DE10200291A1 - Ink composition for ink jet printing, comprises phosphorescent pigment(s) which is micro-capsulated in resin film and dispersed in vehicle, colorant(s) and vehicle comprising organic solvent surfactant(s) - Google Patents

Abstract

The ink composition comprises (1) At least one phosphorescent pigment; (2) At least one colorant providing an ink color; and (3) A vehicle comprising an organic solvent and at least one surfactant. The phosphorescent pigment is micro-capsulated in a resin film and is dispersed in the vehicle. An Independent claim is included for a method for ink jet printing. The method involves providing an ink jet ink and jetting the ink onto a medium. The phosphorescent pigment is encapsulated in a resin film to form a micro-capsule having a diameter of less than 1 mu m spread through the vehicle.

Description

The present invention relates to phosphorescent inks together Requirements for use in inkjet printing according to the Preamble of claim 1.

Luminescent pigments are generally considered to be either fluo categorized as resected or phosphorescent. typical The luminescence is wisely visible to the naked eye when Luminescent pigments activated by suitable radiation or be stimulated. In the past couple of years, there have been development of pigment ink with good water resistance durability and lightfastness and research into how to show the luminescent effect in color inkjet printing gen is. These include pigment ink compositions at least one category of pigments, water, an organic chemical solvent and other additives. The water resistant and lightfastness of images created by this Pig ment ink is made over that of ink far superior with a water-based dye.

None of the prior art phosphorescent ink compositions of technology and none of the methods of the prior art however proposes a phosphorescent ink composition which is suitable for use in inkjet printing processes, or teaches one. There are various problems for the prior art phosphorescent ink compositions Technique to be used in inkjet printing such as B. that the printer jet nozzles due to the particles Block the size of the phosphorescent pigments.

With this in mind, the present invention aims to an ink composition with a phosphorescent pigment for To provide color inkjet printing. The pigment can not only promote the print quality, the light fastness of Improve colorants and promote a gloss of colors,  but also the special luminescent colors in the dark show.

This is due to an ink composition for inkjet Printing operations according to claim 1 achieved. The dependent claims che concern corresponding further developments and improvements requirements.

As from the detailed description below can be seen more clearly, the new phosphorescence Ink composition the light fastness of a phosphorescence patterns on a writing medium made with an inkjet printer is printed, significantly. In addition, the Composition also that the unique luminescent colors can be seen in the dark. By the diameter of the Phosphorescent pigment is kept below 1 micrometer, be after all, there is no fear that the printer jet nozzle is clogged.

Luminescent pigments are generally made according to their lumines boundary properties divided into two categories: fluoresce rend and phosphorescent. Typically the Lumines zenz visible to the naked eye when luminescent pigments activated or stimulated by suitable radiation. The Absorption of energy from light radiation activates the Pig ment molecules in an excited state and then they start Pigment molecules to emit fluorescent light to their Stabilize energy state.

Phosphorescent pigments can absorb energy after they were irradiated with daylight. In contrast to fluorescence Zenzpigmenten can phosphorescent pigments the absorbed Save energy and use it in the dark in a form of release visible light. The emission of light from Phos  phorescent pigments keeps in a dark place after a time interval.

The difference between luminescent pigments and ordinary ones Pigments is that the ordinary pigments can change total absorbed energy into thermal energy or selectively light in the frequency ranges of visible light or reflect almost visible light. Stoßstrah or an additive effect of shock radiation and reflection Xion radiation creates the color of the luminescent pigments. The The result is that luminescent pigments in the additive Color range and no obvious absorption phenomenon in the visible light spectrum. Due to the Fact that phosphorus is the energy of light from one absorb natural or artificial light source and can also be stored in the dark by releasing of energy in the range of visible light Luminescence effect achieved.

Generally, ink for color inkjet printing is in the stomach taj ink, cyan ink, yellow ink and black Ink divided, mainly a dye on what base is used. Lately ink colors have become further in magenta ink, cyan ink, yellow Ink, black ink, light magenta ink, light cyan flat ink and light yellow ink divided. This put together tongues of ink include at least one dye on what water base, water, an organic solvent and other ad -propellant additives. The water resistance and light resistance of Images made by this ink with a dye on water basis, but is very good after printing bad.

Therefore, there has been a development in the past few years of pigment ink with good water resistance and light  persistence and research into how the Lumines to show the effect of color inkjet printing. This Pigment ink compositions include at least one Category of pigments, water, an organic solvent and other additives. The water resistance and light resistance image of images created by this pigment ink is compared to that of ink with a dye Water base far superior.

To get the contrast between the ink and the writing media like z. B. To improve paper, it is desirable that the ink for use in certain applications such as B. an opti reading system that is fluorescent. O'Brien et al. described in U.S. Pat. No. 2 940 937 the formulation of a dye, which is the hardening of a resinous material, followed by the Grinding the mass to a powder included.

Different formations of ink for inkjet printing courses are known in the specialist areas, such as. B. U.S. Pat. No. 3,994,736 issued to Hertz et al. on Nov. 30, 1976, with entitled "Ink Composition for Ink Jet Writing", U.S. Pat. No. 3,846,141, issued to Ostergren on Nov. 5, 1974, with the Title "Jet Printing Ink Composition", and US Pat. No. 4,150,997, issued to Hayes on Apr. 24, 1979, with the Title "Water Base Fluorescent Ink for Ink Jet Printing".

Phosphorescent pigments are also used to make various To manufacture luminescent products that luminesce for years. Some sample products are switches, lights to carry, ge objects for use in darkrooms, railings, lighting show how z. B. Wall displays, guide signs, rescue services witness other phosphorescent displays such. B. phosphores decorative security markings, decorative items such as z. B. ashtrays, earrings and tablecloths, toys, Stationery and the like. The preparations of this phospho  Rescent pigments are e.g. B. in U.S. Pat. No. 5,783,108 to Simon on July 21, 1998, entitled "Ink Composi tion "and U.S. Pat. No. 5,885,483 issued to Qinglong et al. on March 23, 1999, entitled "Long Afterglow Phosphor and A Process for the Preparing Thereof ".

None of the prior art phosphorescent ink compositions of technology and none of the methods of the prior art however, suggests the phosphorescent ink composition, which are suitable for use in ink jet printing or teaches one. There are various problems for the prior art phosphorescent ink compositions Technique to be used in inkjet printing. A major problem is that the printer jet nozzles due to the particle size of the phosphorescent pigments clog. To avoid clogging the nozzle of a printer, the particle size of phosphorescent pigments must be so small be made as possible. Typically this is Printer nozzle diameter 30 to 50 microns. Therefore should a suitable particle size of phosphorescent pigments be less than 1 micron (diameter). Size particulate materials in the ink composition could clog the opening if the printer is not in Use is. The second problem with ink compositions the state of the art is insufficient lightfastness and / or lightfastness. Furthermore, the hydrophilic property of previous phosphorescent pigments also their application in inkjet printing.

The present invention provides a new phosphorescent tin ready for use in one Inkjet printing system is suitable. The inks of the invention composition comprises a colorant, a liquid carrier and a phosphorescent pigment micro-coated with a resin film is encapsulated and dispersed in the liquid carrier.  

The carrier comprises an organic solvent such as e.g. B. Ethylene glycol, diethylene glycol, triethylene glycol, 2-pyrrolidone, propylene glycol, butylene glycol, pentylene glycol, N-methyl-2-pyrrolidone and the like. With another he The embodiment according to the invention further comprises the carrier Water with a content preferably in the range of 65 to 85% by weight based on the ink composition lies.

The colorant can be soluble in water or solvent cher dye such as B. magenta dye, cyan ner dye, yellow dye, black dye, light genta dye, light cyan dye, light gel about dye, etc. Other ingredients given if can be used include polybutyl resins, Cellu loose derivatives, styrene / acrylic copolymer resins, maleic acid / styrene Copolymers, or a polymer comprises a hydrophilic segment and a hydrophobic segment. These additional components can be used to either the surface tension property or to improve the adhesiveness of the ink.

The phosphorescent pigment can consist of zinc cadmium sulfide, calcium strontium sulfide, rare earth metal compounds and the like consist. A preferred zinc cadmium sulfide is represented by a general formula nZnS (1-n) CdS: Cu expressed, where n Is 0.781.0 and the composition of Cu is about 0.01 Ge % by weight. A preferred calcium strontium sulfide is expressed by a general formula nCaS (1-n) SrS: Bi, Cu, where n is 0 ~ 1.0 (the color shifts from blue to Green), the composition of Bi is about 0.04% by weight and the composition of Cu is about 0.01% by weight. Note that the phosphorescent pigment has a resin film is microencapsulated and has a pigment particle diameter of shows less than 1 micron. The microencapsulated Phos  phorescent pigment is used in the liquid carrier a dispersion medium known in the art dispersed.

Either a phosphorescent ink composition on water base or a phosphorescent ink composition on the An organic solvent base can be used for inkjet print at high speed according to the present Er invention are adopted. The phosphorescent inks together Waterborne settlement includes 0.1 ~ 20% phosphorescent pigments and the preferred range is 3% to 5%, 5.0% dyeing tel, 5.0% surfactants, 1.0 ~ 20% organic solvent, 65 ~ 85% Water, an acid-base buffer, a chelating agent, a bak tericide and a preservative. The phosphorescent tin composition based on an organic solvent means includes 0.1 ~ 20% phosphorescent pigments, 5.0% colorants, 5.0% surfactants, 65 ~ 90% organic solvent, an acid Base buffer, a chelating agent, a bactericide and a con servierungsmittel.

The production of phosphorescent inks according to the present the invention can be further illustrated by the following examples be shown. However, these examples are intended to protect the scope not limit the present invention. All percentages Units are based on weight unless otherwise stated give.

EXAMPLE 1

A water-based phosphorescent ink composition holds 0.1 ~ 20% microencapsulated phosphorescent pigment, 5.0% Colorant, 5.0% surfactant, 5.0% organic solvent, 65 ~ 85% water, an acid-base buffer, a chelating agent, a bactericide and a preservative. For environmental reasons it is suggested that the concentration of organic Lö  in the phosphorescent ink composition Water base below 10%, preferably between 5% and 7% lies.

The phosphorescent pigments of this invention have an average diameter of less than 1.0 µm. The phosphores Zen pigments are first known by those known in the art Process to less than 1.0 µm and then with resin mixed to form microcapsules. The associated stand the technology relating to micro-grain dispersion is in U.S. Pat. No. 4 150 997. Because the phosphorescence pigments of this invention diameter less than 1.0 µm they can have the nozzle clogging problems mentioned overcome.

A luminescence test for the water-based ink is also available according to a different weight percentage of phospho resence pigments executed such. B. 0.1%, 0.5%, 1.0%, 2.5%, 5.0%, 7.5%, 10%, 15% and 20% etc. The results show one good luminescent ability of the phosphorescent ink that, after which they are exposed to suitable radiation for minutes the luminescence lasts for an hour or more. The new phosphorescent ink of the invention also shows good ones Lightfastness and is very lightfast. Because the Phosphores tin pigments are microencapsulated with resin superior chemical stability. After a The jet of the printer will not be used for a long time clogged.

EXAMPLE 2

The second phosphorescent pigment ink composition of this Invention is a solvent based ink that is 0.1 ~ 20% Phosphorescent Pigments, 5.0% Colorants, 5.0% Surfactants, 65 ~ 90% organic solvent, an acid-base buffer, a Che  latifying agent, a bactericide, a preservative and at whose additives includes. No water is added.

Claims (21)

1. An ink composition for ink jet printing operations, the ink composition comprising:
at least one phosphorescent pigment;
at least one colorant that provides an ink color; and
a carrier with an organic solvent and at least one surfactant;
characterized in that the phosphorescent pigment is microencapsulated in a resin film and is dispersed in the carrier. 2. Ink composition according to claim 1, characterized in net that the carrier is a water-based solution. 3. Ink composition according to claim 2, characterized in net that the water content in the ink composition 65 is up to 85% by weight. 4. Ink composition according to claim 1, characterized in net that the carrier is a solvent-based solution is. 5. Ink composition according to claim 4, characterized in net that the organic solvent content in the Ink composition is 65 to 90% by weight. 6. Ink composition according to claim 1, characterized in net that the colorant comprises pigments. 7. Ink composition according to claim 1, characterized in net that the colorant comprises a dye.   8. Ink composition according to claim 1, characterized in net that the phosphorescent pigment has a diameter has less than 1.0 microns. 9. Ink composition according to claim 1, characterized in net that the carrier further comprises an additive that consists of is selected from the group consisting of acid-base buffers, Che latifying agents, bactericides and preservatives stands. 10. Ink composition according to claim 1, characterized in net that the content of the phosphorescent pigment within is in the range of 0.1 to 20% by weight, the content of the colorant within the range of 1 to 20 Ge % by weight, the content of the organic solvent is within the range of 1 to 20% by weight and the content of the surfactant within the range of 1 to 20 % By weight. 11. A method for ink jet printing, which comprises:
Providing an inkjet ink with:
at least one phosphorescent pigment;
at least one colorant that provides an ink color; and
a carrier with an organic solvent and at least one surfactant;
Ejecting the ink onto a medium;
characterized in that the phosphorescent pigment is encapsulated in a resin film to form a microcapsule with a diameter of less than 1 µm, which is distributed in the carrier. 12. The method according to claim 11, characterized in that the colorant is selected from the group consisting of ma genta-colored dyes, cyan-colored dyes, gel  ben colorants, black colorants, light magenta color coloring agents, light cyan coloring agents and light yellow colorants. 13. The method according to claim 11, characterized in that the carrier is a water-based solution. 14. The method according to claim 13, characterized in that the water content in the ink composition is 65 to 85 Ge % by weight. 15. The ink composition of claim 11, characterized characterized in that the carrier has a solution on solution with tel basis is. 16. The ink composition of claim 15, characterized characterized in that the organic solvent content with tel in the ink composition from 65 to 90% by weight wearing. 17. The method according to claim 11, characterized in that the colorant comprises pigments. 18. The method according to claim 11, characterized in that the colorant comprises a dye. 19. The method according to claim 11, characterized in that the particles of the phosphorescent pigment have a diameter have less than 1.0 microns. 20. The method according to claim 11, characterized in that the carrier further comprises an additive selected from the group selected from acid-base buffers, chelating agents, Bactericides and preservatives exist.   21. The method according to claim 11, characterized in that the content of the phosphorescent pigment within the Be is from 0.1 to 20% by weight, the content of the dye within the range of 1 to 20% by weight lies, the content of the organic solvent within is in the range of 1 to 20% by weight and the content of the surfactant within the range of 1 to 20% by weight lies.