DE19680301C2 - Pigment-based ink for inkjet printers - Google Patents

Description

The present invention relates to an aqueous ink for ink jet printers, the one has low viscosity and high dispersibility and that in high concentrations tration contains a pigment.

As printing inks are dye-containing inks, in which a dye as a colorant in a solvent is dissolved, and pigmented inks in which a solid pigment as Colorant dispersed in a liquid medium is available. The pigment-containing ink generally shows no discoloration, maintains the true color and is excellent in In terms of sharpness, compared to an ink containing dye.

Conventional inks for ink jet printers are primarily dye-containing Inks. However, these inks have drawbacks in terms of bleeding, the light resistance, water resistance, etc. Accordingly, the use pigment-based inks desirable. To overcome the drawbacks, inks have been developed Contain pigment such as carbon black, aniline black, etc., designed as in the Japanese Unexamined Patent Publications (Kokai) Nos. 61-283,875, 64-6,074 and 1-31,881. The pigment-containing ones disclosed in these patent publications However, inks have drawbacks in that these inks do not record well media such as sheets of paper stick and that agglomeration and Sedimentation in the ink liquid takes place when the inks have high pigments Contain concentration. As a result, the concentration of the Pigments in the inks for inkjet printers is low. The Japanese unchecked Patent Publication (Kokai) No. 5-331,395 discloses an ink for ink jet printers, in which particles are stabilized. The ink disclosed in this document contains water, a colorant and water-soluble polymer such as a polyvinyl alcohol.  

In order to prevent a nozzle from clogging, it is desirable that a nozzle Ink has an even lower viscosity and high dispersibility. A The object of the present invention is to provide an ink which is relatively small Has viscosity and high dispersibility and a pigment in high concentrations tration contains. Because it is insoluble in water or only slightly soluble in water Polymer material in which ink is used in accordance with the present invention is Polymer material is not distributed throughout the dispersion system, but is coated applied moderately to the surface of the pigment particles. As a result, it is possible to provide an ink that has low viscosity and high dispersibility and which contains a pigment in high concentration.

The above object is achieved by the ink according to claim 1 solved the present invention. Advantageous training The present invention is set out in the dependent claims.

The ink is made, for example, by dissolving a water-insoluble or slightly water-soluble, hydrophilic polymer material, which consists of the group consisting of Maleic anhydride copolymer resins, copolymerized nylon materials, poly vinyl isobutyl ether and polyvinyl ethyl ether is selected in an organic solvent containing Water miscible, such as THF (tetrahydrofuran) and DMF (dimethyl formamide), adding a pigment, dispersing the pigment with a ball mill etc. and evaporating the organic solvent. The dispersibility of the pigment can by coating the pigment with a water-insoluble or low water-soluble hydrophilic polymer material can be improved. As a result, it can the sedimentation of the pigment can be prevented. Since also the stickiness of a Such polymer material itself is high, the adhesion of the pigment to the Printing medium, such as a printing sheet, can be improved.  

The ink according to the present invention also contains one or more UV curable monomer (s) or oligomer (s). When printing on a medium (sheet of paper) with the ink of the present invention containing a curable monomer or oligomer, the ink thereon can be printed thereon by irradiating the medium with a UV light emitting lamp (e.g., with an intensity of 10 mW / cm ² ) are irradiated so that the monomer or oligomer cures instantly. Since such an ink contains a monomer or oligomer with a low viscosity, the ink has the advantage that head clogging does not occur because the ink as a whole is low in viscosity and does not cure until UV rays are irradiated. The UV curable monomer or oligomer can be any conventional UV curable monomer or oligomer. Examples of these monomers or oligomers include: TMPTA; DPHA; D-310; D-330 and MANDA (trade names; manufacturer: Nippon Kayaku Co., Ltd.). These compounds each have the following chemical formulas:

wherein five of the groups R are acryloyl groups and one of the groups R is an alkinoyl group or three groups R are acryloyl groups and three of the groups R are alkinoyl groups, or a mixture of a compound in which all groups R are acryloyl groups. Are groups, and a compound in which five of the groups R are acryloyl groups and one of the groups R is a hydroxy group; and

An oligomer which consists of the. Is also suitable as an oligomer which cures under UV radiation the aforementioned monomers results.

Conventional polymerization initiators such as 2,4-diethylthioxanthone and Benzophenone can be used as polymerization initiators for curing under UV radiation be used.

Useful pigments according to the present invention include all inorganic and organic pigments used in conventional pigmented inks are, for example synthetic inorganic pigments such as carbon black, aluminum oxide, Barium sulfate, chrome yellow and titanium white and synthetic organic pigments such as azo Pigments, paint pigments from basic dyes and phthalocyanine pigments. In addition, various metals and their oxides, etc. can also be used as pigments become.

The useful particle size of the pigments is in the range of 0.01 to 1 µm, especially preferably in the range from 0.01 to 0.5 μm.

When an organic pigment is used, the ink of the present invention can contain up to about 10 wt .-% of the organic pigment, based on the total  Ink preparation, and generally amounts are in the range of 1 to 5% by weight prefers. If an inorganic pigment is used, the ink can be up to about Contain 20 wt .-% of the inorganic pigment, generally amounts in the range of 3 up to 10% by weight.

Examples

The present invention will be further described in detail with reference to examples illustrated. However, the invention is in no way limited to these examples.

example 1

In a ball mill, which was equipped with a temperature control unit 100 g THF (tetrahydrofuran), 8 g of a pigment (trade name: Mitsubishi Carbon # 230) and 12 g of an isobutylene-maleic anhydride copolymer resin. The Substances were dispersed therein at 40 ° C for about 15 minutes until the resulting particle size was not more than 0.5 microns. That in an amount of 120 g like that dispersion obtained was placed in a solvent separator (distillation column) and 1,000 g of distilled water were also added. This was followed Heat and stir the mixture while emulsifying. THF then went so far evaporated that the THF content was not more than 0.01%, based on the weight of the Water, and then the water was evaporated until the water content in the Mixture was 80 g. The ink thus obtained is referred to as dispersion ink A.

50 parts by weight of dispersion ink A, 40 parts by weight of distilled water, 5 Parts by weight of diethylene glycol and 5 parts by weight of ethyl alcohol were stirred and in a super mill dispersion mixer (manufacturer: Inoue Seisakusho K.K.) mixed, followed by a step of filtering the mixture through a filter (0.5 µm) while receiving an ink. The ink had a viscosity of 2.8 cP at 20 ° C and contained 4% by weight of the pigment.  

Example 2

To reduce the effects of a curable monomer contained in the ink were examined, 50 parts by weight of the dispersion ink A, 48 parts by weight of TMPTA and 2 parts by weight of benzophenone and stirred in a super mill dispersion mixer (Manufacturer: Inoue Seisakusho K.K.), followed by a step of Filter the mixture through a filter (0.5 µm) to obtain an ink. The ink had a viscosity of 2.1 cP at 20 ° C and contained 4 wt .-% of the pigment.

Comparative Example 1

In a ball mill that was connected to a temperature control unit 92 g of water and 8 g of the same pigment as had been used in Example 1 Dispersed 40 ° C for 15 min until the resulting particle size did not exceed 0.5 µm was. The ink thus obtained is referred to as dispersion ink B.

50 parts by weight of dispersion ink B, 40 parts by weight of distilled water, 5 Parts by weight of diethylene glycol and 5 parts by weight of ethyl alcohol were stirred and in a super mill dispersion mixer (manufacturer: Inoue Seisakusho K.K.) mixed, followed by a step of filtering the mixture through a filter (0.5 µm) while receiving an ink. The ink had a viscosity of 1.8 cP at 20 ° C and contained 4% by weight of the pigment.

test method Test in the application environment (test 1)

Samples prepared as described in Example 1 and Comparative Example 1 above were in sample bottles at 5 ° C and 40 ° C for three months, respectively kept.  

Storage test in the packaging environment (test 2)

The samples were each in sample bottles at -5 ° C to 70 ° C for three months kept.

Tests 3 to 6 described below were carried out using an ink jet printer (trade name: FMJP 201; manufacturer: Fujitsu Ltd.) of the thermal ink jet type. The ink prepared in Example 2 was cured for 1 s using a UV lamp with an intensity of 10 mW / cm ² .

Discharge stability (test 3)

There was a continuous discharge to 1,000 sheets at room temperature (25 ° C), 5 ° C and 40 ° C. The recording stability was measured.

Print density (test 4)

Commercially available recycled paper sheets (WR paper sheets; manufacturer: company Xerox) were printed to obtain samples, and the density was measured with a Macbeth densitometer measured.

Print quality (test 5)

The recycled paper sheets as mentioned above were marked with a dot printed, and the extent of the dot diameter (bleeding) of each dot and the Roundness of the point was assessed with an optical microscope.

Detention of printed characters (test 6)

A sheet of paper was immediately printed with a sheet of the same type rubbed and the resulting color was assessed visually.  

Test 1 and 2

Neither deposition of the recording liquid nor sedimentation was observed in it: @
Although the recording liquid is deposited to a small extent, no sedimentation has been observed, and the recording liquid is restored to its original state by gentle shaking: O
Separation of the recording liquid is observed, and the recording liquid is not returned to its original state when gently shaken: x

Test 3

Stable discharge: O
Discharge with irregularities: x

Test 5

Printed dot with low bleeding and high circularity: @
Printed dot with heavy bleeding and low circularity: x

Test 6

No coloring is observed: @
Although the printed characters are well defined, the printed sheet is easily colored when rubbed when the sheet is fully printed: O
The peripheries of the printed characters are colored when rubbed: x

A thermal ink jet printer manufactured by Fujitsu Ltd. manufactured had been used in these examples. However, similar results will be obtained with other thermal printers or piezo inkjet printers.

The use of a water-insoluble or slightly water-soluble, hydrophilic Polymeric material such as an isobutylene-maleic anhydride copolymer Resin increases the stability of an aqueous dispersion of a pigment with this Polymer coated, and improves the adhesion of the pigment to the medium (Paper sheet) during printing due to the stickiness of the polymer material.

The addition of a monomer or oligomer curing under UV radiation lowers this Viscosity of the ink as a whole, and there is no curing as long as one Irradiation with UV rays did not occur. Accordingly, no clogging takes place on Head instead. Printing can be done with pigmented ink, which is excellent in terms of resistance to water and light instead of one to use dye-containing ink.

Claims (8)

1. Ink for inkjet printers that contain water, a pigment, a water-insoluble or slightly water-soluble, hydrophilic polymer material, which is selected from the group consisting of consists of isobutylene-maleic anhydride copolymer resins, copolymerized nylon Materials, polyvinyl isobutyl ether and polyvinyl ethyl ether, the pigment with the water-insoluble or slightly water-soluble hydrophilic polymer material is coated, and has a dispersion of a UV curing monomer or oligomer. 2. The ink according to claim 1, wherein the pigment is a synthetic inorganic pigment which is selected from the group consisting of carbon black, aluminum oxide, barium sulfate, Chrome yellow and titanium white. 3. The ink of claim 1, wherein the pigment is a synthetic organic pigment, that is selected from the group consisting of azo pigments, lacquer pigments from basic dyes and phthalocyanine pigments. 4. The ink of claim 1, wherein the pigment is a metal or metal oxide. 5. ink for inkjet printers according to claim 2, which up to 20 wt .-% of the pigment, based on the ink. 6. The ink according to claim 3, which contains up to 10% by weight of the pigment, based on the ink, having. 7. Ink according to one of claims 1 to 6, wherein the particle size of the pigment in Range is 0.01 to 1 micron. The ink of any one of claims 1 to 7, wherein the UV curing monomer is a monomer selected from the group consisting of
wherein five of the R groups are acryloyl groups and one R group is an alkinoyl group or three of the R groups are acryloyl groups and three of the R groups are alkinoyl groups, or a mixture of a compound in which all R groups are acryloyl groups, and a compound in which five of the R groups are acryloyl groups and an R group is a hydroxy group, and
or
the UV curing curing oligomer is an oligomer resulting from the monomers.