JPS62267379A - Ink composition - Google Patents

Abstract

PURPOSE:An ink composition which is useful for printing and ink jet printer, can arbitrarily adjust melting point and viscosity, filter and expel foams in the ink and feed ink magnetically, containing wax and magnetic powder. CONSTITUTION:The aimed composition containing (A) at least one kind of wax (e.g. natural, synthetic or blended wax, etc.) and (B) at least >=1V% magnetic powder (e.g. Fe, Co, Ni, alloy thereof, iron oxide type, chromium oxide, Mn alloy, etc.).

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to an ink for seals and inkjet printers, and is an ink composition to which magnetic properties are added.

[Summary of the invention]

The present invention provides an ink for prints and inkjet printers containing at least one type of wax.
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6.It is A.

[Conventional technology]

JP-A-58-108271 relates to an ink containing natural wax. Japanese Unexamined Patent Publication No. 59/1972 = 147217
G'! Magnetic powder is colloidally dispersed in an organic solvent such as kerosene or glycerin, or in water. Japanese Patent Publication No. 5
No. 9-22973 is a non-aqueous inkjet ink composition containing stearic acid. There is still no ink that has magnetic powder dispersed in wax.

Inkjet inks are difficult to maintain in printers, such as inability to print due to air bubbles or inability to print due to ink clogging, which has hindered the spread of inkjet printers.

Furthermore, when making a line printer using an inkjet method, there is a limit to the ability to use multiple ink heads.

On the other hand, the drawback of inkjet printers, such as poor print quality, was solved by using wax-based ink.

The above-mentioned two factors are hindering the spread of inkjet printers.

A method using magnetic ink has been developed as an inkjet printer, but it is a method in which the magnetic ink is piled up on a stylus, and it has not been put into practical use because there is no good method for spraying ink droplets.

[The gap that the invention attempts to solve]

The purpose of this publication is 1) Practical use of ink with good printed product marks 2) Satisfying 1), preventing ink clogging and inability to print due to air bubbles 3) Satisfying 1) and 2), and achieving low cost. The purpose is to enable the line head of the line.

The present invention imparts magnetic properties to the ink by dispersing magnetic powder in the ink containing at least one type of wax. As a result, 1) Good printing is possible.

2) Ink can be supplied magnetically.

3) Air bubbles contained in ink can be filtered by applying a magnetic gradient.

4) &i Bubbles generated in a certain magnetic field gradient can be expelled out of the magnetic gradient.

5) By heating the ink in the Goba gradient, the ink can be moved.

6) Due to 5), the cost of line heads with scattered slits has been reduced.

7) After printing, the printed characters can be detected magnetically in addition to optically.

8) Ink can be moved by magnetic field gradients.

The following problems were resolved.

[Means to solve the problem]

At least 1V% or more of magnetic powder is dispersed in at least one type of wax to impart magnetism to the ink.

The waxes used in the present invention are shown in Table 1, and although their specific names are listed on the right end, they constitute only a part of the present invention. Namely, natural wax.

Refers to synthetic waxes and blended waxes.゛The magnetic powders used in the present invention are 7e and ? e-alloy.

Examples of N1 and N1 alloys, co and CO alloys, iron oxides, chromium oxides, Mn alloys, etc. are ferrite, iron, iron-silicon-phosphorus alloys, and rare earth-iron alloys.

It is clear that the composition of the magnetic powder is not limited to a specific composition or a single point for the purpose of the invention, which is to impart magnetic properties to the ink.

〔Example〕

Example 1 Table 2 shows the ink composition when ferrite was used as the magnetic powder. Oleic acid and stearic acid have a role (V) as a dispersant for magnetic powder A. Wax becomes a liquid when it forms ink droplets and solidifies when it hits the paper. The colorant is ink l+6~/r+'l'-P&-L
-t τy+>1. ．． 1MMue-1--1 Ma? l/p
IX, , 'w1+j carbon black is inexpensive. Magnetic powder is ferrite with a particle size of 1ooX to 100
μ. The buoyant force is 1'f/e, which is a guideline for removing air bubbles.
IA or above is fine. The magnetic field gradient is 0 in the case of 100 to 00/. The role of the magnetic powder is to move the ink magnetically.

The moving speed of the ink is proportional to the magnitude of magnetization of the magnetic powder contained in a unit volume of the ink, and increases as the V% of the magnetic powder increases. As the V% of the magnetic powder increases, the viscosity of the ink increases. The V% of the magnetic powder in terms of viscosity depends on the particle size of the magnetic powder, but the upper limit is 90V5, and it is good up to 60V% humidity regardless of the particle size of the magnetic powder.

Table 3 shows Sm2F6t? as magnetic powder B? An example of an ink composition using the following is shown below.

Sm2? The saturation magnetization of ety is larger than that of ferrite, and a large buoyancy will occur. The temperature of the single Chieri point of Sm21Fe17 is 130° C., and the magnitude of magnetization changes greatly depending on the temperature. Using this temperature-sensitive property, when a magnetic field is applied to the ink and a part of it is heated, the heated ink part moves by the force generated by the 'α magnetic force.

Stearic acid and oleic acid are C! Having an OOH group, these act as a fractionating agent for magnetic powder and also have the effect of increasing the compatibility between ink and paper.

The magnetic powder in the present invention includes 7-elite, chromium oxide, M
n-B1. Mn-Human 1,1Pe-Ni alloy, Ni
-Ou alloy, 7e -CO-S i -B amorphous alloy, ? e -Co-Ni-Si-B amorphous alloy.

Tt o-N i-31-B amorphous alloy, IFe, 'P
, Nd-7θ alloy, P r -? e alloy, Sm-?
e Gold alloys include all ferromagnetic materials. The shape can be powder, flake, or 7-eye shape, and the diameter is 10
01 to 100μ, ie, single domain and multidomain crystals. This also includes ferromagnetic materials, which become super paramagnetic when the particle size becomes small.

Table 1 Table 3 [Effects of the invention] Print quality is improved when wax is used in the ink. The advantage of mixing wax is that the melting point and viscosity can be adjusted to the desired level.

When magnetic powder is mixed and dispersed in such ink, 1) air bubbles in the ink can be filtered and expelled;

2) You can supply ink at 8i.

3) Ink can be moved by heating.

4) Ink can be moved by creating a magnetic field gradient.

5) Printed characters can be read magnetically.

As described above, when this ink is used in an inkjet printer, printing quality is good, and printing is prevented from being impossible due to air bubbles in the ink, and ink droplets are prevented from moving.

This prevents clogging caused by ink drying.

that's all

Claims (1)

[Claims] An ink composition characterized by containing at least one type of wax and at least 1V% or more of magnetic powder.