JPH0655858A - Ink ribbon - Google Patents

Abstract

PURPOSE:To provide an ink ribbon wherein ooze of ink on space and penetration into the rear are not caused by providing an ink layer which contains ink consisting of oil soluble dye and resin fine powder capable of being dyed by dye on the ribbon base material. CONSTITUTION:Coating liquid is prepared by blending oil soluble dye, pigment, a dispersant, a vehicle and dyeable resin fine powder and uniformly mixing the blended material by a mixer. Ribbon base material is coated with the coating liquid and dried to form an ink ribbon. The ribbon base material is constituted of fabric, knitted items and nonwoven fabric which are made of synthetic fiber such as polyamide and polyester and of natural fiber such as cotton and silk. As the concrete example of the above oil soluble dye, C.I. solvent yellow-2, 6, 14, etc., are shown. As the concrete example of the resin fine powder, the fine powder of acrylic resin and polyamide resin Is. shown. Clear printing free from ooze is enabled because the obtained ink ribbon contains the resin fine powder in ink.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ink ribbon used in an impact printer used in a terminal device of a computer or a typewriter.

[0002]

2. Description of the Related Art Conventionally, an ink used for an ink ribbon is generally a vehicle such as vegetable oil or mineral oil to which a dye or carbon black is added as a colorant and uniformly kneaded and dispersed. . By the way, carbon black is an important coloring agent in this composition because it has no fading property, but it is well known that it adversely affects the wear of the head pin wire of the printer.

As a means for improving this wire wear,
It is possible to replace the carbon black with an organic pigment having a lower hardness, but it is difficult to obtain a sufficient printing density by this method, and if the pigment addition amount is increased to make the printing density sufficient, the ink will be There are drawbacks such as high viscosity and shortened printing life. Therefore, the use of an oil-soluble dye having a good printing life as a colorant has been studied.

[0004]

However, since this oil-soluble dye has a low affinity for paper, it penetrates into the fibrous structure of the paper together with the vehicle, causing bleeding of the drawn line on the paper surface and the back surface. The conventional ink ribbon using the oil-soluble dye has a drawback that it is difficult to maintain the initial print density and print quality.

Therefore, the present invention does not impair the good printing life of the oil-soluble dye, does not cause ink bleeding on the paper surface and permeation to the back surface, which is a conventional problem, and has a high quality. It is an object of the present invention to provide an ink ribbon capable of obtaining a print density.

[0006]

The ink ribbon of the present invention has been made in order to solve the conventional problems and achieve the above-mentioned object, and the gist thereof is to include a ribbon base material and an ink. In the constituted ink ribbon, the ink contains an oil-soluble dye as a colorant,
It is characterized by containing a resin fine powder which is insoluble in a vehicle and can be dyed with an oil-soluble dye.

The structure of the present invention will be described in detail.
As the ribbon base material used in the present invention, a woven fabric, a knitted fabric, a non-woven fabric or the like made of synthetic fibers such as polyamide or polyester, or natural fibers such as cotton or silk is used as in the conventional case, but in the present invention, it is particularly Not limited. Further, it may be one that has been densified by hot pressing or the like.

As the vehicle used in the present invention, conventionally known high-boiling animal and vegetable oils, mineral oils, synthetic oils, higher fatty acids and the like can be used, and the compounding ratio thereof is 30 to the total weight of the ink composition. 90% by weight.

As the colorant used in the present invention, a colorant containing an oil-soluble dye is used. Examples of the oil-soluble dye include C.I. I. Solvent Yellow 2, the same 6, the same 14, the same 15, the same 16, the same 19, the same 21, C.I. I. Solvent Red 1, same 3, same 8, same 23, same 24, same 2
5, ibid 27, ibid 30, ibid 49, ibid 81, ibid 82, ibid 10
0, C.I. I. Solvent Black 3, 5, 5, 7 and 2
2, 23 and the like, and an organic pigment or the like, for example, a phthalocyanine pigment may be blended with the oil-soluble dye, and the blending ratio of these colorants is 3 with respect to the total weight of the ink composition. ~ 30% by weight.

The resin fine powder used in the present invention may be one which is insoluble in the above-mentioned vehicle and can be dyed with the above oil-soluble dye, and for example, acrylic resin, polyamide resin, cellulose or the like is used. it can. If the resin fine powder is soluble in the vehicle, the ink will bleed on the surface of the paper when printed and will penetrate into the back surface, and the resin fine powder will not be dyed with an oil-soluble dye. As a result, variations in light and shade occur when printed, which is not preferable. Therefore, the resin fine powder used in the present invention is selected so that it is insoluble in the vehicle and can be dyed with an oil-soluble dye. The particle size of the resin fine powder is 0.2 to
The thickness is preferably 2.0 μm. Particle size is 0.2 μm
If it is less than the above range, the fine powder will not penetrate the fibrous structure of the paper together with the vehicle and thus cannot serve as a filler. If the particle size exceeds 2.0 μm, the fine powder will It is not preferable because it cannot penetrate into the base fabric fibers that will be the ribbon base material and the printing life will be shortened. Further, the compounding ratio of this resin fine powder is 3 with respect to the total amount of the ink composition.
~ 30% by weight.

The ink ribbon of the present invention is prepared by uniformly mixing a colorant containing the above oil-soluble dye, a vehicle, a resin fine powder and, if necessary, an auxiliary agent such as a dispersant with a mixer or the like, preferably the mixture. Is kneaded using a kneader capable of applying a high shearing force to the compound, for example, a three-roll mill, a bead mill, a ball mill, etc., and then coated and impregnated on a ribbon base material to produce the composition. As the auxiliary agent such as the dispersant, for example, sorbitan fatty acid ester or the like is used, and as the fatty acid, lauric acid, palmitic acid, stearic acid, oleic acid or the like is used.

[0012]

The ink ribbon of the present invention contains the above resin fine powder in the ink to enable clear printing without bleeding. That is, since the resin fine powder contained in the ink is dyed with an oil-soluble dye, it does not permeate into the fiber structure of the paper when printed, and serves as a sealing on the paper surface. Bleeding of drawn lines and penetration of the back side are prevented.

[0013]

The present invention will be described in more detail with reference to the following examples, but the present invention is not limited to these examples.

Example 1 Oil-soluble dye (CISolvent Black 3) 12% by weight Pigment (dioxazine violet, phthalocyanine blue) 10% by weight Dispersant (sorbitan oleic acid ester) 4% by weight Vehicle (diisodecyl phthalate) 69% by weight Resin Fine powder (acrylic resin, particle size 1.5 μm) 5% by weight The above blended composition is uniformly mixed by a mixer and dispersed by a three-roll mill, and then a ribbon base material made of nylon 66 and having a width of 16 mm is applied. An ink ribbon was obtained by coating and impregnating so that the coating amount was 14 g / m ² . This ink ribbon was printed using a commercially available dot impact printer [MB27410 manufactured by Fujitsu Ltd.] and evaluated for print density, bleeding of drawn lines, strikethrough, or print life immediately after printing and one week after printing. . The results are shown in Table 1.

Regarding the evaluation standard of the print density, ⊚: there is no variation in lightness or darkness in the print, ○: there is little variation in lightness or darkness in the print, Δ: there is variation in lightness or darkness in the print Slightly large amount, x: It was difficult to read because the print had a large variation in light and shade or fading. Regarding the evaluation criteria of the blur of the drawn line, ◎: no blur of the drawn line, ○: little blur of the drawn line, △: slightly blur of the drawn line, ×: many of the blur of the drawn line, and difficult to read And Regarding the evaluation criteria for strike-through, ◎: No penetration of ink to the back surface, ○: Little penetration of ink to the back surface, △: Some penetration of ink to the back surface, ×: To back surface There is a lot of penetration of the ink of. Regarding the evaluation standard of printing life, ◎: printing life is longer than that using a normal ink ribbon, ○: printing life is slightly longer than that using a normal ink ribbon, △: normal ink ribbon is used The print life was slightly inferior to that used, and x: The print life was inferior to that using a normal ink ribbon.

Example 2 Oil-soluble dye (CISolvent Black 3) 12% by weight Pigment (dioxazine violet, phthalocyanine blue) 10% by weight Dispersant (sorbitan oleic acid ester) 4% by weight Vehicle (diisodecyl phthalate) 64% by weight Resin Fine powder (acrylic resin, particle size 1.5 μm) 10% by weight The above composition was prepared into an ink ribbon in the same manner as in Example 1 and evaluated. The results are shown in Table 1.

Example 3 Oil-soluble dye (CISolvent Black 3) 12% by weight Pigment (dioxazine violet, phthalocyanine blue) 10% by weight Dispersant (sorbitan oleic acid ester) 4% by weight Vehicle (diisodecyl phthalate) 64% by weight Resin Fine powder (acrylic resin, particle diameter 0.25 μm) 10% by weight The above-mentioned blended composition was prepared into an ink ribbon in the same manner as in Example 1 and evaluated. The results are shown in Table 1.

Comparative Example 1 (without containing fine resin powder) Oil-soluble dye (CISolvent Black 3) 12% by weight Pigment (dioxazine violet, phthalocyanine blue) 10% by weight Dispersant (sorbitan oleate) 4% by weight Vehicle (Diisodecyl phthalate) 74% by weight The above composition was prepared into an ink ribbon in the same manner as in Example 1 and evaluated. The results are shown in Table 1.

Comparative Example 2 (without containing oil-soluble dye and resin fine powder) Pigment (dioxazine violet, phthalocyanine blue) 22% by weight Dispersant (sorbitan oleic acid ester) 4% by weight Vehicle (diisodecyl phthalate) 74% by weight % An ink ribbon was prepared in the same manner as in Example 1 and the composition was evaluated. The results are shown in Table 1.

Comparative Example 3 (when the particle size of the resin fine powder is made extremely small) Oil-soluble dye (CISolvent Black 3) 12% by weight Pigment (dioxazine violet, phthalocyanine blue) 10% by weight Dispersant (sorbitan oleic acid ester) 4% by weight Vehicle (diisodecyl phthalate) 64% by weight Resin fine powder (acrylic resin, particle diameter 0.15 μm) 10% by weight The above-mentioned composition was prepared into an ink ribbon in the same manner as in Example 1 and evaluated. The results are shown in Table 1.

Comparative Example 4 (when the particle size of the resin fine powder is made extremely large) Oil-soluble dye (CISolvent Black 3) 12% by weight Pigment (dioxazine violet, phthalocyanine blue) 10% by weight Dispersant (sorbitan oleic acid ester) 4% by weight Vehicle (diisodecyl phthalate) 64% by weight Resin fine powder (acrylic resin, particle size 5.0 μm) 10% by weight An ink ribbon was prepared in the same manner as in Example 1 and evaluated. The results are shown in Table 1.

[0022]

[Table 1]

As is clear from the results in Table 1 above, the printing performance immediately after printing was good for the ink ribbon containing the oil-soluble dye (other than Comparative Example 2), and the blurring of the drawn line and the strike-through Can't be seen. However, in Comparative Example 1 which does not contain the resin fine powder, the dye permeates into the fiber structure of the paper with the vehicle with the elapse of one week after printing, so that blurring of the drawn line and strikethrough occur.

Among the ink ribbons containing resin fine powder, the fine powder has a particle size of 0.2 to 2.0 μm.
In Comparative Examples 3 and 4, which are out of the range of m, the printing performance immediately after printing is good, but in Comparative Example 3, the particle size (0.15 μm) is too small, and therefore, it can serve as a sealing on the paper surface. The bleeding of the drawn line and strike-through occurred over time, and in Comparative Example 4, the particle diameter (5.0 μm) was too large, so it could not penetrate into the base fabric fiber as the ribbon base material, and the printing life was increased. Is short.

Further, in comparison of Examples 1 and 2 having the same ink composition, Example 2 having a large resin fine powder content (doubled) has better stability with time. Furthermore, Comparative Example 2 containing only a pigment as a colorant is excellent in bleeding of a drawn line and strike-through even after one week has passed after printing, but in Comparative Example 2 and Comparative Examples in terms of print density and print life. It is inferior to the example.

[0026]

According to the present invention, the conventional problems such as ink bleeding on the paper surface and penetration to the back surface when an oil-soluble dye is used in the ink ribbon have been solved. That is,
The ink ribbon according to the present invention is free from ink bleeding on the paper surface and permeating to the back surface even when viewed over time, and is excellent in print density and print life.

Claims (1)

[Claims] 1. An ink ribbon composed of a ribbon base material and an ink, wherein the ink contains an oil-soluble dye as a colorant, and a resin fine powder which is insoluble in a vehicle and can be dyed with the oil-soluble dye. An ink ribbon characterized by containing.