in the first primer layer applied directly on the surface of the substrate) for three different settings of the print process in which the ink coverage was 100% (curve 30), 20% (curve 32), and 0% (curve 34), respectively. No super-heated steam has been used in the fixation treatment in these examples. It can be seen that a reduction in gloss has been caused by the presence of Mg.sup.++ ions in the primer and the ink, and the gloss reduction is more pronounced when the primer coverage is high. A high ink coverage tends to mitigate this effect, because more cations are consumed in the process of destabilizing the ink and are no longer available for destabilizing the varnish.

[0038] FIG. 4 shows three curves 36, 38 and 40 which show the reduction in glossiness as a function of a fixation treatment parameter that specifies the percentage of super-heated steam (SHS) in the hot gases. The curve 36 relates to a case where the primer coverage was 3 g/m.sup.2, and the curves 38 and 40 relate to cases where the primer coverage was 2 g/m.sup.2, and 1 g/m.sup.2, respectively.

[0039] These results show that the glossiness of an image area can be increased by controlling the first primer application unit 16 to provide a reduced primer coverage and/or by controlling the fixation unit 22 to increase the percentage of hot steam used in the fixation treatment. Of course, the primer coverage can only be reduced down to a certain limit below which the inter-color bleeding of the ink would become too large. However, by combining the two means for controlling the gloss, it is possible to obtain a glossiness that varies within a large range.

[0040] On the other hand, the second primer application unit 20 may be used in order to locally reduce the glossiness of the image. Although the measures of decreasing the primer coverage in the first primer layer and/or increasing the amount of hot steam in the fixation treatment on the one hand and the measure of forming a second prior layer on the surface of the printed image have opposite effects, it is possible to use these measures in combination in order to achieve certain special effects. On the other hand, if a particularly dull surface is desired for certain image areas, it is possible to combine the three measures of increasing the primer coverage in the first primer layer, reducing the amount of hot steam in the fixation treatment and applying a second primer layer.

[0041] FIG. 5 shows a simple example of an image that has been printed using the method according to the invention. The image shown in FIG. 5 depicts a mirror 42 that has a reflective surface 44 and a wooden frame 46. By employing the measures discussed above, it is possible to obtain a high gloss in the area of the reflective surface 44 and a significantly lower gloss in the area of the frame 46. Thus, image-wise gloss control has been used for mimicking different surface textures of the objects shown in the printed image.