DE853455C - Multi-color printing process - Google Patents

Description

This invention relates to a method of making multicolored prints on a and the same printing area by means of a single printing color.

According to the features of the present invention, the method is to be applied optionally a single liquid containing a dye and a dye former, either on a zone of a printing surface that contains a substance that comes into contact with the color former reacts to produce a dye different from the former, or a zone of the pressure surface which is made non-reactive.

A printing fluid which gives satisfactory results when practicing the invention has, was prepared as follows (the proportions are given by weight): 3, 3-bis- (p-dimethylaminophenyl) -6-dimethylaminophthalide, also known as crystal violet lactone, which contains the in Fig. 1 ao. the structure shown in the drawing has: 3%; Sudan Red III, which has the structure shown in Figure 12 of the drawing: 3%; chlorinated diphenyl with 48%) chlorine content: 94V0.

Since the krias dissolved in the chlorodiphenyl stall violet lactone is essentially colorless, this liquid is usually red; H. she has essentially the color of Sudan Red III and

when applied to paper, becomes one make red imprint.

Hydrogenated methyl abietates can be used in the same ratio instead of chlorodiphenyl will. ■ - '..

Although reference is made to red dye in this particular example, it will be understood that the color of the dye used is consistent with the required basic color of the ίο there is liquid. Organic dyes are preferred but the results are satisfactory also achievable with pigment dyes.

Of the substances that can react with crystal violet lactone, an indelible one Attapulgite, also known as attapulgus clay, gives satisfactory results in producing color Results; a deep blue color is produced as a reaction product.

When enclosing a recording material at selected locations by an attapulgite particle Coating is coated or thereby made sensitive (which coating, since it knows is ideal for enclosing in a layer for white paper) so the printing The liquid red marks on not with attapulgite sensitized spots, but it will be owing to the mixing of the colors of the dye and produce a very dark purple print as a result of the reaction when on which is applied to areas made sensitive with attapulgite.

One suitable for use in practicing the present invention and attapulgite as a The sensitizing agent using paper can be made in the following manner become (the proportions are given by weight): 20%> become starch suspended in water Boiled for 15 minutes at a temperature of + 93-3 ° C, and after being cooled 4 parts of a dispersion of 1 part attapulgite in 3 parts water are added to one part thereof added. This coating material is applied to selected areas of the paper at room temperature applied and dried. The recommended thickness of the layer depends on the size ratio of 50.8 microns.

Other binders can be used in place of or in conjunction with the starch, such as Methyl cellulose, casein and butadiene styrene copolymer latex.

There are many other color-reacting substances that can be used in place of or in conjunction with crystal violet lactone or can be used together; they are usually colorless and take on color when in adsorptive contact with attapulgite; or they are normally colored, but change this color on contact with adsorption.

Of these other substances, the following can be mentioned:

i. Malachite green lactone, which is 3,3-bis (p-dimethylaminophenyl) phthalide and has the structural formula shown in FIG. 2 of the drawings.

This compound is usually colorless and will react to produce a green color.

2. 3, 3-bis (p-diethylaminophenyl) -6-dimethylaminophthalide, the structural formula of which is shown in FIG. 3 of the drawing.

This compound is usually colorless and will react to produce a dark blue color.

3. bis- (p-Dimethylaminophenyl) methane, otherwise known as Michlers' ketone, its structural formula is shown in Fig. 4 of the drawing.

This compound is usually colorless and will react to produce a dark blue color.

4. Methyl ether of Michler's ketone, which is bis (p-dimethylaminophenyl) methoxymethane and has the structural formula shown in Figure 5 of the drawings.

This compound is usually colorless and reacts to produce a dark purple color.

5. 3,3-bis (p-diethylaminophenyl) phthalide, the structural formula of which is shown in Fig. 6 of the drawing is.

This compound is usually colorless and will react to produce a blue-green color.

6. 3,3-bis (p-methylaminophenyl) phthalide, the structural formula of which is shown in FIG. 7 of the drawing is.

This compound is usually colorless and reacts to produce a bright blue color.

7-3-bis- (p-ethylaminophenyl) phthalide, its Structural formula is shown in Fig. 8 of the drawing.

This compound is usually colorless and will react to produce a dark blue color.

8. 3,3- bis - (p-n-Dipropylaminophenyl) phthalide, the structural formula of which is shown in Fig. 9 of the drawing is.

This compound is usually colorless and will react to produce a blue-green color.

9.2, 4-bis- [p- (p-Dimethylaminoazo) -anilino] -6-oxy-sym.-triazine, the structural formula of which is shown in FIG. 10 of the drawing.

This compound is usually yellow but reacts to produce a bluish gray color, and therefore it can be used with a red dye.

10. o-oxybenzalacetophenone, its structural formula is shown in Figure 11 of the drawings.

This compound is usually light yellow in color and when reacted produces a reddish yellow color; it is for use with one blue dye suitable to a green mark on sensitized paper and a to produce purple marking on a non-sensitized paper.

Adsorbent substances other than attapulgite iao can be substantially equal to satisfactory Proportions are used, with haloysite, magnesium trisilicate, kaolin, pyrophyllite, Talc, bentonite, calcium sulfate, zinc sulfite, calcium fluoride and sodium aluminum silicate zeolite or similar material in which the

Sodium cations by cations of nickel, Copper, iron, zinc, mercury, barium, lead, cadmium or potassium can be replaced, typical examples of these substances are. The sensitive exposed surface of the recording material can be prepared by a suitable Binder is used which does not cover the surfaces of the particles so that they are for on top applied color former remains reactive.

ίο As another option besides the above In addition to the dye, a substance may be present in the liquid which is not adsorbed compound, but an ion exchanger for use in conjunction with another reacting substance is which in the zuberukkenden Material is available. For example, the liquid can consist of 3% rhodamine B acetate and 3 to 8% ferric ammonium sulfate in 94 to 89% glycerol or hydrogenated methyl abietates (all in terms of weight) exist. This liquid can be made insensitive to one another Material used to make a red mark and to put on a tannin (tannic acid) sensitive material to produce a dark purple-brown mark. if Paper is used as the recording material, it can be removed by applying a solution of 3 percent by weight of tannin (tannic acid) in ethyl alcohol made sensitive on its surface will.

While the effect of the dye and the color former is best brought about when the dye is of the type described in the previous examples; d. H. than organic Dye is dissolved in a suitable solvent, the generated by the color former If color is not masked, a dye can also be applied which is made up in a liquid suspended pigments; provided these are chosen so that they do not mask the color produced by the color formers.

It is evident that the sensitized and insensitive parts are also separated can be and not formed by specific areas on a single uniform surface must be.

It is also possible to make the recording material sensitive over its entire surface to make and afterwards those places on which no coloring should take place again insensitive close. For example, recording materials coated with attapulgite can pass through coating in places with a solution of hexadecyltrimethylammonium chloride in ethyl alcohol be made insensitive.

In practice the liquid can be cleaned in any convenient and conventional manner, such as by brushing, Splashing, dabbing, printing or applying localized compressive force to the sensitive surfaces are applied; practical applications for this are the BuchuiTd Offset printing, the typewriter, hand stamps, handwriting, drawing and similar working techniques.

Claims (5)

Patent claims: 1. Method of making multicolored Prints with the aid of a single printing ink on one and the same printing surface, characterized in that, that a mixture of dye and dye former is used and in places on the surface to be printed before printing applies a substance that reacts with the color former to form a second dye whose tone is different from that of the first. 2. The method according to claim 1, characterized in that that initially the entire surface to be printed is coated with the substance that reacts with the color former and the latter then incapable of reacting in places due to the application of another chemical compound is made. 3. The method according to claim 1 and 2, characterized in that a printing ink is used containing the dye and color former dissolved in an inert liquid. 4. The method according to claim 3, characterized in that a printing ink is used which contains a color former with ion exchange character. 5. The method according to claim 3 and 4, characterized in that a printing ink is used which contains a solid color former in solution. 1 sheet of drawings 1 5423 10