JP2667828B2 - Recording method - Google Patents

Description

Description: BACKGROUND OF THE INVENTION The present invention relates to a recording method for performing recording with an ink droplet on a recording material having a recording surface different from an image observation surface, and particularly relates to a resolution and a resolution. The present invention relates to a recording method having excellent tone expression. (Prior Art) JP-A-58-136480, JP-A-58-136481 and
Japanese Patent Application Laid-Open No. 61-197285 describes a recording material and a printed material in which a recording surface and an image observation surface are different. On the other hand, as a method of giving gradation to an image recording density (hereinafter, referred to as OD), there are an area gradation method such as a dot matrix method and a dither method, and an analog gradation method for changing an amount of ink adhering to a pixel. The method and the like are generally widely known, and printers to which this technology is applied are also commercially available. Further, Japanese Patent Publication No. 56-6033 discloses a multiple recording gradation method in which gradation is obtained by changing the number of ink droplets attached to the same pixel. [Problems to be Solved by the Invention] By performing gradation expression by the area gradation method on a recording material having the same recording surface and observation surface as a conventionally generally used paper, the gradation property and The resolutions are in a conflicting relationship, and there is a problem in that the resolution decreases when the gradation is improved and the gradation decreases when the resolution is increased. On the other hand, in a recording method in which the amount of ink adhering to a pixel is changed, such as an analog gradation method or a multiple recording gradation method, a gradation pattern as shown in FIG. 4 is obtained, and the minimum ink droplet or the first ink droplet is used. The formed OD is large,
In the figure, there is a problem that sufficient gradation cannot be obtained when OD is in the range of 0 to 1. Therefore, in the portion where the OD is 1 or less, it is actually necessary to use the area gradation method in combination, and therefore, the above-described reduction in resolution is inevitable. Further, since the OD of the minimum ink droplet or the first ink droplet is high, in a low OD region (light color portion, highlight portion), a phenomenon called graininess or graininess occurs in a recorded image (hereinafter referred to as dot) by the ink droplet. And other problems. Therefore, an object of the present invention is to solve the above-mentioned problems,
An object of the present invention is to provide a recording method which simultaneously satisfies the conflicting image performances of gradation and resolution, and in particular, provides a high-quality image excellent in gradation without roughness or graininess even in a highlight portion. [Means and Actions for Solving the Problems] The above object is achieved by the present invention described below. That is, the present invention has an opaque porous surface layer on the recording surface, and performs image recording using ink droplets on a recording material having a recording surface different from the image observation surface. A plurality of ink droplets of the same color to change the amount of ink penetrated in the thickness direction from the recording surface to perform gradation expression. This is a recording method for performing intermediate color expression using primary color inks. As the recording material having a different recording surface from the image observation surface used in the present invention, a recording material having a porous ink receiving layer can be used. For example, (1) paper, a porous film, a membrane filter, etc.
Examples of the recording material include a material having a porous ink-receiving layer formed of a porous ink-receiving layer. Preferably, the recording material has a low size. (2) JP-A-58-136480, JP-A-58-136481, and JP-A-58-136481. Japanese Patent Application Laid-Open No. Sho 61-197285, etc., in which a porous ink receiving layer is provided on a translucent substrate. (3) The present inventors proposed in Japanese Patent Application No. Sho 60-282218. The ink receiving layer includes a non-porous ink holding layer and a porous ink transporting layer. Since the recording material (2) uses a translucent base material, it has features such as a glossy image observation surface and a protective effect on recorded images. The image observation surface has a higher OD than the recording surface. As a method of recording with ink droplets used in the present invention, all conventionally known ink jet systems and ink mist systems described in JP-A-61-228984 can be used. As the ink used in the present invention, any conventionally known water-based or non-water-based ink can be used, but it is necessary to select it in relation to the recording apparatus to be used. FIG. 1 is a diagram for explaining the operation of the present invention. In FIG. 1, when the recording surface A and the image observation surface are the same as in the prior art, the OD change of the pixel PE is mainly influenced by the dot area AS on the A surface. That is, the OD of the pixel is determined by the area AS of the dot formed by the bleeding of the attached ink in the horizontal direction, and has little relation to the penetration AL in the depth direction of the ink and the thickness BL from the back surface B. On the other hand, when the recording surface A and the image observation surface B have a front-back relationship as in the present invention, the OD change of the pixel on the surface B is mainly determined by the thickness BL from the observation surface B to the ink. That is, the dot is observed through the thickness BL of the opaque porous ink receiving layer S, and the dot appears on the B surface only when BL = 0. The OD change after the appearance of dots on the B-side shows the same behavior as the OD change of 1-2 in FIG. Accordingly, the overall OD change is as shown in FIG.
Becomes a very smooth gradation change from 0 to 2. It should be noted that the pixel referred to in the present invention is not a minimum unit as an image but a minimum resolvable screen used in the area gradation method or the dither method. EXAMPLES Hereinafter, the present invention will be specifically described with reference to Examples. As the recording material having a porous ink receiving layer, a recording material (3) type, that is, a non-porous ink holding layer mainly made of polyvinyl alcohol and having a thickness of 5 μm and a polyethylene film as a transparent substrate, and polyethylene A porous ink transport layer having a thickness of 70 μm and comprising resin particles, an ionomer resin and sodium dioctyl sulfosuccinate (surfactant) was used. Recording methods include Y (yellow), M (magenta), and C
An ink jet system was used in which four colors of ink (cyan) and BK (black) had one nozzle for each color and ejected ink droplets by the pressure of a piezo vibrator. With the recording material and the ink jet method, the pixel size is set to 150 × 150 μm, the driving voltage of the piezo vibrator is changed, and the volume of the ink droplet is set to 1 × 10 ⁻⁷ , 2 × 10 ⁻⁷ , 3 × 10
^-7 , 4 × 10 ^-7 , 5 × 10 ^-7 ml, Y, M, C, BK, and R
(Y + M), G (Y + C), and B (M + C) 6 gradations (including 0 ml) of 7 colors in total were expressed. Recording surface (front surface) and image observation surface (back surface) of the obtained image
Figure 3 shows that the OD change in the image is as shown in Fig. 3. The image observation surface has a smooth gradation even in a low OD range, and a large dynamic range (gradation width) can be obtained with a small change in the amount of ink adhesion. done. In FIG. 3, the OD of the image observation surface is larger than the OD of the recording surface.
Is increased because the ink holding layer is provided, and is an effect that cannot be obtained only by the porous ink receiving layer. [Other Examples] The recording material having a porous ink-receiving layer is a recording material (2) type, that is, the transparent substrate has a thickness of silica, polyvinyl alcohol and latex on a polyester film. One having a coating layer of 30 μm was used. As a recording method, four colors of ink of Y, M, C, and BK have 256 nozzles (nozzle spacing of 16 nozzles / mm) for each color. An ink jet method for discharging droplets was used. The above-described recording material and a pixel size of 62.5 × 62.5 μm by an ink jet method, and gradation expression is performed by attaching 1 to 8 ink droplets (volume of one droplet 2 × 10 ⁻⁸ ml) to the same pixel. Full color recording was performed. The obtained image was excellent in reproducing intermediate colors, and particularly excellent in gradation in a light color gamut. In this example, a mirror image was printed on the original image. [Effects of the Invention] As described above, according to the recording method of the present invention, (1) an excellent image without roughness or graininess can be obtained even in a low OD region. (2) Gradation of OD1 or less can be obtained with the minimum number of ink droplets, which has been difficult in the past. (3) When a recording material having an ink holding layer and an ink transport layer is used, there is an effect that a large dynamic range can be obtained with a small change in the amount of ink adhesion.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram for explaining the operation of the present invention. FIG. 1 (a) is a diagram showing the relationship between pixels and dots on a recording surface, and FIG. 1 (b). 1 is a cross-sectional view taken along the line cc 'of FIG. 1A, FIG. 1C is a view showing the back surface of FIG. 1A, FIG. 2 is a view showing the gradation of the present invention, FIG. 3 is a diagram showing the gradation of the embodiment, and FIG. 4 is a diagram showing the gradation of the conventional example in which the recording surface and the observation surface are the same. PE is the pixel, AS is the dot area, A is the recording surface, B is the image observation surface, S is the porous ink receiving layer, AL is the ink penetration depth, and BL is the thickness from the back surface to the ink (dot).

Claims (1)

(57) [Claims] When recording an image with an ink droplet on a recording material having an opaque porous surface layer on a recording surface and a recording surface different from an image observation surface, ink of the same color for one pixel A recording method, wherein gradation is expressed by applying a plurality of droplets to change the amount of ink that permeates in the thickness direction from the recording surface. 2. The recording method according to claim 1, wherein the recording material has an ink holding layer and an ink transport layer on a transparent substrate. 3. The recording method according to claim 2, wherein ink droplets are applied to the ink transport layer, and an image is formed on the ink holding layer via the ink transport layer. 4. 4. The recording method according to claim 3, wherein the image density on the image observation surface is higher than the image density on the recording surface. 5. The recording method according to claim 1, wherein recording is performed by an inkjet recording method. 6. 6. The recording method according to claim 5, wherein the inkjet recording method is a method in which bubbles are generated by a heating resistor and ink drops are ejected by the pressure thereof. 7. The recording surface has an opaque porous surface layer, when performing image recording with ink droplets on a recording material different from the recording surface and the image observation surface, using at least three primary color inks,
In addition, a printing method is characterized in that a plurality of ink droplets of the same color are applied to one pixel to change the amount of ink that penetrates from the printing surface in the thickness direction to perform intermediate color expression. 8. The recording method according to claim 7, wherein the recording material has an ink holding layer and an ink transport layer on a transparent substrate. 9. 9. The recording method according to claim 8, wherein ink droplets are applied to the ink transport layer, and an image is formed on the ink holding layer via the ink transport layer. 10. 10. The recording method according to claim 9, wherein the image density on the image observation surface is higher than the image density on the recording surface. 11. The recording method according to claim 7, wherein recording is performed by an ink jet recording method. 12. 12. The recording method according to claim 11, wherein the inkjet recording method is a method in which bubbles are generated by a heating resistor and ink droplets are ejected by the pressure thereof.