JPS62270377A - Preparation of transparent material different in optical characteristics in front and rear sides thereof - Google Patents

Abstract

PURPOSE:To prevent a part of a figure from being seen through an opposite side and to also simplify a process, by a method wherein an arbitrary picture pattern is printed on a substrate at least two or more times using water soluble ink made dissolvable by release treatment and each ink layer of each transparent part is removed. CONSTITUTION:For example, silk screen printing is applied to one surface of a substrate 11 through a negative of polka-dots to provide a water-soluble ink layer 12 and silk screen printing is further applied thereon using two-pack type reactive ink to form a first pattern ink layer 13. Further, similar white and black inks are applied to the entire surface of the substrate 11 to form entire surface ink layers 14, 15 and, further, a picture pattern desired to be expressed from a reverse direction is similarly printed thereon to form a second pattern ink layer 16 and the whole is washed for 15min by an ultrasonic washing device to release the ink layers 12, 13, 14, 15, 16 above the water-soluble ink layer 12 and a transparent material different in an optical characteristic in the front and back sides thereof is obtained.

Description

[Detailed Description of the Invention] 3. Detailed Description of the Invention (Field of Industrial Application) The present invention is directed to the production of a transparent material that has different optical properties such as brightness and color when viewed from the front and back. It concerns the method.

(Prior art) A conventional method for manufacturing a transparent material having different optical properties on the front and back sides is described below. Transparent materials that have different optical properties when viewed from above and when viewed from the back are known. The manufacturing method of a transparent material having different optical properties on the front and back sides according to this publication is as follows:
Using a fine pattern of a desired shape, two inks each with different optical properties and hiding power are printed in layers,
There were 7 such bonds with different optical customizations on the front and back.

Furthermore, the two inks can be made to overlap and remain in the end by a photographic exposure method as shown in JP-A No. 153302 of 1980, JP-A No. 153303 of 1980, and JP-A No. 150703 of 1981. The manufacturing method is also known.

(Problems to be Solved by the Invention) Transparent materials produced by the above-mentioned overprinting method or photographic exposure method, which have different optical properties on the front and back sides, also have drawbacks, which will be described in detail below.

First, in the overprinting method, the pattern of the first solvent ink layer printed with the first solvent ink and the pattern of the first solvent ink layer printed with the second solvent ink are separated. Difficult to align. Therefore, when the completed transparent material is viewed from the substrate side, not only the first solvent-based ink layer but also the first solvent-based ink layer [4 and t'1. The resulting second solvent-based ink layer will be visible. At this time, since the optical properties of the recycled solvent-based ink and the second bath-based ink are different, the second bath-based ink layer is very different from the first solvent-based ink layer. A noticeable symptom occurs.

Furthermore, when viewing the see-through plate from the opposite side of the substrate, the second solvent-based ink layer is similarly visible in the areas where the printing has shifted. This occurs because it is very difficult to provide perfectly matched patterns using printing methods.

This kind of thing can be prevented by using the photo at method. However, this photographic exposure method requires the steps of applying a resist, exposing it to light, and developing it, which takes a long time and requires a lot of equipment. I needed it. Furthermore, there are many types of photosensitive resins (therefore, it is difficult to obtain sufficient m fingers in terms of color properties and light transmittance, and moreover, they are expensive and impractical compared to other resins.

(Problem? Means to solve it) Is it the problem mentioned above? In order to solve this problem, we printed a water-soluble ink on the substrate that could be dissolved by the peeling process described later to separate the transparent and non-transparent parts. By distinguishing in advance the areas with water-soluble ink and the areas without, ink can be applied to any design pattern, including solid areas, regardless of whether the area should be transparent or non-transparent. It must be stamped at least twice.

Finally, each ink layer in the part that should be the transparent part for the entire printed board and ink? Perform a peeling process to remove it.

(Function) Water-soluble ink dissolves when it goes through a water stripping process. On the other hand, solvent-based ink goes through a peeling process.If the solvent-based ink is formed via the substrate and water-soluble ink, is it divided by the peeling process? Over time, the water-soluble ink to be supported melts, and the solvent-based ink peels off from the substrate. Moreover, the solvent-based ink has a structure on the second floor μ? Even if you remove it, each layer will not peel off separately, but will peel off together. The peeled part, which should be a transparent part, and the non-peelable part, which should be a non-transparent part, are clearly separated, and there is no longer a case where only one particular portion remains at the boundary.

(Click to implement) An embodiment of the present invention? drawing? This will be explained in detail using 1st
5 through 5 are cross-sectional views showing the steps of the procuring method according to the present invention.

A negative pattern of polka dots with a diameter of 1Q''C and a spacing of 1 was formed on one side of a substrate ul made of PET with a thickness of 8°0μ.
A water-soluble ink layer (112 yen) was created using a water-soluble ink (made by Toyo Ink!!) (Kiku SSVMAQ resist W@).
The thickness of the ink is 20μ for 50 meshes.

On top of this, print the pattern you want to express from one side with a 250-mesh silk screen using a two-component reactive ink, solvent-based, to a thickness of 22μ, and then apply the first pattern ink l (i!13).
1 beg was formed. This solvent-based ink is 5S16-000 series manufactured by Toyo Ink Manufacturing (■), and 100 parts of the ink was previously mixed with 5SUR1o (trade name) manufactured by Toyo Ink Manufacturing (■).

Additive B was well mixed at a ratio of 10 parts. Furthermore, on top of this, apply the same ink in white and black.
25 μm and 10 μm were printed on the entire surface with a 250 mesh silk screen to form a first entire surface ink layer 1141 and a second entire surface ink layer 1.161 yen. Furthermore, is there a pattern you would like to express from the opposite direction on top of this? Similar ink? Using 250 mesh silk screen with a thickness of 15μl: f] 1fi
A second pattern ink layer was formed. By washing this with an ultrasonic wave cleaner for 15 minutes, the water-soluble ink layer 1
Each ink layer f121 (131'141 +
]51ue is peeled off and a transparent material having different optical properties on the front and back sides is obtained. When this transparent material is viewed from the substrate side, the transparent part, the first pattern ink layer 1.131, and the first entire surface ink l! t14] is visible, and the second entire surface ink li!
11.51 and the second pattern ink scratches are not visible at all. Also.

Similarly, when viewed from the ink layer side, only the transparent part and the second pattern ink 1/key 1-1151 are visible, and the first full-page ink "14" and the first The pattern ink φ1J31 is not visible at all.Therefore, the front and back surfaces are different.In addition, the first pattern ink 1131 and the second pattern ink are generally different patterns, so they are different depending on the surface mounting. The pattern 7 is OT
It is Noh.

Of course, the above-mentioned embodiment is just one example, and regardless of this, printing methods other than silk screen can be used.
Gravure printing and letterpress printing can be used, and the color of the ink can be selected freely.As long as the first solvent-based ink and the second solvent-based ink have hiding power, it is not limited to white or black. It can be used in various ways, and in particular, the number of pattern ink layers is not limited, and hiding power is not necessarily required.

(Effects of the invention) According to the present invention, a part of the figure that should be visible only on one side of Table 1 no longer leaks to the other side, and the process is simplified, and the material has no problem. .

[Brief explanation of drawings]

Figures 1 to 5 show the method of making pickles according to the present invention:
It is a sectional view shown in lfi. Old)...Substrate 1z...Water-soluble ink layer ・J blade...
・First no (turn ink layer (J4)...first full surface ink layer 115)...second full surface ink layer u61
...Second pattern ink layer

Claims (1)

[Scope of Claims] 1) A step of printing with a water-soluble ink on a portion of the substrate that is to be a transparent portion, a step of printing the entire surface of the substrate with a first solvent-based ink having a hiding power, and a step of printing the entire surface of the substrate with a first solvent-based ink having a hiding power; A step of printing on the entire surface with a second solvent-based ink that has a hiding power and has different optical properties from the first solvent-based ink, and a step of peeling off all the ink layers in the portion that should be the transparent part of the substrate. , a method for producing a transparent material having different optical properties on the front and back sides, comprising at least the following. 2) A step of printing a desired design with a solvent-based ink is performed between the step of printing with the water-soluble ink and the step of printing with the first solvent-based ink.
A method for producing a transparent material having different optical properties on the front and back sides as described in Section 1. 3) The front and back surfaces according to claim 1 or 2, wherein a step of printing a desired design with a solvent-based ink is performed between the step of printing with the second solvent-based ink and the peeling step. A method for producing transparent materials with different optical properties.