JPS60260919A - Method for printing with liquid crystal capsule - Google Patents

Abstract

PURPOSE:To print at once powder colored in a deep color on the lower surface and a liquid crystal capsule on the upper surface, by printing with a liquid crystal capsule ink, into which powder of a substance which is colored in the deep color and attracted by magnetic force is mixed, and then, applying magnetic force from the back while the ink keeps fluidity. CONSTITUTION:Printing is performed by using a liquid crystal capsule 4 and a liquid crystal capsule ink, in which powder 5, such as iron powder colored in a deep color, etc., which is attracted by magnetic force is mixed into a solvent, such as water, etc. While the ink keeps fluidity, the iron powder 5 is attracted by means of a magnet 6 from the back of a printing paper 1. The iron powder 5 is fixed to the surface of the printing paper 1, with the liquid crystal capsules 4 and 4' being put on the iron powder 5. Reflecting lights of white lights, etc., from the printing paper are shielded by the iron powder 1 and, when the liquid crystal changes the color of the reflecting lights due to the change in temperature, the color change is clearly recognized visually. It is not necessary to print the deep color in advance for shielding the reflecting lights and the deep color can be printed at once together with the liquid crystal capsule 4.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for printing liquid crystal capsules and a printing liquid crystal capsule ink for use in this printing method.

(Prior Art) Some liquid crystals change the color of reflected light depending on the temperature. It is known that the color of the letters or figures changes depending on the temperature by sandwiching this between two pieces of grooved glass or the like to display letters or figures. However, this requires a complicated process because grooves must be formed on the glass or the like in the shape of letters or figures. Therefore, gelatin and liquid crystal, whose reflected light changes depending on temperature, are
Liquid crystal is encapsulated in a fine capsule layer by mixing it in a coating-forming substance such as gum arabic and stirring, and the liquid crystal capsules encapsulated in the capsule layer are applied to a support in the shape of letters. By doing so, it was possible to obtain characters whose color changes depending on the temperature.
-18351 is also introduced.

This method is very convenient because a large amount of liquid crystal capsule ink can be printed using a normal printing method.

However, even with this method, if the material to be printed, such as a paper plastic film or board (hereinafter collectively referred to as printing paper), is white or light colored, the color of the liquid crystal capsule may vary depending on the temperature. The reflected light from the printing paper interferes with the change, making it impossible to visually recognize the clear color change.

Therefore, when printing with liquid crystal capsule ink, as shown in the conceptual side view of FIG. There is an inconvenience in that it is necessary to print the graphics etc. in dark colors in advance as shown in 2, and then print with liquid crystal capsule ink so that the liquid crystal capsule 3 is placed on top of the previously printed image. . However, if the pre-printed ink uses an organic solvent, the liquid crystal capsule coating such as gelatin of the liquid crystal capsule ink to be printed later will be damaged by the organic solvent unless the organic solvent is sufficiently dried and volatilized. This will melt and destroy the liquid crystal capsule, making the printing process using liquid crystal capsule ink even more complicated.

(Purpose of the Invention) The present invention was made to solve the above problems, and it eliminates the step of pre-printing dark colors on light-colored printing paper as described above, and prints it all at once. The object of the present invention is to provide a printing method in which a dark color is printed on the bottom surface and a liquid crystal capsule is printed on the top surface.

(Structure of the Invention) The present invention involves printing using liquid crystal capsule ink for printing, which is made by mixing a powder of a substance that is attracted by magnetic force, such as iron powder, into a solvent mixed with liquid crystal capsules. While the fluidity of the liquid crystal capsule ink remains, a magnetic force is applied from the back side of the printing paper to cause the iron powder, etc. in the liquid crystal capsule ink to be deposited on the surface of the printing paper. The contact surface has a dark color 1. - A printing method in which iron powder, etc. is placed and liquid crystal capsule ink is placed on top of it to print in such a way that color changes due to the temperature of the liquid crystal are clearly visible. and a printing liquid crystal capsule ink used in the above printing.

(Example) The present invention will be described in detail below according to an example shown in the drawings. In the liquid crystal capsule ink used in the present invention, as shown in a conceptual side view in FIG. 2, in addition to liquid crystal capsules 4 being mixed in a solvent such as water, iron powder 5 is also mixed therein. As mentioned above, liquid crystal capsules are made by mixing liquid crystal into a solution with a substance for forming the capsule layer, such as gelatin or gum arabic, and stirring the mixture to form fine capsules with a diameter of microns. Although it is introduced in the above-mentioned publication that the liquid crystal is wrapped in this, it goes without saying that this method is not necessarily required. Iron powder 5 is mixed into the solvent mixed with this liquid crystal capsule ink. Needless to say, the material is not limited to iron powder, but may also be a substance that is attracted by magnetic force, such as nickel, finely divided into micron units. These iron powders and the like are colored darkly with pigments and mixed. However, if the iron powder itself has a dark color, it may be used as is. In addition to the above, the solvent contains
It goes without saying that other substances necessary for printing, such as light-colored dyes and spreading agents, may be mixed in if necessary.

Printing is carried out using the liquid crystal capsule ink constructed as described above in a conventional manner. Various methods such as offset printing can be used as the printing method, but letterpress printing, which applies excessive pressure to the liquid crystal capsule, is not very suitable because the pressure may break the liquid crystal capsule. In this printing process, before printing with liquid crystal capsule ink, it is not necessary to print the same shape in a dark color on the position to be printed later with liquid crystal capsules, as in the conventional case. Immediately after printing in this way, as shown in the conceptual side view in Figure 3,
A mixture of liquid crystal capsules 4 and iron powder 5 is placed on top of the printing paper 1.

After printing as described above, before the printed liquid crystal capsule ink dries and loses its fluidity, as shown in the conceptual side view of FIG. The iron powder 5 mixed in the capsule ink is sucked out.

As for the suction method, if it is roll paper, a magnet may be placed halfway along the travel path of the roll paper, or if it is cut paper, it is sufficient to place a magnet in the middle of the path where the paper is conveyed and stacked after the printing process. The magnetic force may be applied from the back side of the paper 1.

By doing this, as shown in FIG. 4, the iron powder 5 mixed in the liquid crystal capsule ink is attracted and deposited on the surface of the printing paper 1, and the liquid crystal capsule 4 is deposited on the surface of the printing paper 1.
．． It is printed in such a way that 4' appears on it. When the water, which is the solvent, dries and loses its fluidity, the iron powder is fixed to the surface of the printing paper l with the liquid crystal capsules remaining on top of it.

(Effects of the Invention) Since the present invention uses the method described above, after printing, iron powder that is colored in a dark color or is itself dark in color is deposited on the surface of the printing paper 1, and the iron powder is deposited on the surface of the printing paper 1. Since the liquid crystal capsule is printed in such a way that the liquid crystal capsule is placed on top of it, the reflected light such as white from the printing paper is blocked by the iron powder 1, and when the liquid crystal capsule changes the color of the reflected light due to a change in temperature, the color changes. Changes are not interfered with by reflected light from the white color of printing paper, etc.
Therefore, it is possible to clearly visually recognize the color change of the liquid crystal capsule.

Moreover, according to the present invention, there is no need to print in dark colors to block the reflected light from the printing paper before printing with the liquid crystal capsule, so the printing process is greatly simplified and the printing process is greatly simplified. There is no need to worry about misalignment, etc.

Furthermore, as described above, the liquid crystal capsule ink used in the present invention is suitable for the above printing method because it contains a substance that is attracted by magnetic force, such as iron powder.

Needless to say, there is no reason why the present invention should be limited to the above-mentioned embodiments, and the solvent for the liquid crystal capsule ink is not limited to water, but any solvent may be used as long as it does not dissolve the capsule material of the liquid crystal capsule. The substance that is attracted by magnetic force does not need to be limited to iron, and any substance that is attracted by magnetic force may be used. Furthermore, the present invention is not limited to the case where dark colors are printed on the surface of printing paper only in the portions printed by liquid crystal capsules in the form of characters or figures, as in the above-described embodiments; This can also be carried out when printing the underside of the image. That is, by printing a plain color on the entire surface of printing paper using liquid crystal capsule ink, a paper whose background color changes with temperature can be obtained. Furthermore, if a liquid crystal capsule ink having different temperature change characteristics is printed on this plain printing paper, it is possible to obtain a paper in which the background color changes depending on the temperature, and the characters or figures therein change in different colors.

[Brief explanation of the drawing]

Fig. 1 is a conceptual side view of the case of printing with conventional liquid crystal capsule ink, Fig. 2 is a conceptual side view of the liquid crystal/capsule ink used in the present invention, and Fig. 3 is a conceptual side view of the liquid crystal capsule ink immediately after printing. FIG. 4 is a conceptual side view showing a state in which iron powder of liquid crystal capsule ink is attracted by a magnet. In the figure, 4...Liquid crystal capsule 5...Iron powder 6...Magnet procedure amendment document July 6, 1980 1 Case 1989 Patent Application No. 117895 No. 2 Name of the invention Printing method using liquid crystal capsules 3 Relationship with the person making the amendment Address of the person Shoji Tanahe 2-1-17 Kaga, City, Chiba Prefecture Name 1) Katsuragi Bebe 4 Agent address 1- Ginza, Chuo-ku, Tokyo 14-6 Number of inventions increased by subonitivir 6 amendment None 1) Furigana column of patent applicant's name in Book Ij (2)
Full text from page 4 to page 9 of the specification 8 Contents of amendment (1) As per attached 1il Jl (2) List of attached documents as shown in attached specification 9 (1) Application to be amended 1 copy (2) Statement of reasons for errors 1 copy (3) Specification from page 4 to 9 that can be corrected 1 copy The organic solvent permeates through the membrane, changes the liquid crystal composition, and no longer shows proper coloring, so the printing process using liquid crystal capsule ink is even more difficult. It gets complicated. (Purpose of the Invention) The present invention was made to solve the above problems, and it eliminates the step of pre-printing dark colors on light-colored printing paper as described above, and prints it all at once. The object of the present invention is to provide a printing method in which a dark color is printed on the bottom surface and a liquid crystal capsule is printed on the top surface. (Battle Bottom of the Invention) The present invention uses a liquid crystal capsule ink for printing, which is made by mixing powder of a substance that is attracted by magnetic force, such as iron powder, into a solvent mixed with liquid crystal capsules. While the printed liquid crystal capsule ink remains fluid, a magnetic force is applied from the back side of the printing paper to deposit the iron powder, etc. in the liquid crystal capsule ink on the surface of the printing paper. A printing method in which dark-colored iron powder or the like is placed on the surface that is in contact with the liquid crystal, and liquid crystal capsule ink is placed on top of that to print in such a way that changes in color due to the temperature of the liquid crystal are clearly visible. and a printing liquid crystal capsule ink used in the above printing. (Example) The present invention will be described in detail below according to an example shown in the drawings. In the liquid crystal capsule ink used in the present invention, as shown in a conceptual side view in FIG. 2, in addition to liquid crystal capsules 4 being mixed in a solvent such as water, iron powder 5 is also mixed therein. As mentioned above, liquid crystal capsules are made by mixing liquid crystal into a solution with a substance for forming the capsule layer, such as gelatin or gum arabic, and stirring the mixture to form fine capsules with a diameter of microns. Although it is introduced in the above-mentioned publication that the liquid crystal is wrapped in this, it goes without saying that this method is not necessarily required. Iron powder 5 is mixed into the solvent mixed with this liquid crystal capsule ink. Of course, it is not limited to iron powder, but it goes without saying that substances such as nickel, which are attracted by magnetic force, finely divided into microns may also be used. These iron powders, etc. can be colored darkly with pigments and mixed in. However, If the iron powder itself has a dark color, it may be used as is.In addition to the above, the solvent may contain
It goes without saying that other substances necessary for printing, such as light-colored dyes and spreading agents, may be mixed in if necessary. Printing is carried out using the liquid crystal capsule ink constructed as described above in a conventional manner. Various methods such as screen printing can be used as the printing method, but letterpress printing, which applies excessive pressure to the liquid crystal capsule, is not very suitable because the pressure may break the liquid crystal capsule. In this printing process, it is not necessary to print the same shape in a dark color on the position to be printed later with the liquid crystal capsule before printing with the liquid crystal capsule ink as in the conventional method. Immediately after printing in this manner, a mixture of liquid crystal capsules 4 and iron powder 5 is placed on top of the printing paper 1, as shown in a conceptual side view in FIG. After printing as described above, before the printed liquid crystal capsule ink dries and loses its fluidity, as shown in the conceptual side view of FIG. The iron powder 5 mixed in the capsule ink is sucked out. As for the suction method, if it is roll paper, a magnet may be placed halfway along the travel path of the roll paper, or if it is cut paper, it is sufficient to place a magnet in the middle of the path where the paper is conveyed and stacked after the printing process. The magnetic force may be applied from the back side of the paper 1. By doing this, as shown in FIG. 4, the iron powder 5 mixed in the liquid crystal capsule ink is attracted and deposited on the surface of the printing paper 1, and the liquid crystal capsule 4 is deposited on the surface of the printing paper 1.
．． It is printed in such a way that 4' appears on it. As the solvent water dries and loses its fluidity, the iron powder is fixed to the surface of the printing paper 1 with the liquid crystal capsules still placed thereon. (Effects of the Invention) Since the present invention uses the method described above, after printing, iron powder that is colored in a dark color or is itself dark in color is deposited on the surface of the printing paper 1, and the iron powder is deposited on the surface of the printing paper 1. Since the liquid crystal capsule is printed in such a way that the liquid crystal capsule is placed on top of it, the reflected light such as white from the printing paper is blocked by the iron powder 1, and when the liquid crystal capsule changes the color of the reflected light due to a change in temperature, the color changes. Changes are not interfered with by reflected light from the white color of printing paper, etc.
Therefore, it is possible to clearly visually recognize the color change of the liquid crystal capsule. Moreover, according to the present invention, there is no need to print in dark colors to block the reflected light from the printing paper before printing with the liquid crystal capsule, so the printing process is greatly simplified and the printing process is greatly simplified. No more worries about rubbing etc. Furthermore, as described above, the liquid crystal capsule ink used in the present invention is suitable for the above printing method because it contains a substance that is attracted by magnetic force, such as iron powder. Of course, there is no reason why the present invention should be limited to the above embodiments, and the solvent for the liquid crystal capsule ink is not limited to water, but may be any solvent that does not permeate or melt the capsule of the liquid crystal capsule. The mixed substance that is attracted by magnetic force does not need to be limited to iron, and any substance that is attracted by magnetic force may be used. Furthermore, the present invention
As in the above embodiment, it is not limited to the case where dark color printing is performed on the surface of the printing paper only in the part where the characters or figures are printed by the liquid crystal capsule, but the dark color underprint is printed on the entire surface of the printing paper. It can also be carried out in some cases. That is, by printing a plain color on the entire surface of printing paper using liquid crystal capsule ink, it is possible to obtain a paper whose background color changes depending on the temperature. Furthermore, by printing liquid crystal capsule ink having different temperature change characteristics on this plain printing paper, it is possible to obtain paper in which the background color changes depending on the temperature and the characters or figures therein change in different colors. 4. Brief explanation of the drawings Figure 1 is a conceptual side view of printing with conventional liquid crystal capsule ink, Figure 2 is a conceptual side view of the liquid crystal capsule ink used in the present invention, and Figure 3 is a conceptual diagram of the liquid crystal immediately after printing. FIG. 4 is a conceptual side view of capsule ink showing a state in which iron powder of liquid crystal capsule ink is attracted by a magnet.

Claims (1)

[Scope of Claims] (11) Printing liquid crystal made by mixing a powder of a substance that is darkly colored or colored darkly and that is attracted by magnetic force, such as iron powder, into a solvent mixed with 11 liquid crystal capsules. After printing with capsule ink, while the printed liquid crystal capsule ink remains fluid, magnetic force is applied from the back of the printed object to remove the iron powder, etc. in the liquid crystal capsule ink. A printing method using liquid crystal capsules, which is characterized by depositing the liquid crystal capsules on the surface of the printed object. (2) A liquid crystal capsule is mixed with a solvent containing iron powder, etc., which itself has a dark color, or is colored in a dark color, and magnetic force. Claims 1.
Printing liquid crystal capsule ink for use in the invention described in 1.