CN1732239A - Water-based ink, ink jet recording method, ink cartridge, recording unit, ink jet recording apparatus, and image forming method - Google Patents
Water-based ink, ink jet recording method, ink cartridge, recording unit, ink jet recording apparatus, and image forming method Download PDFInfo
- Publication number
- CN1732239A CN1732239A CN 200380107550 CN200380107550A CN1732239A CN 1732239 A CN1732239 A CN 1732239A CN 200380107550 CN200380107550 CN 200380107550 CN 200380107550 A CN200380107550 A CN 200380107550A CN 1732239 A CN1732239 A CN 1732239A
- Authority
- CN
- China
- Prior art keywords
- water
- ink
- printing ink
- mentioned
- pigment
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Inks, Pencil-Leads, Or Crayons (AREA)
- Ink Jet Recording Methods And Recording Media Thereof (AREA)
- Ink Jet (AREA)
Abstract
A water base ink comprising water, multiple water soluble organic solvents of different types and a water insoluble color material, wherein the multiple water soluble organic solvents comprises a good solvent for the water insoluble color material and a poor solvent for the water insoluble color material, wherein providing that A represents the total amount (mass%) of good solvent in the ink while B represents the total amount (mass%) of poor solvent in the ink, the ratio of A:B is in the range of 10:5 to 10:30, and wherein upon comparison of the respective Ka values, determined in accordance with the Bristow method, of the multiple water soluble organic solvents, the water soluble organic solvent exhibiting the maximum Ka value is a poor solvent. With respect to pigment inks, images of high OD having a satisfactorily large area factor even with a small amount of ink drop can be obtained.
Description
Technical field
The present invention relates to contain the water color ink of water-insoluble colorant, relate to the recording method and the recording unit that use ink-jet recording in more detail, have again, be applicable to the water color ink of ink jet image formation method.
Background technology
All the time, well-known, according to containing water-insoluble colorant, for example containing the printing ink (pigment ink) of pigment, can obtain the image of the stability excellence of water tolerance and photostabilization etc. as tinting material.
In recent years, according to such printing ink, with the optical concentration of formed image further rise to purpose, various technical schemes have been proposed.For example, proposed to contain the printing ink of self-dispersion type carbon black and specific salt formation, realized the technical scheme (for example, referring to Patent Document 1) of the further raising of image color by use.In addition, the aqueous solution that makes the ink for ink-jet recording of the composition that contains pigment, polymer particles, water-miscible organic solvent and water in addition and contain polyvalent metal is attached on the recording medium, make this ink composite and polyvalent metal reactant aqueous solution, form the technology motion (for example, referring to Patent Document 2) of high-grade image.These technology in any situation, can both make the pigment that exists with dispersion state in the printing ink in the aggegation forcibly of recording medium surface, in view of the above, suppress pigment soaking in recording medium,, obtain the higher image of concentration with respect to the basis resulting image of pigment ink in the past.
; according to inventor's etc. research as can be known: above-mentioned technology is in order to make pigment particles aggegation on recording medium; with respect to the volume of droplet of ink, there is the inadequate situation of area (so-called area factor (area factor)) that covers the recording medium surface with colorant.This with in the past according to macromolecule dispersing agent etc. the situation of the pigment ink of colo(u)rant dispersion is compared, mean above-mentioned technology in order to obtain identical image color, necessary printing ink to give quantitative change many, also have room for improvement in this.In addition, exist by improving impregnability, even also can obtain the method for big area factor with the droplet of ink of small volume with respect to the recording medium of printing ink, but, when improving the impregnability of printing ink, not only to the surface of recording medium, also soak into, can not obtain sufficient image color to inside.
The spy opens the 2000-198955 communique
Patent documentation 2
The spy opens the 2000-63719 communique
Summary of the invention
The various merits and demerits of research such as inventor printing ink in the past, the feature of analysis image self, clear and definite colorant in the printing ink is high density, colorant is a large amount of more is present in the recording medium surface, perhaps form shape point at random visually, also have, in recording medium, can not effectively utilize the colorant of hope and waste.The inventor etc. solve at least 1 of these technical tasks, have found can form than more excellent in the past image.The problem of discoveries such as the inventor is enumerated following, still the invention solves at least 1 of following problem.
(1) if with the pigment that exists with dispersion state in the printing ink in the aggegation forcibly of recording medium surface, volume than droplet of ink, the area that covers the recording medium surface with colorant will become insufficient, and this moment is in order to obtain identical image color, necessary printing ink to give quantitative change many.
(2) when when improving the impregnability of printing ink, this printing ink is not only to the surface of recording medium, and also the depth direction to the recording medium of printing ink soaks into, and the near surface in recording medium can not make colorant distribute with high density, can not realize high image density.
Thereby, the object of the present invention is to provide water color ink, it is in pigment ink, even few droplet of ink amount also has fully big area factor, and can obtain the high image of OD (image color), in addition, the water color ink of prolonged preservation excellent in stability.In addition, other purpose of the present invention is to be provided to be used when being correlated with printing ink, with few printing ink amount of giving, can form OD ink jet recording method high, high-grade image.In addition, other purpose of the present invention is to provide print cartridge, record cell and the ink-jet recording device that is suitable for the aforesaid method use.In addition, other purpose of the present invention is to be provided on the common paper when coloured image record of adjacency is carried out in the zone of different colours mutually and does not produce along slurry, can effectively control the image forming method of the colour mixture (bleeding) of black ink and colored ink zone intersection.
Technical key point of the present invention is summed up on thinking ground, water color ink of the present invention, be to contain water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that, these a plurality of water-miscible organic solvents are with respect to the good solvent of the water-insoluble colorant that uses with respect to the poor solvent of the water-insoluble colorant that uses, in each Ka value of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method, poor solvent is the water-miscible organic solvent that shows maximum Ka value, the poor solvent of the Ka value that this demonstration is maximum spreads to be similar to just round shape near the recording medium surface than above-mentioned good solvent is more first, in the process of diffusion, the aggegation of auxiliary above-mentioned water-insoluble colorant.Remove according to relevant and constitute, diffusion can not influence image color in the recording medium as in the past, in printing ink, there is no need outside a large amount of advantages that contains the colorant of consuming with being disabled, the ideal situation of image itself, the i.e. a large amount of colorant of configuration on the recording medium surface not, simultaneously, in recording medium, be not seeped into reverse side (double-sided recording modes becomes possibility), as a result, the face side in recording medium can form high-density images with the state of homogenization.
Reached above-mentioned purpose by following the present invention.Promptly, the water color ink that relates in an embodiment of the invention, containing [1] water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that, these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, when all wts (weight %) with the good solvent in this printing ink is A, when being B with all wts (weight %) of the poor solvent in the printing ink, A: B is in the scope below 10: 30 more than 10: 5, and relatively the Ka value of each of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method shows that wherein the water-soluble solvent of the Ka value of maximum is a poor solvent.
In addition, the water color ink that relates in an embodiment of the invention, containing water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that, these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, and the Ka value of each of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method relatively, the water-soluble solvent that wherein shows maximum Ka value is in the water color ink of poor solvent, attachment state with respect to the common paper of above-mentioned water color ink, use pin footpath 28G (internal diameter: 0.18mm, external diameter: syringe needle 0.36mm), with the front-end configuration of this syringe needle is the height place of 4mm in the distance with the common paper surface, printing ink therefrom drips, thereafter, when making the printing ink set, the measured value of the diameter of the ink dot after being attached to common paper with printing ink is dI, the measured value that is bonded to the maximum diameter of the ink diffusion after the common paper with printing ink is dS, when the measured value that is bonded to the maximum diameter of the water-insoluble bleeding in the printing ink after the common paper with printing ink is dC, between above-mentioned each measured value, the relation of following (formula 1) is set up, and, after by ink-vapor recording ink print being bonded to common paper, be less than 30 μ m with respect to the degree of depth that exists of the water-insoluble colorant of common paper.
DC<dI<dS (formula 1)
In addition, ink jet recording method is arranged, it is characterized in that having the operation that sprays the water color ink of above-mentioned formation with ink ejecting method as other embodiment of the present invention.
In addition,, print cartridge is arranged, it is characterized in that to hold the water color ink of above-mentioned formation as other embodiment of the present invention; Record cell, the ink gun that it is characterized in that possessing the accommodation section of the water color ink that holds above-mentioned formation and this printing ink is sprayed; Ink-jet recording device, the ink gun that it is characterized in that possessing the accommodation section of the water color ink that holds above-mentioned formation and this printing ink is sprayed.
In addition, can enumerate following image forming method as preferred other the embodiment of the present invention.Promptly, image forming method of the present invention, be to use the hydrate colour printing ink of black ink and at least a color on common paper, to carry out the image forming method of ink-vapor recording, it is characterized in that, on black ink, use the water color ink of above-mentioned formation, and, when forming image that forms by this black ink and the image that forms by the colored ink adjacency image that forms, after giving the scanning formation image of black ink, form the scanning that colored ink is given in the zone at this image.
Also have, other embodiment of invention is a water color ink, containing water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that, these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, in each Ka value of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method, poor solvent is the water-miscible organic solvent that shows maximum Ka value, be immersed in more earlier in the recording medium than above-mentioned good solvent, assist the aggegation of the water-insoluble colorant in the above-mentioned good solvent of recording medium surface side.
(effect of invention)
According to the present invention, can be provided in the pigment ink, even few droplet of ink amount also has fully big area factor, and can obtain the water color ink of the high image of OD (image color).In addition,, can be provided at and use when being correlated with printing ink,, can form OD ink jet recording method high, high-grade image, be suitable for print cartridge, record cell and ink-jet recording device that above-mentioned recording method is used with few printing ink amount of giving according to the present invention.In addition,, can be provided at when carrying out on the common paper that the coloured image record of adjacency is carried out in the zone of different colours mutually, not produce, can effectively control the image forming method of the colour mixture (bleeding) of black ink and colored ink zone intersection along slurry according to the present invention.
Description of drawings
Fig. 1 is vertical cut-away view of ink-jet recording device head.
Fig. 2 is the longitudinal cutting figure of ink-jet recording device head.
Fig. 3 is the outward appearance oblique drawing with the head after the big quantification of head shown in Figure 1.
Fig. 4 is the oblique drawing that shows an example of ink-jet recording device.
Fig. 5 is vertical cut-away view of print cartridge.
Fig. 6 is the oblique drawing of the unitary example of displayed record.
Fig. 7 is the figure of an example of the formation of displayed record head.
Fig. 8 is an example of record-header used in the present invention.
Fig. 9 is an example of record-header used in the present invention.
Figure 10 is an example of record-header used in the present invention.
Figure 11 is an example of record-header used in the present invention.
Figure 12 is an example of record-header used in the present invention.
Figure 13 is an example of record-header used in the present invention.
Figure 14 A, Figure 14 B, Figure 14 C and Figure 14 D are in order to illustrate that schematically droplet of ink is attached to the explanatory view of the situation in recording medium when surface.
Figure 15 is the ink diffusion state different synoptic diagram of printing ink after the common paper set that shows in embodiment and the comparative example.
Figure 16 is the different synoptic diagram of existence that shows the depth direction of the colorant of printing ink after the common paper set in embodiment and the comparative example.
Embodiment
Below, enumerate preferred embodiment more detailed description the present invention.At first, describe about employed poor solvent of this specification sheets and good solvent.About its specific definition as described later, but not relating to the dispersing method of water-insoluble colorant, is good solvent with the good person of dispersion stabilization with respect to the water-insoluble colorant of this water-miscible organic solvent, and bad person is a poor solvent.The invention is characterized in when being conceived to the water-insoluble colorant, the water-miscible organic solvent that is conceived in the water color ink to be contained, with respect to this colorant, to have the water-miscible organic solvent that makes water-insoluble colorant dissolving or divergent function and be categorized into demonstration as above-mentioned poor solvent characteristic with show as above-mentioned good solvent characteristic, the poor solvent in the adjustment water color ink and the ratio of good solvent design printing ink in specific scope.And, even relevant constitute the common paper that comes from the variety of issue during the image of water color ink formed for existence in the past, also can obtain along the image of starching or bleeding alleviates, in addition, even the droplet of ink amount that can obtain giving also has fully big area factor less, and can form the printing ink of the image of high OD.In addition, found to use relevant printing ink, can obtain the miniaturization of flying print, recording unit, the cost that contains running stores descends, and, the formation of stability excellence, the further raising that can realize gradation of drop-out colour, higher-grade image becomes possible unusual effect, has finished the present invention.
The reason that obtains such unusual effect according to the present invention it be unclear that, but the inventor etc. have carried out following supposition.Generalized case, on the recording paper of common paper etc., use printing ink forms the situation of image, in order to realize excellent gradation of drop-out colour and print grade that it is necessary that colorant is residued on the paper more effectively.For this reason, make reaction solution be attached to recording medium as method after, pigment ink is attached on the recording paper, obtain excellent gradation of drop-out colour and print the method for grade.In addition, use special dispersion agent, the two thin method of the storage stability of realization printing ink and high gradation of drop-out colour.But, according to the inventor's etc. research,, also can have fully big area factor even particularly can not obtain few droplet of ink amount even also be difficult to obtain sufficient gradation of drop-out colour according to these methods, and high gradation of drop-out colour.
The water color ink that relates among the present invention comprises water, water-insoluble colorant and different types of a plurality of aqueous organic solvent at least, comprises with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant as above-mentioned water-miscible organic solvent.When water color ink is the state of printing ink, the good solvent of water, moisture insoluble colour material and the water-miscible organic solvent and the water-insoluble colorant of poor solvent is mixed with the fixed ratio, can keep the storage stability of the water-insoluble colorant of pigment etc.
Like this, the water color ink that relates among the present invention, when printing on recording medium, particularly common paper, according to the reason of following narration, it is possible bringing very excellent gradation of drop-out colour and printing grade.That is, as shown in figure 14, the drop 1301 of the printing ink that relates among the present invention, be printed on recording medium 1300, for example, in the time of on the common paper, after adhering on the recording medium of printing ink, the ratio of the good solvent of the water in the printing ink, water-insoluble colorant and poor solvent and water-insoluble colorant changes.Can think, promptly, shown in Figure 14 A and Figure 14 B, droplet of ink 1301 is after recording medium 1300 surface attachment, along with the set of printing ink to recording medium, when evaporating with water, at first, the good solvent that the poor solvent 1307 that the Ka value in the water-miscible organic solvent in the printing ink is high is lower than the Ka value diffuses to form ink dot to be similar to just round shape earlier near the recording medium surface.
Figure 14 B~Figure 14 D be show printing ink on recording medium 1300 from adhering to the synoptic diagram of back to the state of the printing ink of set.If be conceived to the disperse state of the ink dot of this moment, can think that the periphery 1302 of the point in printing ink and paper contact part compares the concentration height of central part 1303 poor solvents of point.Consequently ink dot to be similar to just round shape diffusion, in its diffusion process, with respect to the water-insoluble colorant, causes the rapid increase of concentration of poor solvent 1307 near the recording medium surface.Thereupon, cause water-insoluble colorant instabilityization, the aggegation of colorant or disperse destroyed, consequently diffuse into and be similar to orbicular edge (with reference to figure 14B) at the paper near surface, cause that water-insoluble colorant 1304 is trapped in the near surface of recording medium 1300, at the peripheral edge portion of point, just like form the earth embankment of water-insoluble colorant.After carrying out like this, the point of water-insoluble colorant forms positive circle, with its state fixing (with reference to figure 14C) on paper.At this moment, the formation of the point of water-insoluble colorant finishes, and still, water-miscible organic solvent and water in the printing ink spread more, expand into radial.That is, after the point of water-insoluble colorant formed, water and water-miscible organic solvent spread near the recording medium surface.Subsequently, the evaporation of the water-miscible organic solvent by the dense central part 1303 of good solvent or soak into, in this part, the water-insoluble colorant is separated out the point 1305 that forms image and is formed (with reference to figure 14A~Figure 14 D).Even the ink image that forms by as above flow process has few droplet of ink amount and also has fully big area factor, high gradation of drop-out colour, and is the higher-grade image that is fully alleviated along slurry.
Under aforesaid imaginary mechanism, the dispersion state decision of keeping the water-insoluble colorant whether good solvent used in the present invention and poor solvent can be good by.That is, determine by the relation between water-insoluble colorant or its dispersion agent.Thereby, the printing ink that in preparation the present invention, relates to, when selecting good solvent and poor solvent, the extent of stability of the dispersion state of the water-insoluble colorant that preferred view is used decides from its result.And the inventor etc. have carried out all research to the judgment standard of the good solvent that brings effect of the present invention and poor solvent and effect of the present invention related.It found that, to contain the dispersible pigment dispersion of wanting the solvent of judging and containing employed water-insoluble colorant in this printing ink of dispersion state about 50 weight % at 60 ℃, preserve after 48 hours, this moment in this liquid particle dia and do not contain or contain on a small quantity the particle dia comparison of wanting to judge solvent and containing the dispersible pigment dispersion of employed water-insoluble colorant in this printing ink of dispersion state, when being poor solvent with the enhancer, when identical or minimizing person is defined as good solvent and the consistence of effect of the present invention fabulous.
In particular, using following method, with respect to the solvent that specific water-insoluble colorant uses, is the good solvent or the judgement of poor solvent.At first, prepare following 2 water-insoluble colorant dispersion liquid A and B.
A: by the concentration as the water-miscible organic solvent of judging object is 50 weight %, the concentration of water-insoluble colorant or water-insoluble colorant and to make the concentration of the total amount of its dispersive material be 5 weight %, the concentration of water is the water-insoluble colorant dispersion liquid that 45 weight % form;
B: water-insoluble colorant and make the concentration of the total amount of its dispersive material be 5 weight %, do not contain the aqueous dispersions of the water-insoluble colorant of water-miscible organic solvent.
Next, with above-mentioned dispersion liquid A 60 ℃ preserve 48 hours after, with dense be particle diameter ア Na ラ イ ザ one (trade(brand)name: FPAR-1000; The manufacturing of Da mound electronics corporation) mensuration is chilled to the particle diameter of the dispersion liquid A of normal temperature.Also have, using dense is particle diameter ア Na ラ イ ザ-measure the equally particle diameter of above-mentioned aqueous dispersions B.And, when each particle size values note of above-mentioned dispersion liquid A and aqueous dispersions B is done particle diameter (A), particle diameter (B), these values are judged it is good solvent or poor solvent according to following definitions.So, prepare printing ink, can confirm to obtain aforesaid excellent effect with formation of the present invention by using good solvent and the poor solvent judged.Good solvent and poor solvent, in above-mentioned, when particle diameter (A) is bigger than particle diameter (B), water-miscible organic solvent as this judgement object is a poor solvent, particle diameter (A) or particle diameter (A) identical with particle diameter (B) be than particle diameter (B) hour, is defined as good solvent as the water-miscible organic solvent of this judgement object.
The water color ink that relates among the present invention, except that with water-miscible organic solvent as the above-mentioned specific formation, also can constitute identical with the water color ink that contains water-insoluble colorant in the past.Promptly, the 1st of the water color ink that relates among the present invention is characterised in that, at least constitute by water, a plurality of water-miscible organic solvent, water-insoluble colorant, the water-miscible organic solvent that comprises at least a kind of good solvent judging according to aforesaid decision method as water-miscible organic solvent, the water-miscible organic solvent of at least a kind of poor solvent, and, the Ka value of each of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method relatively, the water-miscible organic solvent of Ka value maximum is a poor solvent.This found that, when the dispersion stabilization of the water-insoluble colorant in printing ink is very excellent, at recording medium, when particularly on common paper, printing, even few droplet of ink amount also has fully big area factor, and show high gradation of drop-out colour, very the image of You Yi printing grade becomes possibility.
Here, describe about the Ka value of trying to achieve according to the bristow method.This value is used for as the yardstick of expression to the liquid immersion of the recording medium of printing ink.In drawing example, adopt printing ink liquid to describe, use every 1m
2Quantity of ink V represent the impregnability of printing ink, from the ejection droplet of ink through the t that fixes time of institute after, printing ink is to the amounts of saturation V of recording medium (mL/m
2=μ m) represents according to the bristow formula shown in following.
V=Vr+Ka(t-tw)
1/2
Here, after droplet of ink just had been attached to the recording medium surface, printing ink almost was absorbed in the jog (coarse part on the surface of recording medium) on recording medium surface, hardly to the recording medium internal penetration.Time therebetween is duration of contact (tw), and the quantity of ink that absorbs of jog branch of printing medium is Vr in duration of contact.And, after printing ink adheres to,, then surpass the time of this duration of contact if surpass duration of contact, that is, only with (t-tw)
1/2The amount of ratio increases to the amounts of saturation of recording medium.Ka is the scale-up factor of this increasing amount, and expression is along with the value of wetting-out rate.And what this Ka value was used the liquid that comes from the bristow method dynamically soaks into testing apparatus (for example, trade(brand)name: dynamically soak into testing apparatus S; The smart mechanism of Japan is done manufacturing) etc. can measure.
In addition, the water color ink that relates among the present invention, when all wts (weight 5%) with the good solvent in the printing ink is A, with all wts (weight 5%) of the poor solvent in the printing ink when being B, with the ratio of A: the B (good solvent of all wts in the printing ink (weight %): the poor solvent of all wts in the printing ink (weight %)) in be adjusted into 10: 5 above 10: 30 following scopes.In addition, so-called " all wts " expression for example, whole when having multiple solvent as good solvent.In addition, so-called " ratio of A: B be 10: 5 above 10: 30 following " is to say with A as 10 o'clock, and B is more than 5 below 30.
In addition, other embodiment of the present invention can be enumerated: water color ink, it is to contain water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, and, the Ka value of each of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method relatively, wherein, the water-miscible organic solvent that shows maximum Ka value is a poor solvent, and, with respect to the printing ink of common paper to adhere to behavior as follows.
Has the water color ink that relates among the present invention who constitutes as mentioned above, when making the printing ink set with respect to common paper, show different with the printing ink in the past behaviors shown in following, according to the behavior as can be known, even few droplet of ink amount also has fully big area factor, and, can realize the formation of the image of high OD (image color), in addition, the inhibition in the time of can obtaining on common paper the zone of different colours mutually and carry out the coloured image record of adjacency is along the effect of slurry.In other words, can for the judgement of the printing ink involved in the present invention that obtain having above-mentioned unusual effect, available following method be measured with respect to common paper the behavior of the printing ink when the printing ink set is realized.
Water color ink is with respect to the behavior of common paper, and at first, (internal diameter: 0.18mm, external diameter: syringe needle 0.36mm) is the height place of 4mm with the front-end configuration of this syringe needle in the distance with the common paper surface, drips therefrom as the printing ink of object to use pin footpath 28G.Make printing ink set thereafter.And, measure the diameter that printing ink just has been attached to common paper ink dot afterwards, its measured value is dI, mensuration printing ink is bonded to the maximum diameter of the ink diffusion after the common paper, its measured value is dS, measure the maximum diameter of the water-insoluble bleeding in the printing ink after printing ink is bonded to common paper, its measured value is dC.Water color ink involved in the present invention is as above being operated between resulting each measured value, and the relation of dC<dI<dS (formula 1) is set up.In addition, by ink-vapor recording ink print is bonded to common paper after, be less than 30 μ m with respect to the degree of depth that exists of the water-insoluble colorant of common paper.
Demonstration by above-mentioned formula (1) representative: with respect to the dot diameter dI after just adhering to shown in Figure 14 B, shown in Figure 14 C, the maximum diameter d C of the diffusion of the water-insoluble colorant in the printing ink is dC<dI, in addition, shown in Figure 14 D and the relation of the maximum diameter d S of the ink diffusion after the recording medium set of printing ink represent with dC<dI<dS.
Formation in view of water color ink involved in the present invention, this relational expression meaning: after droplet of ink is given recording medium, by the high poor solvent of Ka value, colorant near the recording medium surface with after being similar to positive toroidal diffusion immobilization, water in the printing ink and water-miscible organic solvent further are diffused in the near surface of recording medium, are radial expansion simultaneously; Water-insoluble colorant and water and water-miscible organic solvent are expressions to the fixation process on the recording medium: after the immobilization of water-insoluble colorant, water and water-miscible organic solvent are diffused in the recording medium.In addition, the degree of depth that exists that is bonded to the water-insoluble colorant of recording medium is less than 30 a μ m meaning: after giving recording medium with the water-insoluble colorant, cover the surface of recording medium effectively.
To this, similarly carry out in the past water color ink with respect to the mensuration of the behavior of common paper, printing ink is bonded to the maximum diameter d C of the diffusion of the water-insoluble colorant after the common paper, the firm diameter d I that is attached to the ink dot after the common paper is bigger than printing ink, the relation that is dI<dC<dS, in addition, water-insoluble colorant and be diffused into water around it and the border of water-miscible organic solvent, with the water color ink ratio that relates among the present invention, be unclear.This shows: after common paper was adhered to, when water and water-miscible organic solvent diffused in the recording medium, the water-insoluble colorant is diffusion together also at printing ink, colorant can not cover paper effectively, in addition, because colorant ground profile is not positive circle, so it is also unclear to print grade.In addition, relation with the maximum diameter d S of ink diffusion after the recording medium set of printing ink, even the relation at dC<dI<dS is set up, the degree of depth that exists of the water-insoluble colorant after the set is the above situations of 30 μ m, show that also the water-insoluble colorant is not only the near surface of paper, also the depth direction to paper soaks into, and at this moment, colorant covers paper not yet in effectly.
In the present invention, droplet of ink is imparted into when the common paper of recording medium, printing ink just has been attached to common paper dot diameter dI afterwards, printing ink is bonded to the mensuration of the maximum diameter d C of the water-insoluble bleeding in the printing ink after the maximum diameter d S of the ink diffusion after the common paper and printing ink are bonded to common paper, carries out according to following method respectively.
At first, in the printing ink of determination object, being added on a small quantity in the water-miscible organic solvent that is contained in this printing ink is the water-soluble dye that soluble and the water-insoluble colorant of printing ink constituent are different form and aspect, use this printing ink, the visual maximum diameter d S that measures the ink ingredient diffusion that is bonded to after the common paper.Promptly, being added on a small quantity in the aqueous organic solvent in printing ink is the water-soluble dye that soluble and water-insoluble colorant are different form and aspect, after the water-insoluble colorant immobilization in the printing ink, the water that in common paper, spreads and the disperse state of water-miscible organic solvent, according to the existence of adding the water-soluble dye in the printing ink to, can estimate.
In addition, droplet of ink is endowed when the common paper, the dot diameter dI of printing ink after common paper is just adhered to, and the contact angle meter (FaceCONTACT-ANGLEMETER CA-P) that uses consonance interface science company to make is measured.Specifically, use pin footpath 28G (internal diameter: 0.18mm, external diameter: syringe needle 0.36mm) is the height of 4mm from the front end of this syringe needle and the distance on common paper surface, the printing ink that drips on common paper reads the diameter of measuring the droplets of ink after dripping according to the scale of contact angular pin.That is, with above-mentioned read value as the dot diameter dI of printing ink after common paper is just adhered to.
In addition, the maximum diameter d S of the ink diffusion of printing ink after the common paper set, and the mensuration of the maximum diameter d C of the water-insoluble bleeding in the printing ink of printing ink after the common paper set, be according to above-mentioned condition, place the ink dot that drips on the common paper more than 6 hours, after the droplet of ink stabilization, measure the maximum linear length of ink dot, its value is designated as maximum diameter d C, in addition, the maximum diameter d S of the ink diffusion of printing ink after the common paper set by measure with printing ink in the water-insoluble colorant maximum linear length that form and aspect spread that is the water-soluble dye of different form and aspect try to achieve.In addition, the maximum diameter d C of the water-insoluble bleeding in the printing ink of printing ink after the common paper set by measure and printing ink in the maximum linear length that form and aspect spread of the water-insoluble colorant that contained try to achieve.
In addition, printing ink to the water-insoluble colorant after the common paper set exist the degree of depth to pass through printing ink used printing of inkjet printer after, the printing portion that cuts off common paper, its section of microscopic examination is tried to achieve.
In addition, in order to make ink dot form so shape, when all wts (weight %) with the good solvent in this printing ink is A, when being B with all wts (weight %) of the poor solvent in the printing ink, preferably with A: the ratio of the B (good solvent of all wts in the printing ink (weight %): the poor solvent of all wts in the printing ink (weight %)) in be adjusted into 10: 5 above 10: 30 following scopes, more preferably in 10: 5 above 10: 10 following scopes, in preferred especially 10: 6 above 10: the 10 following scopes.
The water color ink that relates among the present invention is characterized in that each Ka value of different types of a plurality of water-miscible organic solvents of being contained in the printing ink that comparison tries to achieve according to the bristow method, and the maximum water-miscible organic solvent of Ka value is a poor solvent.In addition, according to inventor's etc. research, from the viewpoint of the quality of the formed image of further raising, preferably the value with the Ka value in the printing ink is adjusted into less than 1.5 (ml/m
2/ msec
1/2), more preferably be adjusted into 0.2 (ml/m
2/ msec
1/2) above less than 1.5 (ml/m
2/ msec
1/2).That is, if the Ka value of printing ink picture less than 1.5 (ml/m
2/ msec
1/2) constitute like that, then at printing ink to recording medium ground soak process ground initial stage, solid-liquid separation takes place, can form suitable few high quality images of starching.In addition, be decided to be 0.2 (ml/m by value with the Ka value of printing ink
2/ msec
1/2) more than, can obtain preferred anchorage.
In addition, it is to use and the value of mensuration as recording medium with common paper [for example, the employed PB paper of printer of Canon Inc.'s duplicating machine that make, that use the electrofax mode and page printer (laser beam printer) and ink-jet recording and the PPC of used in copy machines that adopts the electrofax mode with paper etc.] that bristow method according to the present invention is tried to achieve the Ka value.In addition,, be assumed to be common working environment as measuring environment, for example, 20~25 ℃ of temperature, humidity 40~60%.
But, on common paper, in the situation that forms the image that black and colored ink mix, if the printing ink that relates among the present invention is made the formation that is used for black ink, then as mentioned above, with other printing ink relatively, think comparison generation early constitute on paper black ink colorant aggegation or disperse to destroy.In image forming method of the present invention, water color ink involved in the present invention is used for black ink, and, after the image that is formed on black ink with the image of colored ink forms, carry out, more preferably give after the scanning of black ink, vacate the distance that scans at least more than 1 time after, give the scanning of colored ink, even contact with colored ink, the black on the paper, the colour mixture bleeding between the colour do not take place yet, can form the image of bleeding excellence.Promptly, only be that the hold-time difference is carried out the image formation with each color ink of black ink and colored ink, there is no need to carry out to finish printing, need the method for repeatedly sweeping printing of time-write interval with scanning repeatedly, with with black and the colored method of making the maximization of the machine that recovery system causes separately, just can obtain above-mentioned excellent effect.
In addition, if use water color ink involved in the present invention, according to the reason that illustrates previously, the colorant in the printing ink can remain on the recording medium effectively, so use spray volume (droplet size) quantity of ink still less of ratio printing ink in the past, can carry out the high printing of concentration.In addition, because can print, so can expect the reduction of the cost of image in forming, than set time of in the past printing ink effect faster with few quantity of ink.
The water color ink that relates among the present invention, and use in the relation between the water-insoluble colorant of the aqueous organic solvent in the ink composition, more than state the bright feature that constitutes, but in addition, also can adopt and in the past the identical formation of water color ink.Below, describe about each composition that constitutes printing ink of the present invention.At first, the aqueous solvent about the disperse water insoluble colour material describes.
<aqueous solvent 〉
Water color ink involved in the present invention, the mixed solvent of moisture and water-miscible organic solvent as water-miscible organic solvent, can be selected from the following material of enumerating.In the present invention, when selecting water-miscible organic solvent, must be with the method for narrating previously, at first, to judging, put into practice relevant judged result, afterwards with respect to the water-insoluble colorant good solvent or the poor solvent that use, at least good solvent and poor solvent mix, and, in the scope of the amount of each water-miscible organic solvent according to the present invention's regulation, select water-miscible organic solvent, suitably cooperate preparation printing ink.
As water-miscible organic solvent, specifically, for example can enumerate the alkyl alcohols of the carbonatoms 1~4 of methyl alcohol, ethanol, n-propyl alcohol, Virahol, n-butanols, sec-butanols, tert-butanols etc.; The amides of dimethyl formamide, N,N-DIMETHYLACETAMIDE etc.; The ketone of acetone, diacetone alcohol etc. or ketols; The ethers of tetrahydrofuran (THF), diox etc.; The polyalkols of polyoxyethylene glycol, polypropylene glycol etc.; Ethylene glycol, propylene glycol, butyleneglycol, triglycol, 1,2, the alkylidene group of 6-hexane triol, thiodiglycol, hexaethylene glycol, Diethylene Glycol etc. contains the alkylene alcohols of 2~6 carbon atoms; The lower alkyl ether acetate of poly glycol monomethyl ether acetic ester etc.; Glycerol; The lower alcohol ethers of the polyvalent alcohol of glycol monomethyl first (or second) ether, Diethylene Glycol first (or second) ether, triglycol list first (or second) ether etc.; N-N-methyl-2-2-pyrrolidone N-, 2-Pyrrolidone, 1,3-dimethyl-2-imidazolidone etc.In addition, as water, preferably use deionized water.
The amount of the water-miscible organic solvent in the water color ink that relates among the present invention is not particularly limited, and still, with respect to total weight, the scope of preferred 3~50 weight % is suitable.In addition, the water yield that is contained in the printing ink, with respect to total weight, the scope of preferred 50~95 weight %.
In the preferred mode of the present invention, when all wts (weight %) with the good solvent in this printing ink is A, when being B with all wts (weight %) of the poor solvent in the printing ink, their ratio A: B is according in the scope below 10: 30 more than 10: 5, preferred A: B is in 10: 5 above 10: 10 following scopes, more preferably ratio A: B is in 10: 6 above 10: 10 following scopes, adjusts the kind and the amount of the water-miscible organic solvent that constitutes water color ink.
According to studying in great detail of inventor etc., the ratio of the good solvent that is contained in the water color ink than above-mentioned scope more for a long time, excellent storage stability, but be difficult to obtain high gradation of drop-out colour, on the contrary, the ratio of good solvent can obtain high gradation of drop-out colour than above-mentioned scope still less the time, and is insufficient but storage stability becomes.To this, the ratio of good solvent in the water-miscible organic solvent in the printing ink and poor solvent by above-mentioned such control, can be realized the two thin of the storage stability of printing ink and high gradation of drop-out colour.In addition, as previously mentioned, in the present invention, during each water-miscible organic solvent that decision is contained in the printing ink, the bristow method is the yardstick of expression to the impregnability of the recording medium with contained each water-miscible organic solvent, by controlling the Ka value of trying to achieve according to the bristow method, even few drop amount also has fully big area factor, and can realize high gradation of drop-out colour, can realize the effect of finishing that in the past can not obtain.
The storage stability of printing ink generally is the stability of printing ink of not following the state of evaporation of water, and the realization of high gradation of drop-out colour is when printing ink is attached on the paper, is accompanied by in the solvent diffusion on paper that forms printing ink point the agglutination phenomenon of generation pigment.
In addition, as in the printing ink and other effect of bringing with poor solvent and good solvent, remove storage stability and high gradation of drop-out colour can be pair thin, the aggegation of pigment during water evaporates in the may command printing ink to a certain degree in addition.Specifically, when droplet of ink is attached to the nozzle face of record-header, along with the concentration rising of the colorant in the evaporation printing ink of printing ink.At this moment, because poor solvent and good solvent coexistence in the printing ink, the effect by good solvent can suppress the aggegation of pigment ground to a certain degree.Like this,, the aggegation of the pigment of record-header nozzle face can be suppressed, the reliability of the reciprocal operation of record-header can be expected to improve owing to contain good solvent in the printing ink.
<water-insoluble colorant 〉
Below, describe about constituting water-insoluble colorant of the present invention.As the water-insoluble colorant that constitutes water color ink involved in the present invention, no matter its dispersing mode, for example can use, can be to use the pigment (resin dispersion type pigment) of the resin dispersion type of dispersion agent or promoting agent or the pigment of promoting agent dispersal pattern, do not use the dispersiveness that improves water-insoluble colorant self and yet dispersible microcapsule-type pigment such as the dispersion agent that uses or import the pigment from dispersal pattern (self-dispersion type pigment) of hydrophilic radical on the surface of pigment particles, or further in the modification of the organic group chemical bonding of the surface of pigment particles and pbz polymer pigment (the polymer bonds mould assembly is from dispersed color).Certainly, also the different pigment of these dispersing method capable of being combined use.With respect to the gross weight of printing ink, the ratio of water-insoluble colorant is 0.1~15 weight %, more preferably 1~10 weight %.Below, describe about spendable these pigment of the present invention.
[pigment]
Spendable pigment is not particularly limited in water color ink involved in the present invention, below cited person all can use.
As employed pigment in the black ink, carbon black is preferred.For example, the carbon black of furnace black, dim, acetylene black, channel black etc. all can use.Specifically, for example can use レ イ ヴ ア Application (Raven) 7000, レ イ ヴ ア Application 5750, レ イ ヴ ア Application 5250, レ イ ヴ ア Application 5000ULTRA, レ イ ヴ ア Application 3500, レ イ ヴ ア Application 2000, レ イ ヴ ア Application 1500, レ イ ヴ ア Application 1250, レ イ ヴ ア Application 1200, レ イ ヴ ア Application 1190 ULTRA-II, レ イ ヴ ア Application 1170, レ イ ヴ ア Application 1255 (above) by the manufacturing of コ ロ Application PVC ア company, Block ラ Star Network パ one Le ズ (Black Pearls) L, リ one ガ Le (Regal) 400R, リ one ガ Le 330R, リ one ガ Le 660R, モ ウ グ Le (Mogul) L, モ Na Network (Monarch) 700, モ Na Network 800, モ Na Network 880, モ Na Network 900, モ Na Network 1000, モ Na Network 1100, モ Na Network 1300, モ Na Network 1400, モ Na Network 2000, ヴ ア Le カ Application (Valcan) XV-72R (above) by the manufacturing of キ ヤ ボ Star ト company, painted with carbon black (Color Black) FW1, the painted carbon black FW2 that uses, the painted carbon black FW2V that uses, the painted carbon black FW18 that uses, the painted carbon black FW200 that uses, the painted carbon black S150 that uses, the painted carbon black S160 that uses, the painted carbon black S170 that uses, プ リ Application テ Star Network ス (Printex) 35, プ リ Application テ Star Network ス U, プ リ Application テ Star Network ス V, プ リ Application テ Star Network ス 140U, プ リ Application テ Star Network ス 140V, ス ペ シ ヤ Le Block ラ Star Network (Special Black) 6, ス ペ シ ヤ Le Block ラ Star Network 5, ス ペ シ ヤ Le Block ラ Star Network 4A, ス ペ シ ヤ Le Block ラ Star Network 4 (above) by the manufacturing of デ グ Star サ company, No.25, No.33, No.40, No.47, No.52, No.900, No.2300, MCF-88, MA600, MA7, MA8, the commercially available product of MA100 (above) etc. by Mitsubishi Chemical Ind's manufacturing.In addition, also can use the carbon black that aims at the present invention and prepare again in addition.But, the invention is not restricted to these, known in the past carbon black all can use.In addition, be not limited to carbon black, the fine magnetic-substance particle of magnetite, ferrite etc. and titanium are black etc. also can be used as black pigment and uses.
As pigment dyestuff, specifically, for example can enumerate, toluidine red, toluidine maroon, hansa yellow, diarylide yellow, the insoluble azo dye of pyrazolone red etc., リ ト one Le is red, heliobordeaux, lithol fast scarlet nrh, the dissolubility azo pigment of permanent red 2B etc., come from alizarin, indanthrone, the derivative of the vat dyes of thioindigoid maroons etc., phthalocyanine blue, the phthualocyanine pigment of phthalocyanine green etc., quinacridone is red, De perylene pigmentss such as the red perylene scarlet of quinacridone pigment perylene of quinacridone magenta etc., the isoindolone Huang, the isoindolone series pigments of isoindolone orange etc., the benzimidazolone Huang, the imidazolone series pigments of benzimidazolone orange etc., the pyrene anthrone is red, the pyrene anthrone series pigments of pyrene anthrone orange etc., indigo series pigments, the condensation azo pigment, the thioindigo series pigments, diketopyrrolopyrrolecocrystals series pigments, flavanthrone Huang, amido yellow, quinoline promise phthalein ketone Huang, the nickel azophosphine, ketone azomethine Huang, the perinon orange, the anthrone orange, the red Er of DIANTHRAQUINONE oxazole purple etc.Certainly, be not limited to these, also other pigment dyestuff.
In addition, the pigment dyestuff that the present invention can use is represented with Colour Index (C.I.), but illustration for example, C.I. pigment Yellow 12,13,14,17,20,24,74,83,86,93,97,109,110,117,120,125,128,137,138,147,148,150,151,153,154,166,168,180,185, C.I. pigment orange 16,36,43,51,55,59,61,71, C.I. Pigment Red 9,48,49,52,53,57,97,122,123,149,168,175,176,177,180,192,215,216,217,220,223,224,226,227,228,238,240,254,255,272, C.I. pigment violet 19,23,29,30,37,40,50, C.I. pigment Blue 15,15:1,15:3,15:4,15:6,22,60,64, C.I. pigment Green 7,36, C.I. pigment brown 23,25,26 etc.
[resin dispersion type pigment]
As the water-insoluble colorant that is contained in the water color ink of the present invention, as previously mentioned, also can use the resin dispersion type pigment that adopts dispersion agent, still, at this moment, it is necessary making the compound of above-mentioned cited hydrophobicity colo(u)rant dispersion.As such compound, can use so-called dispersion agent, tensio-active agent, pitch dispersant etc.As dispersion agent or tensio-active agent, be not particularly limited, but wherein preferably use negatively charged ion system, the nonionic person of being.For example, as negatively charged ion is material, for example can enumerate soap, alkyl sulfuric ester salt, alkylbenzene sulfonate, sulfonated alkyl naphathalene, alkyl-thio-succinate, alkyl phosphate salt, naphthalene sulfonic acidformaldehyde condensation product, polyxyethylated sulfuric acid, and these substitutive derivative; As nonionic is material, for example can enumerate polyoxyethylene groups alkyl oxide, polyoxyethylene groups alkyl phenyl ether, polyoxyethylene fatty acid ester, fatty acid sorbitol ester, polyoxyethylene groups fatty acid sorbitol ester, polyoxyethylene pheynylalkylamine, glycerin fatty acid ester, oxygen ethylene oxy third rare bulk polymer, and these substitutive derivative etc.Can enumerate as pitch dispersant: from vinylbenzene and derivative, vinyl naphthalene and derivative thereof, α, segmented copolymer, random copolymers and graft copolymer that at least 2 monomers (wherein at least 1 is hydrophilic monomer) of selecting in the aliphatics alcohol ester of β-ethene unsaturated carboxylic acid etc., vinylformic acid and derivative, toxilic acid and derivative thereof, methylene-succinic acid and derivative thereof, fumaric acid and derivative thereof, vinyl-acetic ester, vinyl alcohol, vinyl pyrrolidone, acrylamide and the derivative thereof etc. constitute and these salt etc.
[microcapsule-type pigment]
As the water-insoluble colorant that is contained in the water color ink of the present invention, as previously mentioned, also can use with the organic polymer class and cover that the water-insoluble colorant carries out micro encapsulation and the microcapsule-type pigment that constitutes.As covering the method that the water-insoluble colorant carries out micro encapsulation, can enumerate: chemical method for making, physics method for making, physicochemical method, mechanical method for making etc. with the organic polymer class.Specifically, can enumerate: desiccating method in curing overlay film method, cohesion (being separated) method, the solution in surface aggregate method, in-situ polymerization, the solution, melt and disperse outstanding turbid method with plastic film, vaporific evaporation drying method, acid-precipitation method, phase conversion emulsifying etc. in method of cooling, the gas.
The employed organic polymer class of material as the wall membrane substance that constitutes microcapsule, for example can enumerate polymeric amide, urethane, polyester, polyureas, Resins, epoxy, polycarbonate, urea resin, the melamine resin, phenolic resin, polyose, gel, Sudan Gum-arabic, dextran, casein, protein, natural rubber, carboxyvinyl polymer, polyvinyl alcohol, polyvinylpyrrolidone, polyvinyl acetate, polyvinyl chloride, polyvinylidene chloride, Mierocrystalline cellulose, ethyl cellulose, methylcellulose gum, Nitrocellulose, Natvosol, acetyl cellulose, polyethylene, polystyrene, (methyl) polymerizing acrylic acid thing or multipolymer, the polymkeric substance or the multipolymer of (methyl) acrylate, (methyl) vinylformic acid-(methyl) acrylate copolymer, vinylbenzene-(methyl) acrylate copolymer, styrene-maleic acid copolymer, Lalgine soda, lipid acid, paraffin, beeswax, water wax, solidify tallow, palm wax, white protein etc.
In these, can use the organic polymer class of anionic property group with carboxylic acid group or sulfonic group etc.In addition, as the nonionic organic polymer, for example can enumerate polyvinyl alcohol, polyethylene glycol monomethacrylate, polypropylene glycol monomethacrylate, methoxy poly (ethylene glycol) monomethacrylates or their (being total to) polymkeric substance, the positively charged ion ring-opening polymerization polymer of 2-oxazoline etc.Particularly the fully saponified thing of polyvinyl alcohol because have water-soluble low, easily be dissolved in hot water, be insoluble in the character of cold water, so preferred especially.
When selecting phase conversion method or acid-precipitation method,, use the anionic property organic polymer as the organic polymer class that constitutes the microcapsule wall membrane substance as the method for micro encapsulation.Phase conversion method is, with can be from disperseing or dissolved anionic property organic polymer class and from the mixture or the molectron of the colorant of dispersed pigment dyestuff or self-dispersion type carbon black etc. with respect to water, perhaps the mixture from colorant, solidifying agent and the anionic property organic polymer class of dispersed pigment dyestuff or self-dispersion type carbon black etc. is the organic solvent phase, with water put into this organic solvent mutually in, perhaps this organic solvent is put in the water mutually the method for micro encapsulation from decentralized (Phase inversion emulsification) time.In above-mentioned phase conversion emulsifying, make in mutually even make in the printing ink employed water-miscible organic solvent or additive be blended into organic solvent, there is not any problem yet.If particularly from making the dispersion liquid that direct printing ink printing ink is used, the solution medium that is more preferably printing ink is sneaked into.
On the other hand, acid-precipitation method is according to part or all the anionic property group by the organic polymer class that contains the anionic property group with basic cpd neutralization, with mix operation and the acidic cpd that stirs from the colorant of dispersed pigment dyestuff or self-dispersion type carbon black etc. with in aqueous medium, transfer pH to neutral or acid, the organic polymer class that contains the anionic property group is separated out, the moisture filter cake that the method for making that is bonded to the operation on the pigment and constitutes obtains, by neutralize part or all anionic property group with basic cpd, carry out the method for micro encapsulation.By such processing, can make the anionic property micro encapsulation pigment of big amount micropigment.
In addition,, for example can enumerate the alkyl alcohols of methyl alcohol, ethanol, propyl alcohol, butanols etc. as employed solvent when the micro encapsulation of as above being lifted; Benzene,toluene,xylene etc. aromatic hydrocarbon based; The ester class of methyl acetate, ethyl acetate, butylacetate etc.; The chlorinated hydrocarbon of chloroform, ethylene dichloride etc.; The ketone of acetone, mibk etc.; The ethers of tetrahydrofuran (THF), diox etc.; The cellosolve class of methylcyclohexane, ethylene glycol butyl ether etc. etc.In addition, will be with the microcapsule of aforesaid method preparation with flash liberations from these solvents such as centrifugation or filtrations, itself and water and necessary solvent etc. are stirred simultaneously, carry out redispersion, to obtain micro encapsulation pigment as purpose.The median size of the micro encapsulation pigment that obtains in order to last method is 50nm~180nm preferably.
[self-dispersion type pigment]
As the water-insoluble colorant that is contained in the water color ink involved in the present invention, as previously mentioned, can use the dispersiveness that improved water-insoluble colorant self, without the pigment with regard to dispersible self-dispersion type such as dispersion agent.As self-dispersion type pigment, can enumerate: at the pigment ion surface, directly or by other atomic group, chemical bonding has the material of hydrophilic radical.For example, the hydrophilic radical that imports to the pigment particles surface preferably use from-COOM1 ,-SO
3M1 reaches-PO
3H (M1)
2The material of selecting in the group that (M1 represents hydrogen atom, basic metal, amine or organic ammonium in the formula) constitutes.In addition, above-mentioned other atomic group preferably uses alkylidene group, replacement or unsubstituted phenylene or the replacement or the unsubstituted naphthylidene etc. of carbonatoms 1~12.The processing type that comes to the surface that the also preferred in addition method of using ozonize acidifying carbon black in acidation treatment method by handling carbon black with hypochlorite of soda, the water, the method with the acidifying of souring agent wet type, modification black carbon surface that imposes after the ozonize obtain from dispersed color.
[the polymer scale mould assembly is from dispersed color]
As the water-insoluble colorant that is contained in the water color ink involved in the present invention, as previously mentioned, can use the dispersiveness that improved water-insoluble colorant self, without dispersion agent etc. with regard to dispersible polymers mating type from dispersed color.The polymer scale mould assembly that does not use this dispersion agent is from dispersed color, the preferred material of reactant that contains on the surface of pigment directly or carry out the multipolymer of the functional group of chemical bonding and ionic monomer and hydrophobic monomer by other atomic group that uses.That is, if use the material with this spline structure, the polymerization ratio of employed ionic monomer of polymeric formation material and hydrophobic monomer in the time of making modified surface, the wetting ability of adjustment modified pigment that in view of the above can be suitable.In addition, because the kind of ionic monomer that can use and hydrophobic monomer and both combinations suitably change,, be preferred from this point so can give surface of pigments with various characteristics.
(functional group)
The functional group of above-mentioned polymer scale mould assembly in dispersed color directly or by other atomic group carries out chemical bonding on the surface of pigment.This functional group passes through and the described copolymer reaction in back, constitutes organic group.Here the kind of functional group is selected in the functional group of holding with this multipolymer load related.And the reaction of functional group and multipolymer can disperse in aqueous medium if consider this pigment, does not then preferably add the combination of water decomposition etc., for example, takes place as the reaction of acid amides combination etc.This functional group is amino, holds by amido linkage at pigment particles surface importing multipolymer by carboxyl is carried on a shoulder pole on multipolymer.In addition, this functional group is a carboxyl, also carries on a shoulder pole on multipolymer by amino and holds, the same surface that multipolymer can be imported to pigment particles by amido linkage.
, can carry out the functional group of chemical bonding here in surface of pigments, can be directly in the surface of pigments combination, in addition, also can be by other atomic group combination., will when importing to surface of pigments,, preferably, functional group be imported to surface of pigments than the multipolymer of larger molecular weight by other atomic groups for fear of multipolymer steric barrier each other.Here, other atomic group if polyvalent element and organic radical because of, not special restriction.But, for the above reasons,, preferably for example use organic residue of divalent from the viewpoint of control distance to surface of pigments from functional group.The example of organic residue of divalent comprises alkylidene group and arylidene (phenylene) etc.
More specifically, for example, in the back among Xu Shu the embodiment, by making the reaction of pigment and aminophenyl (2-sulphur ethyl) sulfone, import phenyl (2-sulphur ethyl) sulfuryl in surface of pigments, then, make the amino and the reaction of phenyl (2-sulphur ethyl) sulfuryl of five vinyl urotropins, import amino as functional group.At this moment, amino can be chemically bonded to surface of pigments by the atomic group that contains phenyl (2-sulphur ethyl).
(the polymer scale mould assembly is from the multipolymer of dispersed color)
As the multipolymer that is made of above-mentioned ionic monomer and hydrophobic monomer, preferred for example the use has the anionic property multipolymer of anionic property, the cationic copolymer that perhaps has cationic.
As the multipolymer of above-mentioned anionic property, can enumerate the multipolymer that hydrophobic monomer and anionic property monomer constitute, perhaps their salt etc.Representative hydrophobic monomer as use this moment comprises the following monomer of enumerating, and still, the invention is not restricted to this.For example, vinylbenzene, vinyl naphthalene, the alkyl methacrylate of methacrylic ester etc., methacrylic acid alkane phenyl ester, methacrylic acid-2-ethoxy ethyl ester, methacrylonitrile, methacrylic acid-2-trimethylsiloxy ethyl ester, glycidyl methacrylate, methacrylic acid is to the toluene ester, the methacrylic acid sorbitol ester, the alkyl methacrylate of methacrylic ester etc., phenyl acrylate, benzyl acrylate, vinyl cyanide, vinylformic acid-2-trimethylsiloxy ethyl ester, vinylformic acid Racemic glycidol alcohol ester, vinylformic acid is to toluene ester and vinylformic acid sorbitol ester etc.
As above-mentioned employed anionic property monomer, comprise the following monomer of enumerating, but the invention is not restricted to this.For example can enumerate vinylformic acid, methacrylic acid, toxilic acid etc.
The anionic property multipolymer that constitutes by anionic property monomer and hydrophobic monomer as a mode of employed co-polymer among the present invention, by selecting any one and at least 1 plural at least monomer from the above-mentioned anionic property monomer of enumerating, selecting to constitute in the hydrophobic monomer of in the past being lifted.This multipolymer comprises segmented copolymer, random copolymers, graft copolymer or their salt etc.
Acid value as the anionic property multipolymer is preferably used 100~500 scopes, and, the measurement deviation of acid value be average acid value 20% in.Be defined as in the required scope according to the acid value with multipolymer, the wetting ability that can control surface of pigments effectively is too high, and water and the solvent printed in the printing ink of back rest on surface of pigments, and after the recording medium thing was printed, the expression of the anti-mark of printing ink latened.In addition, the wetting ability that also can effectively suppress surface of pigments is low excessively, and pigment is difficult to stably disperse in printing ink.
In addition, so-called above-mentioned salt can be enumerated: except that receive, the basic metal of lithium, potassium etc., ammonium salt, alkylammonium salt, alkanol ammonium salt etc., can be separately or suitably make up several uses they.
Secondly, other embodiment of the multipolymer that uses as the present invention describes about the cationic multipolymer that is made of cationic monomer and hydrophobic monomer.Can use the multipolymer of enumerating below that constitutes by hydrophobic monomer and cationic monomer, perhaps their salt as the multipolymer of cationic.As hydrophobic monomer, can use the monomer of enumerating previously.
As cationic monomer, for example can use acrylamide, dimethylaminoethyl acrylate methyl base ammonia ethyl ester, methacrylic acid diethyl amino ethyl ester, methacrylic acid tertiary butyl ammonia ethyl ester, vinylformic acid dimethylamino ethyl ester, vinylformic acid diethyl amino ethyl ester, the dimethyl aminopropyl Methacrylamide, the N-vinylcarbazole, Methacrylamide, acrylamide and DMAA etc.
The multipolymer of cationic can be enumerated: segmented copolymer, random copolymers, graft copolymer or their salt etc. that are made of the monomer more than at least 2 of hydrophobic monomer of selecting from above-mentioned monomer and cationic monomer.Particularly the amine value of the multipolymer of preferred cationic is in 100~500 scope, in addition, the error at measurment of preferred amine value be average amine value 20% in.Mg numerical table with the normal KOH of the needed hydrochloric acid of 1g reagent during so-called amine value is used shows.Aforementioned in addition so-called salt can be enumerated acetic acid, hydrochloric acid, nitric acid etc., can be separately or suitably make up several uses.
The above-mentioned anionic property or the multipolymer of cationic preferably use the material of weight-average molecular weight (Mw) in 1000~20000 scopes, and are more suitable for 3000~20000 material.The polydispersity Mw/Mn of cationic copolymer section (weight-average molecular weight Mw, number-average molecular weight Mn) preferentially selects for use numerical value at the material below 3.The content of this cationic multipolymer in the printing ink with respect to the pigment particles that is used for surface modification by polymkeric substance, is preferentially selected the following material of above 40 quality of 5 weight % for use.In addition, about the polydispersity of multipolymer, because polydispersity is big more, the molecular weight distribution of co-polymer is wide more, is difficult to more find based on the above-mentioned character of co-polymer molecular weight, so the material of preferentially selecting for use the co-polymer molecular weight distribution to concentrate.
Be example below with the carbon black, to the method that pigment carries out modification being described by the organo-functional group chemistry bonding that makes the pigment particles surface.Operable method, import functional group in the functional group on pigment particles surface or on the pigment particles surface, the multipolymer that coupled ion monomer and hydrophobic monomer constitute in these functional groups, this copolymer to pigment particles surface chemistry bonding, common any method can, do not have specific restriction.Following method is one of them example.
Import polymine etc. to pigment particles such as carbon black surface, its functional end-group has amino.Make the method for the co-polymer generation doazo reaction that ionic monomer and hydrophobic monomer constitute, or allow intramolecularly have the method etc. of the multipolymer generation doazo reaction of amino and carboxyl on pigment particles surfaces such as carbon blacks.Typical additive method can be referring to disclosed WO 01/51566 A1.
In the aforesaid method, when for example the anionic property multipolymer being chemically bonded to the carbon black particle surface, comprise following 3 operations.
The 1st operation: on carbon black,, make the addition of aminophenyl (2-sulphur ethyl) sulfuryl (APSES) according to doazo reaction.
The 2nd operation: on the carbon black that has carried out the APSES processing, make polymine or 5-vinyl vulkacit H (PEHA) addition.
The 3rd operation: additional hydrophobic monomer and have an ionic polymer of monomers of carboxyl.
In above-mentioned the 2nd operation, the amino reaction by the 1st operation benzene (the 2-sulphur ethyl) sulfuryl by making chemical bonding and APSES on black carbon surface imports the functional groups amino as chemical bonding on black carbon surface.And in the 3rd operation, for example, form amido linkage according to the part of the carboxyl that the terpolymer ionomer monomer segment is had and amino reaction, the phenyl (2-sulphur ethyl) by containing the APSES residue and the atomic group of PEHA residue import to multipolymer on the surface of carbon black.
In the aforesaid method, for example, when making the cationic multipolymer be chemically bonded to particle surface, contain following 2 operations in addition.
The 1st operation: make aminophenyl (2-sulphur ethyl) sulfuryl (APSES) append to the process of black carbon surface by doazo reaction.
The 2nd operation: the process of the polymkeric substance of additional hydrophobic monomer and cationic monomer.By above-mentioned the 1st operation, to the functional group sulfuryl of black carbon surface importing as chemical bonding.And in the 2nd operation, for example making a part and the sulfuryl reaction (asking nuclear to replace) of the amino that the terpolymer ionomer monomer segment has, the atomic group of the phenyl (2-sulphur ethyl) by containing the APSES residue imports black carbon surface with multipolymer.
[the water soluble resin adsorptive type is from dispersed color]
As mentioned above, the water-insoluble colorant that contains in the water color ink that the present invention relates to, can use resin dispersion type pigment, microcapsule-type pigment, self-dispersion type pigment, polymer scale mould assembly self-dispersion type pigment, but in addition, the pigment that adds water soluble resin can use also.It below is explanation about this point.
Among the present invention, add in the form of water soluble resin in the above-mentioned pigment of enumerating, water soluble resin is added in the system in the self-dispersion type pigment, and with respect to self-dispersion type pigment, the water soluble resin adsorptive type of water soluble resin adsorbed state also can use from dispersed color.
From dispersed color, add water soluble resin to above-mentioned described self-dispersion type pigment in dispersion as the water soluble resin adsorptive type, can make by mixing.Enumerate the preference of water soluble resin adsorptive type below from dispersed color.
The present invention is operable to be had as the self-dispersion type pigment of water soluble resin adsorptive type from dispersed color: the pigment particles surface has hydrophilic radical directly or the material by other atomic group chemical bondings etc.For example, the hydrophilic radical that imports on pigment particles surface can be from by-COOM1 ,-SO
3M1 reaches-PO
3H (M1)
2Select in the group that (M1 in the formula represents hydrogen atom, basic metal or organic amino) constitutes.Except that above-mentioned atomic group, the alkylidene group of carbonatoms 1~12 replaces or unsubstituted phenylene or replacement is changed or unsubstituted naphthylidene etc. also is fit to use.
In addition, also have by method with hypochlorite of soda oxide treatment carbon black, handle the method for carbonoxide with ozone in water, carry out wet oxidation with oxygenant after imposing ozonize, the surface oxidation treatment type self-dispersion type pigment such as method of modification black carbon surface also are fit to use.The water soluble resin adsorptive type that forms the present invention's use is when dispersed color, and the self-dispersion type pigment optimization alkali-soluble polymkeric substance that can use adsorbs with ratio to a certain degree.After the surface of dispersed color is modified to the limit by above-mentioned carboxylated grade, in fact the absorption of the pigment particles of alkali-soluble polymkeric substance become zero.The opposed surface modification is very few, is difficult to obtain modified effect.Therefore, should to grasp the carboxyl-content on the surface be 0.1~0.5mmol/g to the yardstick of surface modification.
Can enumerate as forming the water soluble resin that water soluble resin adsorptive type of the present invention can use when the dispersed color: the multipolymer that constitutes by hydrophobic monomer and anionic monomer, the multipolymer that constitutes by hydrophobic monomer and non-ionic monomer and anionic monomer, perhaps their salt etc.At this moment, the representative hydrophobic monomer as using has the following monomer of enumerating, but the invention is not restricted to this.For example, vinylbenzene, vinyl naphthalene, the alkyl methacrylate of methyl methacrylate etc., phenyl methacrylate, benzyl methacrylate, methacrylic acid-2-ethoxy ethyl ester, methacrylonitrile, methacrylic acid-2-trimethylsiloxy ethyl ester, glycidyl methacrylate, methacrylic acid is to the toluene ester, the methacrylic acid sorbitol ester, the alkyl acrylate of methyl acrylate etc., phenyl acrylate, benzyl acrylate, vinyl cyanide, vinylformic acid-2-trimethylsiloxy ethyl ester, glycidyl acrylate, vinylformic acid is to toluene ester and vinylformic acid sorbitol ester.Nonionic monomers is listed below, but not talkative the present invention only limits to these monomers.Can enumerate: (methyl) Hydroxyethyl acrylate, (methyl) polyalkylene glycol acrylate ester, (methyl) vinylformic acid alcoxyl base macrogol ester, シ リ コ one Application マ Network ロ マ first-class.The anionic monomer of above-mentioned use is listed below, but not talkative the present invention only limits to these monomers.For example, vinylformic acid, methacrylic acid, toxilic acid etc.This copolymerization comprises inlay and break copolymer, random copolymers, graft copolymer and salt thereof etc.
The acid value preferable range of the anionic copolymer of above-mentioned use is 100~500, and the deviation of acid value be preferably average acid value 20% in.In addition, above-mentioned salt comprises metal-salt and ammonium salt, alkylammonium salt and alkyl alcohol amine salt etc. such as sodium, lithium, potassium.These can be separately or appropriate combination used.Above Shuo Ming anionic copolymer, the scope of its weight-average molecular weight (Mw) preferred 1000~20000 more preferably can be used in 3000~20000 scope.
The absorption of so-called pigment of the present invention and water soluble resin is meant the absorption by Van der Waals force or intermolecular forces etc.As the means of absorption, generally just can obtain effect of sufficient, but use as to have the shared dispersion machine of height during absorption also no problem by stirring pigment and alkali-soluble polymkeric substance.For inquiring into adsorptivity, be easy according to capillary evaluation with respect to the solvable type polymkeric substance of the alkali of self-dispersion type pigment.For example, self-dispersion type pigment with respect to 1 weight %, surface tension when measure adding aqueous solution resin (contain 1 weight % in pigment dispersion system, the solvable type amount of polymers of alkali vs γ: be called orthographic plan A), on the other hand, change the concentration determination surface tension (water soluble resin amount Vs γ: be called orthographic plan B) of the aqueous solution that only contains water soluble resin, compare orthographic plan A and orthographic plan B, if inquire into when reaching arbitrarily surface tension, in orthographic plan A and orthographic plan B, which kind of degree is the concentration of water soluble resin differ, and can estimate the adsorptive capacity of water soluble resin substantially.
<other composition 〉
The water color ink that relates among the present invention in order to keep moisture retention, except that mentioned component, also can use the moisture retention solids component of the derivative of urea, urea, TriMethylolPropane(TMP), trimethylolethane etc. as ink composition.The amount of moisture retention solids component in printing ink of urea, urea derivative, TriMethylolPropane(TMP) etc., general preferred is the scope of 0.1~20.0 weight % with respect to printing ink, more preferably the scope of 3.0~10.0 weight %.
In addition, in the printing ink that the present invention relates to, except that mentioned component, in case of necessity, also can contain various additives such as tensio-active agent, pH adjustment agent, rust-preventive agent, sanitas, mould inhibitor, anti-souring agent, anti-reductive agent, evaporation accelerators, complexing agent.
As employed tensio-active agent among the present invention, preferably has the compound of any one structure of following structural formula (1)~(4).
Structural formula (1)
(in the said structure formula (1), R represents alkyl, and n represents integer).
Structural formula (2)
(in the said structure formula (2), R represents alkyl, and n represents integer).
Structural formula (3)
(in the said structure formula (3), R represents that hydrogen atom or alkyl, m and n represent integer respectively).
Structural formula (4)
(in the said structure formula (4), n and m represent integer respectively)
<<the use image forming method of above-mentioned printing ink〉〉
The portrait formation method that relates among the present invention, be to use the hydrate colour printing ink of black ink and at least a color, ink jet recording method at the enterprising line item of common paper, it is characterized in that: black ink uses the water color ink with above-mentioned formation that has illustrated, and, form by the formed image of this carbon black and by colour oily formed image when the image that forms, after giving the scanning formation image of black ink, in the zone that this image forms, the scanning of giving colored ink.
<and the colored ink of usefulness
Here, to describing about colored ink among the present invention with black ink and usefulness.In the image forming method that the present invention relates to, can use any in the known in the past inkjet recording aqueous colored ink.As the colorant of colored ink, can enumerate water-soluble dye, particularly as dissolving group, the preferred water-soluble dye that uses with anionic property group.The color of the colored ink that uses among the present invention can suitably be selected in green grass or young crops, magenta, Huang, red, green, blue, the orange to use from for example.
As employed water-soluble dye among the present invention, if water miscible matching stain, substantive dyestuff, the chemically-reactive dyes put down in writing in the color index (COLOUR INDEX) are not particularly limited with anionic property group.In addition, even there is not the dyestuff of record in color index, if having the anionic property group, for example sulfuryl then is not particularly limited.These dyestuffs, with 1~10 weight %, the scope of preferred 1~5 weight % is used in printing ink.
As concrete dyestuff, can enumerate following material.
C.I. directly yellow: 8,11,12,27,28,33,39,44,50,58,85,86,87,88,98,100,110
C.I. directly red: 2,4,9,11,20,23,24,31,39,46,62,75,79,80,83,89,95,197,201,218,220,224,225,226,227,228,230
C.I. sun blue: 1,15,22,25,41,76,77,80,86,90,98,106,108,120,158,163,168,199,226
C.I. turmeric yellow: 1,3,7,11,17,23,25,29,36,38,40,42,44,76,98,99
C.I. Xylene Red: 6,8,9,13,14,18,26,27,32,35,42,51,52,80,83,87,89,92,94,106,114,115,133,134,145,158,198,249,265,289
C.I. acid blue: 1,7,9,15,22,23,25,29,40,43,59,62,74,78,80,90,100,102,104,117,127,138,158,161
Except that aforementioned,, can enumerate following 1.~3. material as the colored ink colorant that the present invention can use.These colorants are when being endowed recording medium, because brought into play excellent in water resistance, so preferred.
1. as dissolving base, has the dyestuff of carboxyl
2. oil-soluble colourant
3. pigment
As oil-soluble colourant, if then being not particularly limited of being put down in writing in the color index (COLOUR INDEX).In addition, even there is not the new dye of record in the color index, also be not particularly limited.Concrete can enumerate following material.These dyestuffs, with 1~10 weight %, more preferably the scope of 1~5 weight % is used in printing ink.
C.I. solvent blue: 33,38,42,45,53,65,67,70,104,114,115,135
C.I. solvent red: 25,31,86,92,97,118,132,160,186,187,219
C.I. solvent yellow: 1,49,62,74,79,82,83,89,90,120,121,151,153,154
As the colorant of employed colored ink among the present invention, when using pigment, the amount of pigment is with respect to the gross weight of printing ink, and the operating weight ratio is 1~20 weight %, the scope of preferred 2~12 weight %.As the colored pigment dyestuff that the present invention can use, can enumerate following substances.
For example can enumerate Pigment Yellow 73 1 (C.I.PigmentYellow 1), Pigment Yellow 73 2 (C.I.Pigment Yellow 2), Pigment Yellow 73 3 (C.I.Pigment Yellow 3), pigment yellow 13 (C.I.Pigment Yellow 13), Pigment Yellow 73 16 (C.I.Pigment Yellow 16), Pigment Yellow 73 74 (C.I.Pigment Yellow74), pigment yellow 83 (C.I.Pigment Yellow 83), pigment Yellow 12 8 (C.I.PigmentYellow 128) etc. as employed pigment in the Yellow ink.
Can enumerate as the pigment that can use in the magenta ink, for example, Pigment red 5 (C.I.Pigment Red 5), Pigment red 7 (C.I.Pigment Red 7), Pigment red 12 (C.I.Pigment Red 12), pigment red 48 (Ca) (C.I.Pigment Red 48 (Ca)), pigment red 48 (Mn) (C.I.Pigment Red 48 (Mn)), Pigment red 57 (Ca) (C.I.Pigment Red 57 (Ca)), Pigment Red 112 (C.I.Pigment Red 112), pigment red 122 (C.I.Pigment Red 122) etc.
For example can enumerate pigment blue 1 (C.I.PigmentBlue 1), Pigment blue 2 (C.I.Pigment Blue 2), Pigment blue 3 (C.I.PigmentBlue 3), pigment Blue 15 as spendable pigment in the cyan ink: 3 (C.I.Pigment Blue 15:3), pigment blue 16 (C.I.Pigment Blue 16), Pigment blue 22 (C.I.Pigment Blue 22), Vat blue 4 (C.I.Vat Blue 4), reductive blue 6 (C.I.Vat Blue 6) etc.
But, be not limited to these.In addition, except that above, also can use certainly.The pigment of coming of new for the present invention.
In addition, when using pigment, as the dispersion agent that makes colo(u)rant dispersion in printing ink, if water soluble resin, no matter which kind of material all can use, still, preferable weight-average molecular weight is in 1000~30000 scope, more preferably in 3000~15000 scope.Dispersion agent like this, concrete can enumerate, by from vinylbenzene, styrene derivatives, vinyl naphthalene, ethenyl derivatives, α, the aliphatics alcohol ester of β-ethene unsaturated carboxylic acid etc., vinylformic acid, acrylic acid derivative, toxilic acid, maleic acid derivatives, methylene-succinic acid, derivatives from itaconic acid, fumaric acid, fumaric acid derivatives, vinyl-acetic ester, vinyl pyrrolidone, the segmented copolymer that at least 2 monomers selecting in acrylamide and the derivative etc. thereof (this wherein at least 1 be hydrophilic monomer) constitute, perhaps random copolymers, graft copolymer or their salt etc.Perhaps, preferably use the natural resin of rosin, lac, starch etc.These resins are soluble in the aqueous solution that has dissolved alkali, are the solvable type resins of alkali.In addition, as the spendable water soluble resin of these pigment dispersing agents, preferably contain with respect to the gross weight of printing ink scope with 0.1~5 weight %.
The blending agent that employed water-based liquid medium is water or water and water-miscible organic solvent in colored ink of the present invention as water, is not to contain various ionic ortho-waters, preferably uses ion exchanged water (deionized water).As mixing the water-miscible organic solvent that uses with water, for example can enumerate, the carbon number of methyl alcohol, ethanol, n-propyl alcohol, Virahol, n-butanols, sec-butanols, tert-butanols etc. is 1~4 alkyl alcohols; The amides of dimethyl methyl acid amides, N,N-DIMETHYLACETAMIDE etc.; The acetone of acetone, Pyranton etc. or hydroxyacetone; The ethers of tetrahydrofuran (THF), diox etc.; The polyalkylene alcohols of polyoxyethylene glycol, polypropylene glycol etc.; Ethylene glycol, propylene glycol, butyleneglycol, triethylene glycol, 1,2, the alkylidene group of 6-hexanetriol, sulphur support di-alcohol, hexylene glycol, Diethylene Glycol etc. contains the aklylene glycol class of 2~6 carbon atoms; The lower alkyl ethers of the polyvalent alcohol of glycerol, ethylene glycol monomethyl ether (or ether), Diethylene Glycol first (or second) ether, triethylene glycol first (or second) ether etc.; N-N-methyl-2-2-pyrrolidone N-, 2-Pyrrolidone, 1,3-dimethyl-2-imidazolidone etc.In a large amount of like this water-miscible organic solvents, preferably use the lower alkyl ether of polyvalent alcohol of the polyvalent alcohol, triethylene glycol list first (or second) ether etc. of Diethylene Glycol etc.
The amount of as above such water-miscible organic solvent in colored ink, general is the scope of 3~50 weight % of total weight, the scope of preferred 3~40 weight %.In addition, as the amount of employed water, be 10~90 weight % of total weight, the scope of preferred 30~80 weight %.In addition, in colored ink used in the present invention, except that mentioned component, in case of necessity, have the physics value of hope, can suitably add tensio-active agent, defoamer, sanitas etc. in order to make printing ink.
Employed black and colored ink among the present invention who constitutes by as described above composition, preferably have from ink jet print head can be good the characteristic of ejection.For this reason, from viewpoint from the ejection of ink-jet record-header, the characteristic preference of printing ink as, its viscosity is 1~15mPas, surface tension is more than the 25mN/m, more preferably its viscosity is 1~5mPas, surface tension is 25mN/m~50mN/m.Black ink and colored ink and time spent, particularly more preferably the surface tension of colored ink is lower than the surface tension of black ink.Concretely, the surface tension of black ink is 35~50mN/m, and the surface tension of colored ink is 25~35mN/m.
<image forming method 〉
Below lift concrete example with regard to image forming method involved in the present invention and describe.Image forming method of the present invention, it is characterized in that, on black ink, use the water color ink involved in the present invention that constitutes by foregoing composition, forming the image forms by this black ink and formed portrait adjacency and when the image that constitutes by foregoing colored ink, after giving the scanning formation image of black ink, the scanning of giving colored ink in the zone that image forms.Below, describe about concrete gimmick.
Fig. 8 is an example at the record-header of implementing to use when the image forming method involved in the present invention.This record-header as shown in Figure 8, possess the ejiction opening row (Bk) of ejection black ink and spray respectively colored ink (C), pinkish red (M), and the ejiction opening of yellow (Y) 3 kinds of printing ink be listed as.In image forming method of the present invention, when forming coloured image, the black ink ejiction opening row of ejection black ink and the colored ink ejiction opening of ejection colored ink are listed as the record-header of the configuration of preferably staggering on sub scanning direction.For this reason, for example when using record-header shown in Figure 8 to carry out image formation, form the only situation of the image of black ink, it is all that the ejiction opening that uses black to use is listed as; When the formation of the coloured image that carries out black and colour and deposit, preferred black uses a part among the figure, C, and M and Y use the b part among the figure, form image.Below use Fig. 8, the situation about the formation of carrying out black and colored and the image deposited is described in detail.
In Fig. 8, at first use black partly to scan with the transversely main scanning direction of printhead at figure with a of ejiction opening row, with the view data of black, be formed at the 1pass printing on the recording medium of common paper etc.Secondly, on vertical (sub scanning direction) of figure, only carry out the handover of recording medium with distance a, the process of the past direction of the main-scanning of printhead below, utilize the b part of chromatic ejiction opening row, form the zone of image in a formation of usefulness black just now, carry out the formation of coloured image with 1pass.At this moment, image formation is side by side carried out in the ejiction opening row a field below of black.According to above-mentioned repeatedly described, carry out black, colour and the formation of the image deposited.
Among Fig. 9, be presented at another example of implementing spendable record-header when the image forming method involved in the present invention.The situation of Fig. 9 and Fig. 8 is identical, and black uses a part among the figure of ejiction opening row, and C, M, Y use ejiction opening to be listed as b part among the figure in full field, with carry out with the explanation of above-mentioned Fig. 8 identical, carry out black, colour and the formation of the image deposited.
Among Figure 10, be presented at another example of implementing spendable record-header when the image forming method involved in the present invention.The situation of Figure 10 and Fig. 8 is identical, and black uses a part among the figure of ejiction opening row, and C, M, Y use ejiction opening to be listed as b part among the figure in full field, carries out black, colour and the formation of the image deposited.In the record-header shown in Figure 10, as shown, between a part and chromatic b part of black, only place with the distance of 1 time paper feeding amount a ' with ejiction opening row.For this reason, the record-header of described formation is forming from black image between the coloured image formation, and the reciprocal 1 time print scanned time difference produces residue.Thereby the illustrative record-header of Figure 10 is than formation shown in Figure 9, and is with respect to the outflow between black, colour, more favourable.
Be presented at another example of implementing spendable record-header when the image forming method involved in the present invention among Figure 11.Like this, successively use black and colored when being configured to the record-header of row with the ejiction opening row corresponding to paper feeding, forms after the black image on paper feeding direction, forms coloured image.
Among Figure 12, be presented at another example of implementing spendable record-header when the image forming method involved in the present invention.In record-header shown in Figure 12, toward the scanning of direction with return in the scanning of direction, for allow colored ink to squeeze into order impartial, colored green grass or young crops (C1 with the ejiction opening row, C2), pinkish red (M1, M2), yellow (Y1, Y2) each two is listed in main scanning direction and is provided with symmetrically and constitutes.Its result makes at black, colour and deposits in the formation of image, and twocouese is printed becomes possibility.At this moment, at first use a part of black, the past direction of the main-scanning of printhead forms black image, secondly, only carries out the handover of recording medium with distance a.Then, in the process of returning direction of the main-scanning of printhead, use the b part of chromatic ejiction opening row, in the zone that forms image with a row of above-mentioned black, with lpass printing the carrying out formation of coloured image.In addition, at this moment,, side by side carry out the formation of the black image in next field with a part of black.According to above-mentioned described repetition, carry out black, colour and the formation of the image deposited.
In as the corresponding head of the printing of the twocouese of Figure 12, certainly with narrate previously identical.As black and chromatic nozzle arrangement, between black and the formation of chromatic image, the interval of 1 sweep test is set, with respect to ejection, also can be used as more favourable formation (with reference to Figure 13).More than, with regard to image forming method of the present invention, be illustrated, but the form of the record-header that can use in the method for the present invention is not limited by Fig. 8~13.
[recording method, record cell, print cartridge and other recording unit]
Below, just an example of the ink-jet recording device that is suitable among the present invention describes following.At first, will utilize the example of head structure of major portion of the ink-jet recording device of heat energy to be shown in Fig. 1 and Fig. 2.Fig. 1 is 13 a sectional view along the printing ink stream, and Fig. 2 is the incision sectional view at the A-B line.13 is that glass, pottery, silicon or the plastic plate etc. that will have the stream (nozzle) 14 of printing ink circulation carry out bonding obtaining with Heating element substrate 15.Electrode 17-1 that Heating element substrate 15 forms by the protective layer 16 that forms with silicon oxide, silicon nitride, silicon carbide etc., with aluminium, gold, Al-zn-mg-cu alloy etc. and 17-2, the heating resistor layer 18 that forms with materials with high melting point of HfB2, TaN, TaAl etc. etc., the recuperation layer 19 that forms with thermal oxidation silicon, aluminum oxide etc., the substrate 20 that forms with good materials of exothermicity such as silicon, aluminium, aluminium nitride constitute.
In above-mentioned 13 electrode 17-1 and 17-2, the electrical signal of applying pulse shape, then generate heat rapidly with the represented zone of the n of Heating element substrate 15, be connected this surperficial printing ink 21 and produce bubble, because of its pressure, meniscus 23 is outstanding, and printing ink 21 is by nozzle 14 ejections of head, become printing ink small droplets 24 from squit hole 22, spray to recording medium 25.The outside drawing of representing an example of a plurality of of side by side a plurality of heads shown in Figure 1 at Fig. 3.These a plurality of heads are to have the sheet glass 27 of multi-nozzle 26 and heating 28 bonding are made identical with the illustrated person of Fig. 1.
Among Fig. 4, show an example of the ink-jet recording device that this is installed.In Fig. 4, the 61st, as the baffle plate of erasing parts, the one end is held fixing by the baffle plate holding member, becomes the form of support.Baffle plate 61 is formulated in the position of the posting field that is contiguous to record-header 65, in addition, in the situation of illustrated example, in the mobile pathway of record-header 65, keeps outstanding form.
The 62nd, the outstanding actinal surface of record-header 65 cap, be configured in and be contiguous to 61 rest position, moving with the vertical direction of the direction of record-header 65, be connected with the outstanding actinal surface of printing ink, have the formation of carrying out shutoff.In addition, the 63rd, the printing ink absorbing means and the baffle plate 61 that are contiguous to baffle plate 61 settings are same, in the mobile pathway of record-header 65, keep outstanding form.Constitute ejection recovery section 64 by above-mentioned baffle plate 61, cap 62 and printing ink absorbing means 63, remove moisture, dust etc. in ejection port face according to baffle plate 61 and printing ink absorbing means 63.
The 65th, have the ejection energy generating apparatus, spray the record-header that printing ink writes down to recording medium facing to the ejection port face of being furnished with ejiction opening, the 66th, carry record-header 65, carry out the load bearing seat that moves of record-header 65.The axis of guide 67 of load bearing seat 66 engages slidably, and the part of load bearing seat 66 is connected (not shown) with the transmission belt 69 that is driven by engine 68.Thus, load bearing seat 66 can move along the axis of guide 67, can move at the posting field and the neighboring region thereof of record-header 65.
The 51st, according to the sheet feed section that inserts recording medium, 52 according to the driven paper-feed roll of not shown engine.Constitute according to these, can be to supplying with recording medium, along with the carrying out of record, to the row of the row's paper portion paper of being furnished with exit roller 53 with the ejection port face position of record-header 65.In above formation, record-header 65 record end, when returning rest position, the cap 62 of ejection recovery section 64 is kept out of the way from the mobile pathway of record-header 65, and still, baffle plate 61 is outstanding in mobile pathway.Its result, the ejiction opening of record-header 65 is by erasing.
In addition, when the ejection face that cap 62 is connected to record-header 65 carried out shutoff, cap 62 moved with outstanding state in the mobile pathway of record-header.When record start position moved, the position when cap 62 and baffle plate 61 and above-mentioned erasing was a same position from rest position for record-header 65.This result is in this moves, and the ejection port face of record-header 65 is by erasing.Above-mentioned record-header, moves to the rest position that is contiguous to posting field with fixed in order to be recorded between posting field moves at interval at record-header when rest position mobile is not only record end or ejection and recovers, and is accompanied by this and moves, and carries out above-mentioned erasing.
Fig. 5 shows parts from printing ink to record-header that supply with, for example, holds the figure of an example of the print cartridge of the printing ink that is supplied to by pipe.Here, the 40th, hold the printing ink accommodation section supplied with printing ink, for example, Printing ink bag at its front end, is provided with the bolt 42 that rubber is made.By in this bolt 42, inserting pin (not shown), can be with the inking head in the Printing ink bag 40.The 44th, the printing ink absorbing means of reception spent ink.As the contact surface of printing ink accommodation section and printing ink preferably with polyolefine, particularly form with polyethylene.
As ink-jet recording device used in the present invention, aforesaid head and print cartridge are not limited to become additional member.As shown in Figure 6, preferably use the device that they become one.In Fig. 6, the 70th, record cell wherein, holds the printing ink accommodation section of printing ink, for example, and printing ink absorbing means is contained, the formation that the printing ink in the printing ink absorbing means is ejected as droplets of ink from the head 71 with a plurality of holes.As the material of printing ink absorbing means, preferably use urethane for the present invention.In addition, also can be not use printing ink absorbing means, the printing ink accommodation section is equipped with the structure of the Printing ink bag of spring etc. in inside.The 72nd, make the inner atmosphere connection port that is communicated with atmosphere of box.This record cell 70 is replaced with record-header shown in Figure 4 65 and uses, and with respect to load bearing seat, can freely load and unload.
Below, a preferred embodiment as the ink-jet recording device that utilizes the mechanics energy, can enumerate: possess the nozzle with a plurality of nozzles form substrate, subtend in nozzle arrangement by piezoelectric and transfer the pressure generating component that electric material constitutes and satisfy this pressure generating component around printing ink, make the pressure generating component displacement according to impressed voltage, spray the drop on demand ink jet record-header of the small droplets of printing ink from nozzle.An example of the formation of the record-header of the major portion of this device is shown in Fig. 7.
The head by be communicated to ink chamber (not shown) printing ink stream 80, the ejection decide the droplet of ink of volume orifice plate 81, make direct compression act on printing ink oscillating plate 82, be connected to this oscillating plate 82, piezoelectric element 83 by the electrical signal displacement and indication be orifice plate 81 fixedly, substrate 84 formations of oscillating plate 82 grades.
In Fig. 7, printing ink stream 80 is by manufacturings such as photoresists.Nozzle plate 81 carries out the punching that electroforming or extrusion processing form by the metal with stainless steel, nickel etc., form ejiction opening 85, manufacturings such as the metallic membrane of oscillating plate 82 usefulness stainless steels, nickel, titanium etc. and snappiness resin molding, the dielectric substance material of piezoelectric element 83 usefulness barium titanates, PZT etc. is made.The record-header of the formation as above carries out giving piezoelectric element 83 as pulse-like voltage, make it to produce deforming stress, its energy makes the oscillating plate distortion that is connected on the piezoelectric element 83, printing ink in the printing ink stream 80 is vertically pressurizeed, droplet of ink (not shown) is sprayed in the ejiction opening 85 of nozzle plate 81, carry out record.Such a record-header can be assembled into identical ink-jet recording device shown in Figure 4 in use.The details of ink-jet recording device action and above-mentionedly similarly carry out does not have obstacle.
Embodiment
Below, for embodiment and comparative example, be described more specifically the present invention, still,, then be not limited to following embodiment if do not surpass its main contents.In addition, " part " in the literary composition reaches " % ", if be not particularly limited, then is meant weight basis.
(preparation of dispersible pigment dispersion 1)
With specific surface area is 210m
2/ g, DBP oil number are that 10 parts of 74ml/100g carbon blacks, acid value 200, weight-average molecular weight are in 10% the oxyhydroxide of 10000 styrene-propene acid copolymer and 20 parts of the aqueous solution, with 70 parts of mixing of ion exchanged water, use sand mill to disperse after 1 hour, handling by centrifugation and to remove oversize particle, is the dispersible pigment dispersion 1 that pressure filtration obtains containing resin dispersion type pigment in the micron filter (Fuji's film system) of 3.0 μ m in pore size.The characteristic value of resulting dispersible pigment dispersion 1 is: be divided into 10% Gu form, and pH=10.0, median size is 120nm.
(preparation of dispersible pigment dispersion 2)
With specific surface area is 230m
2/ g, DBP oil number splash into nitric acid 1.62g after being the carbon black 10g of 70ml/100g and p-amino-N-M-nitro benzoic acid 3.41g uniform mixing in the 72g water in this solution, stir down at 70 ℃.Behind the several minutes, be added on the solution that is dissolved with the Sodium Nitrite of 1.07g in the 5g water, restir 1 hour.The slurries that obtain are filtered with Japan filter paper NO.2 (manufacturing of ア De バ ニ テ イ ス company), wash pigment particles fully, after the drying, make up water making pigment concentration is 10% the pigment aqueous solution in this pigment in 90 ℃ baking oven.By above method, obtained being dispersed with from the teeth outwards by the phenyl bonding dispersible pigment dispersion 2 of the anionic property self dispersible carbon black of hydrophilic radical.
In addition, the density of the ionic group of the self-dispersion type carbon black of above-mentioned making being carried out following mensuration, is 1.3 μ mol/m
2As measuring method, use ion chi (DKK manufacturing) to measure Na ion concentration, from the density of its value conversion ionic group.Obtain being dispersed with according to above method and imported-C on the surface of carbon black
6H
4The dispersible pigment dispersion 2 of the self-dispersion type carbon black of-COONa group.
(preparation of dispersible pigment dispersion 3)
With specific surface area is 220m
2/ g, DBP oil number are that carbon black 500g, aminophenyl (2-sulphur ethyl) sulfone (APSES) 45g, the distilled water 900g of 112ml/100g puts into reactor, in 55 ℃ of insulations, after rotation number 300RPM stirring 20 minutes, the Sodium Nitrite 40g of 25% concentration of dripping in 15 minutes, adding distil water 50g again.Then, reacted 2 hours while being incubated at 60 ℃.And, the reactant that obtains is taken out with distilled water diluting, be adjusted to solid formation and be divided into 15% concentration.After this, carry out the refinement treatment that centrifugation is handled and removed impurity.This dispersion liquid that makes be on carbon black bonding the dispersion liquid of functional group of aforementioned APSES, this dispersion liquid is designated as A1.
Below, in this dispersion liquid A1, in order to ask the mole number of the functional group of bonding in the carbon black,, the value that obtains is converted into is equivalent to carbon black powders with the sodium ion in the probe-type sodium determination of electrode dispersion liquid, ask the mole number of the functional group of bonding on the carbon black.Then, the solid formation of before having prepared is divided 15% dispersion liquid A1 drip in five vinyl vulkacit H (PEHA) solution.At this moment, stir PEHA solution tempestuously, keep spending 1 hour under the room temperature, drip dispersion liquid A1.The PEHA concentration of this moment is 1~10 times of concentration to the Na of previous mensuration ionic mole number, and solution amount and dispersion liquid A1 are to carry out with amount.In addition, after this mixture stirred 18~48 hours, the refinement treatment of removing impurity, final, obtain bonding the solid formation of five vinyl vulkacit Hs (PEHA) be divided into 10% dispersion liquid.This dispersion liquid is designated as B1.
Below, by the styrene-propene acid resin of following preparation as multipolymer.At first, take by weighing weight-average molecular weight and be 8000, acid value is 140, polydispersity Mw/Mn (weight-average molecular weight Mw, number-average molecular weight Mn) is 1.5 styrene-propene acid resin 190g, to the distilled water that wherein adds 1800g, with the necessary NaOH of resin, stir, dissolve, prepare the styrene-propene acid resin aqueous solution in being added to.Then, the solid formation of before having prepared is divided 10% dispersion liquid B1500g under agitation be added drop-wise in the above-mentioned styrene-propene acid resin aqueous solution.Then, the mixture of the B1 and the styrene-propene acid resin aqueous solution is moved in パ イ レ Star Network ス (registered trademark) furnace pot, 150 ℃ of heating 15 hours, make it evaporation after, the evaporation drying thing is cooled off in room temperature.
Then, use dispersion machine that this evaporation drying thing is dispersed in the distilled water that is added with NaOH of pH=9.0, add the NaOH of 1.0M in the time of stirring, transferring pH is 10~11.Afterwards, desalination is removed the refining of impurity and is removed oversize particle, obtains dispersible pigment dispersion 3.The physics value of the dispersible pigment dispersion 3 that obtains is: Gu form branch is 10%, pH=10.1, and median size is 130nm.The surface chemistry bonding organic group of the carbon black particle that has below shown in above-mentioned dispersible pigment dispersion to be contained and the polymer scale mould assembly that forms are from the synthetic route of dispersed color.
The synthetic route of modified pigment:
[good solvent of employed aqueous organic solvent and the decision method of poor solvent]
In order to select good solvent and poor solvent, carried out following experiment with respect to the pigment in the above-mentioned dispersion or pigment and dispersion agent.At first, the solid formation branch concentration of preparing above-mentioned dispersible pigment dispersion 1~3 is 10% the aqueous solution, uses it, makes the judgement dispersion liquid of good solvent, poor solvent by following proportioning.
(judgement of good solvent, the poor solvent proportioning of dispersion liquid)
The solid formation branch concentration of each dispersible pigment dispersion is 10% the aqueous solution: 50 parts
Each water-miscible organic solvent that table 1 is put down in writing: 50 parts
(decision method)
Below, will join in the glass sample bottle with cover by the good solvent of above-mentioned preparation, the judgement dispersion liquid 10g of poor solvent, after closing the lid, fully stir, this was left standstill in 60 ℃ baking oven 48 hours.Then, as test sample, working concentration is particle diameter ア Na ラ イ ザ-(trade(brand)name: FPAR-1000 with the dispersion liquid that takes out from 60 ℃ baking oven; Da mound electronics corporation makes) measure the particle diameter of the water-insoluble colorant in this solution, with this in 60 ℃ heat preserve 48 hours after, as the judgement of good solvent, poor solvent stoste particle diameter (particle diameter of undiluted mensuration) with dispersion liquid.On the other hand, as reference point, make good solvent, poor solvent judgement dispersion liquid and the solid pigment dispersion that divides concentration equal that forms.Promptly, replace water-miscible organic solvent, add the good solvent of the water of same amount, pigment-water dispersion liquid is relatively used in the judgement of poor solvent, the preservation of not heating of this aqueous dispersions, with with above-mentioned identical concentration be particle diameter ア Na ラ イ ザ-, measure the particle diameter of the water-insoluble colorant in the solution.And, the judgement that obtains is used the stoste particle diameter of dispersion liquid, with the particle diameter ratio of the aqueous dispersions of reference point, in the stoste particle diameter of the dispersion liquid of the stoste particle diameter ratio reference point of 60 ℃ of dispersion liquids after preserving 48 hours of heating more increase person be judged to be poor solvent, the identical or person of diminishing is judged to be good solvent.
(about the measuring method of the Ka value of each water-miscible organic solvent)
At first, in each water-miscible organic solvent,, make dye strength and be 0.5% aqueous dye solutions with following composition for the ease of measuring.
199 0.5 parts of water-soluble dye C.I. sun blue
99.5 parts of pure water
Then, utilize this aqueous dye solutions of 0.5%, by following proportioning, use each water-miscible organic solvent, make 20% the aqueous solution of painted water-miscible organic solvent respectively as determination object.
80 parts of above-mentioned 0.5% aqueous dye solutions
20 parts of the water-miscible organic solvents of record in the table 1
As 20% the aqueous solution articles for use sample of measuring by each water-miscible organic solvent of above-mentioned preparation, use the smart mechanism of Japan to make the dynamic impregnability testing apparatus S (trade(brand)name) of manufacturing, obtain the Ka value of 20% the aqueous solution of water-miscible organic solvent according to the bristow method respectively.
<<judge and measurement result〉〉
About each water-miscible organic solvent that in printing ink, can use that has carried out as above measuring, with respect to dispersible pigment dispersion 1~3, to differentiate for being good solvent, or poor solvent, the measurement result of the Ka value in 20% the aqueous solution of each water-miscible organic solvent is charged to table 1.Polyethyleneglycol derivative in the table 1 is the derivative of structure shown below, and molecular weight is 1000 approximately.
(in the following formula, n and m represent separately independently 5~20 number)
Table 1: the good solvent of each water-miscible organic solvent, the result of determination of poor solvent and Ka value
Water-miscible organic solvent | The water-insoluble colorant | The Ka value of 20% the aqueous solution | ||
| Dispersible pigment dispersion 2 | Dispersible pigment dispersion 3 | ||
Glycerol | ○ | ○ | ○ | 0.13 |
Ethylene glycol | ○ | ○ | ○ | 0.09 |
Diethylene Glycol | × | × | × | 0.14 |
TriMethylolPropane(TMP) | ○ | ○ | ○ | 0.19 |
Polyethylene Glycol-600 | × | × | × | 0.17 |
Polyethyleneglycol derivative | × | × | × | 0.18 |
2-Pyrrolidone | × | ○ | × | 0.19 |
In the last table: zero: good solvent *: poor solvent
<embodiment 1~5 〉
Use each water-miscible organic solvent and the dispersible pigment dispersion 1~3 of above-mentioned preparation, the composition of record in the mixed table 2, fully stirring and dissolving or disperse after, be pressure filtration in the micron filter (Fuji's thin film fabrication) of 3.0 μ m in aperture size, prepare the printing ink of embodiment 1~5.At this moment, gross weight (weight %) with the good solvent in the printing ink is A, gross weight (weight %) with the poor solvent in the printing ink is the situation of B, according to A: B is in 10: 5 above 10: 30 following scopes, and, with respect to the Ka value of 20% aqueous solution of the above-mentioned good solvent of the water-insoluble colorant of trying to achieve according to the bristow method, relatively during each Ka value of a plurality of water-miscible organic solvents of trying to achieve according to the bristow method, the water-miscible organic solvent of preparation Ka value maximum is a poor solvent.
The printing ink of table 2: embodiment 1~5 is formed
Cooperate (weight %) | |||||||
| Embodiment 2 | Embodiment 3 | Embodiment 4 | Embodiment 5 | |||
The water-insoluble colorant | | 50 | - | - | - | - | |
Dispersible pigment dispersion 2 | - | 50 | - | 50 | - | ||
Dispersible pigment dispersion 3 | - | - | 50 | - | 50 | ||
Water-miscible organic solvent | Good solvent | Glycerol | 5 | 5 | 5 | 7 | 5 |
Ethylene glycol | 5 | - | - | - | - | ||
TriMethylolPropane(TMP) | - | - | - | - | - | ||
Poor solvent | Diethylene Glycol | - | - | 5 | 3 | 3 | |
Polyethylene Glycol-600 | 10 | 15 | 10 | 6 | - | ||
Polyethyleneglycol derivative | - | - | - | - | 10 | ||
The 2-pyrrolinone | - | - | - | - | - | ||
Tensio-active agent | ア セ チ レ Application グ リ コ-Le EO affixture (*) | 0.1 | 0.1 | 0.1 | 0.1 | 0.1 | |
Pure water | 29.9 | 29.9 | 29.9 | 33.9 | 31.9 |
(*) trade(brand)name: ア セ チ レ ノ one Le EH; The manufacturing of Off ア イ Application ケ ミ カ Le is ground in the river
The checking of the printing ink the among<embodiment 4 〉
About above-mentioned preparation ground embodiment 4 ground printing ink, it forms supposition is unknown, is object of the present invention with this printing ink of following method validation.According to verification method, be unknown printing ink even form, can confirm also whether this printing ink is object of the present invention.
The kind of contained organic solvent and amount thereof in the printing ink are for example used GC/MS (trade(brand)name: TRACE DSQ; サ one モ Network エ ス ト (ThermoQuest) company makes).Specifically, for example, divide the printing ink 1g that gets embodiment 4, analyze the sample that dilutes by methyl alcohol with above-mentioned GC/MS.Its result at first can confirm the existence of glycerol, Diethylene Glycol, Polyethylene Glycol-600.Secondly, being necessary to carry out these 3 kinds of solvents is the good solvent or the judgement of poor solvent.With the decision method of above-mentioned good solvent, poor solvent, with respect to this solvent and water, preparation makes water-insoluble colorant dispersive dispersion liquid, still, for by ink formulation dispersion liquid so, is necessary to extract water-insoluble colorant or dispersion agent from printing ink.But, in this case, extracting the process of handling, can not deny the possibility that water-soluble colorant or dispersion agent are rotten.
To this, the inventor etc., the good solvent that uses in the printing ink about embodiment 4, the decision method of poor solvent, and and the good solvent, the decision method of poor solvent and the method that the result is complementary that illustrate previously, carried out all research and inquirement.Found that: following method is suitable as verification method.At first, with respect to 100 parts in the printing ink of embodiment 4, preparation added respectively with amount, for following 3 kinds of printing ink diluents of above-mentioned 3 kinds of water-miscible organic solvents of judging object, use this solution to judge.Promptly, be about 50 weight % as the amount of the water-miscible organic solvent of judging object, preparation has 3 kinds of printing ink diluents (in table 3, expression checking example 1~3) of forming shown in the table 3.Secondly, they under 60 ℃ condition, are heated and preserved 48 hours, working concentration is particle diameter ア Na ラ イ ザ an one (trade(brand)name: FPAR-1000; Da mound electronics corporation makes), the particle diameter of mensuration water-insoluble colorant.On the other hand, the state of preserving for not heating does not preserve the mensuration that printing ink also carries out the particle diameter of water-insoluble colorant.And, the measured value of the particle diameter after preserving of heating and do not preserve printing ink particle diameter measured value relatively, when particle diameter increases, be designated as poor solvent, particle diameter is identical or when reducing, and is designated as good solvent, according to this benchmark, carries out poor solvent, and the judgement of good solvent.In addition, in following table 3, also represent value simultaneously as the viscosity (cP) of the use solvent of the condition determination of stoste particle diameter.This viscosity is the value of measuring with E type viscometer (Tokyo gauge system VISCONIC ED type).
Table 3: about the proportioning of the verification sample of the good solvent of the solvent that printing ink uses of embodiment 4, poor solvent
The printing ink of embodiment 4 | The proportioning (part) of checking example | |||
1 | 2 | 3 | ||
The printing ink of embodiment 4 | - | 100 | 100 | 100 |
Propylene glycol | - | 100 | - | - |
Di-alcohol | - | - | 100 | - |
Polyoxyethylene glycol | - | - | - | 100 |
Viscosity (cP) | 2.3 | 10.1 | 8.7 | 33.9 |
In table 4, the stoste particle diameter of the pigment in the printing ink (preserving) of the embodiment 4 that measures as previously mentioned of expression, and the stoste particle diameter of the pigment in the liquid of embodiment 1~3 (60 ℃, 48 hours, the back is preserved in heating) respectively.And the particle diameter ratio of the measured value of the particle diameter of checking example and the printing ink of embodiment 4 is a poor solvent when carrying out that particle diameter increases, and particle diameter is identical or be the judgement of good solvent when reducing.
The checking result of solvent in the printing ink of table 4: embodiment 4
Working sample | Stoste particle diameter (nm) | Result of determination |
Checking example 1 (heat and preserve the back) | 71.2 | ○ |
Checking example 2 (heat and preserve the back) | 167.8 | × |
Checking example 3 (heat and preserve the back) | 160.7 | × |
The printing ink of checking example 4 (not preserving) | 71.9 | - |
The preservation condition of heating: 60 ℃, 48 hours
Zero: good solvent *: poor solvent
As shown in table 4, the checking example sample that is using the actual printing ink of dilution to obtain, carry out among the resulting result of method of judgement of good solvent, poor solvent, identical with the decision method shown in the above-mentioned table 1, glycerol (using in checking example 1) is a good solvent, Diethylene Glycol (using in checking example 2), Polyethylene Glycol-600 (using in checking example 3) are poor solvents, can confirm both unanimities as a result.Thus, the printing ink of reality from the above description can be confirmed: judging employed solvent in the printing ink, with respect to the colorant in this printing ink, is that the good solvent or the method for poor solvent are effective.Thereby the decision method that dilutes the sample of above-mentioned printing ink as the decision method use of the good solvent among the present invention, poor solvent also can effectively utilize.
<comparative example 1~17 〉
(preparation of printing ink)
Use each water-miscible organic solvent and the dispersible pigment dispersion 1~3 of above-mentioned preparation, the composition of putting down in writing among mixed table 5-1~5-3, fully stirring and dissolving or disperse after, be pressure filtration in the micron filter (Fuji's thin film fabrication) of 3.0 μ m in aperture size, prepare the printing ink of comparative example 1~17.
Table 5-1: the printing ink of comparative example 1~6 is formed
The printing oil proportion of comparative example (weight %) | ||||||||
1 | 2 | 3 | 4 | 5 | 6 | |||
The water-insoluble colorant | | 50 | 50 | 50 | - | - | - | |
Dispersible pigment dispersion 2 | - | - | - | 50 | 50 | 50 | ||
Dispersible pigment dispersion 3 | - | - | - | - | - | - | ||
Water-miscible organic solvent | Good solvent | Glycerol | 5 | - | 5 | 5 | - | 5 |
Ethylene glycol | - | - | 5 | - | - | 5 | ||
TriMethylolPropane(TMP) | 7 | - | 5 | 7 | - | 5 | ||
Poor solvent | Diethylene Glycol | - | - | - | - | - | - | |
Polyethylene Glycol-600 | 10 | 15 | - | 10 | 15 | - | ||
Polyethyleneglycol derivative | - | - | - | - | - | - | ||
2-Pyrrolidone | - | - | - | - | - | - | ||
Tensio-active agent | ア セ チ レ Application グ リ コ one Le EO affixture (*) | 0.1 | 0.1 | 0.1 | 0.1 | 0.1 | 0.1 | |
Pure water | 27.9 | 34.9 | 34.9 | 27.9 | 34.9 | 34.9 |
(*) trade(brand)name: ア セ チ レ ノ one Le EH; The manufacturing of Off ア イ Application ケ ミ カ Le is ground in the river
Table 5-2: the printing ink of comparative example 7~12 is formed
The printing oil proportion of comparative example (weight %) | ||||||||
7 | 8 | 9 | 10 | 11 | 12 | |||
The water-insoluble colorant | Dispersible pigment dispersion 1 | - | - | - | - | 50 | - | |
Dispersible pigment dispersion 2 | - | - | - | - | - | 50 | ||
Dispersible pigment dispersion 3 | 50 | 50 | 50 | 50 | - | - | ||
Water-miscible organic solvent | Good solvent | Glycerol | 5 | - | 5 | - | 3 | 3 |
Ethylene glycol | - | - | 5 | - | - | - | ||
TriMethylolPropane(TMP) | 7 | - | 5 | - | - | - | ||
Poor solvent | Diethylene Glycol | - | - | - | - | - | - | |
Polyethylene Glycol-600 | 10 | 15 | - | - | - | - | ||
Polyethyleneglycol derivative | - | - | - | - | 15 | 15 | ||
2-Pyrrolidone | - | - | - | 10 | - | - | ||
Tensio-active agent | ア セ チ レ Application グ リ コ one Le EO affixture (*) | 0.1 | 0.1 | 0.1 | 0.1 | 0.1 | 0.1 | |
Pure water | 27.9 | 34.9 | 34.9 | 39.9 | 31.9 | 31.9 |
(*) trade(brand)name: ア セ チ レ ノ one Le EH; The manufacturing of Off ア イ Application ケ ミ カ Le is ground in the river
Table 5-3: the printing ink of comparative example 13~17 is formed
The printing oil proportion of comparative example (weight %) | |||||||
13 | 14 | 15 | 16 | 17 | |||
The water-insoluble colorant | Dispersible pigment dispersion 1 | - | 50 | - | - | - | |
Dispersible pigment dispersion 2 | - | - | 50 | - | 50 | ||
Dispersible pigment dispersion 3 | 50 | - | - | 50 | - | ||
Water-miscible organic solvent | Good solvent | Glycerol | 3 | 5 | 5 | 5 | 15 |
Ethylene glycol | - | 8 | 8 | 8 | - | ||
TriMethylolPropane(TMP) | - | - | - | - | - | ||
Poor solvent | Diethylene Glycol | - | - | - | - | - | |
Polyethylene Glycol-600 | - | 5 | 5 | 5 | - | ||
Polyethyleneglycol derivative | 15 | - | - | - | - | ||
2-Pyrrolidone | - | - | - | - | |||
Tensio-active agent | ア セ チ レ Application グ リ コ one Le EO affixture (*) | 0.1 | 0.1 | 0.1 | 0.1 | 0.1 | |
Pure water | 31.9 | 31.9 | 31.9 | 31.9 | 34.9 |
(*) trade(brand)name: ア セ チ レ ノ one Le EH; The manufacturing of Off ア イ Application ケ ミ カ Le is ground in the river
<picture characteristics evaluation 〉
Use each printing ink of the foregoing description 1~5 and comparative example 1~17, transform by the corresponding record signal with heat energy give printing ink make the printing ink ejection, have many jet recording device of type BJS-700 (Canon Inc.'s manufacturing) as required, carry out following evaluation.And with the evaluation result that obtains, embodiment is shown in table 6, and comparative example is shown in table 7.
1, gradation of drop-out colour
Use above-mentioned printing ink and above-mentioned ink-jet recording device, carry out following duplicating and print, measure the gradation of drop-out colour of the solid section of printing the 2cm * 2cm after 1 day with the literal of the solid section that contains 2cm * 2cm among common paper A~E.In addition, printed driver carries out under the default mode.Imposing a condition of following indicating system setting means.In addition, the spray volume of per 1 printing ink is in 30ng ± 10%.
Kind with paper: common paper
Press quality: standard
Color is adjusted: automatically
The gradation of drop-out colour that the result that use is as above measured obtains is estimated by following benchmark.
The average gradation of drop-out colour of zero: 5 paper is more than 1.4, and the gradation of drop-out colour in the paper of minimum gradation of drop-out colour is more than 1.25.
△: the average gradation of drop-out colour of 5 paper is more than 1.4, and the gradation of drop-out colour in the paper of minimum gradation of drop-out colour is a less than 1.25.
*: the average gradation of drop-out colour of 5 paper is less thaies 1.4.
In the test of above-mentioned mark, copying paper uses paper shown below.
A: Canon Inc. makes, PPC paper NSK
B: Canon Inc. makes, PPC paper NDK
C: ゼ ロ Star Network ス company makes, PPC paper 4024
D: Off オ Star Network ス リ バ one company makes, PPC paper プ ロ one バ one ボ Application De
E: ノ イ ジ De ラ company makes, キ ヤ ノ Application is with PPC paper
2, the gradation of drop-out colour of few quantity of ink
Except that the spray volume of per 1 printing ink is the scope of 24ng ± 10%, identical with the evaluation method of above-mentioned 1 gradation of drop-out colour, measure the gradation of drop-out colour of few quantity of ink, estimate with identical benchmark.
The evaluation of<storage stability 〉
Each printing ink of embodiment 1~5 and comparative example 1~17 is respectively charged in the shot bottle, and close plug is put in 60 ℃ the baking oven, 2 week the back take out, from the state of printing ink this moment, according to following benchmark evaluation storage stability.And with the evaluation result that obtains, embodiment is shown in table 6, and comparative example is shown in table 7.
Zero: the colorant stable and uniform ground in the printing ink disperses.
*: printing ink is gluey to be changed, or the top bleach of printing ink.Perhaps, tackify significantly.
The evaluation result of table 6: embodiment
Gradation of drop-out colour | Storage stability | ||
Usually | Little quantity of | ||
Embodiment | |||
1 | ○ | ○ | ○ |
Embodiment 2 | ○ | ○ | ○ |
Embodiment 3 | ○ | ○ | ○ |
Embodiment 4 | ○ | ○ | ○ |
Embodiment 5 | ○ | ○ | ○ |
Table 7: the evaluation result of comparative example
Gradation of drop-out colour | Storage stability | ||
Usually | Little quantity of ink | ||
Comparative example 1 | × | × | ○ |
Comparative example 2 | ○ | △ | × |
Comparative example 3 | × | × | ○ |
Comparative example 4 | × | × | ○ |
Comparative example 5 | ○ | △ | ○ |
Comparative example 6 | × | × | ○ |
Comparative example 7 | × | × | ○ |
Comparative example 8 | ○ | △ | × |
Comparative example 9 | × | × | ○ |
Comparative example 10 | ○ | △ | × |
Comparative example 11 | ○ | △ | × |
Comparative example 12 | ○ | △ | ○ |
Comparative example 13 | ○ | △ | × |
Comparative example 14 | × | × | ○ |
Comparative example 15 | × | × | ○ |
Comparative example 16 | × | × | ○ |
Comparative example 17 | × | × | ○ |
<printing ink is with respect to the adhesion detection of common paper 〉
(preparation of the embodiment that the printing ink adhesion detection is used and the printing ink of comparative example)
Use dispersible pigment dispersion 2, the composition of record in the mixed table 8, fully stirring and dissolving or disperse after, be pressure filtration in the micron filter (Fuji's thin film fabrication) of 3.0 μ m in aperture size, prepare each printing ink of embodiment 6 and comparative example 18~20.In the preparation of the printing ink of embodiment that these printing ink adhesion detections are used and comparative example, add water-soluble dye C.I. sun blue 199, this is in order to use the ink diffusion situation of visual observation printing ink after the recording medium set.In addition, the surface tension with these printing ink is recorded in the table 8.In addition, the tensiometer CBVP-A3 that capillary mensuration uses the consonance interface science to make is measuring temperature: 25.0 ± 0.5 ℃, use platinum plate 10mm * 24mm of 10mm * 24mm to measure.
Table 8: the embodiment of printing ink adhesion detection and the printing ink of comparative example are formed
Cooperate (weight %) | ||||||
Embodiment 6 | Comparative example 18 | Comparative example 19 | Comparative example 20 | |||
Water-insoluble look material | Dispersible pigment dispersion 1 | - | - | - | - | |
Dispersible pigment dispersion 2 | 50 | 50 | 50 | 50 | ||
Dispersible pigment dispersion 3 | - | - | - | - | ||
Water-miscible organic solvent | Good solvent | Glycerol | 7.5 | - | 15 | - |
Ethylene glycol | - | - | - | - | ||
TriMethylolPropane(TMP) | - | - | - | 7.5 | ||
Poor solvent | Diethylene Glycol | - | - | - | - | |
Polyethylene Glycol-600 | 7.5 | 15 | - | 7.5 | ||
Polyethyleneglycol derivative | - | - | - | - | ||
The 2-pyrrolinone | - | - | - | - | ||
Tensio-active agent | ア セ チ レ Application グ リ コ one Le EO affixture (*) | 0.1 | 0.1 | 0.1 | 0.1 | |
Water-soluble dye | Sun blue 199 | 0.5 | 0.5 | 0.5 | 0.5 | |
Pure water | 34.4 | 34.4 | 34.4 | 34.4 | ||
Surface tension (mN/m) | 39.5 | 39.6 | 39.4 | 40.1 |
(*) trade(brand)name: ア セ チ レ ノ one Le EH; The manufacturing of Off ア ィ Application Network ミ カ Le is ground in the river
The mensuration of<spot diameter 〉
When droplet of ink is endowed common paper, printing ink is attached to the diameter d I of the ink dot after the common paper, printing ink is bonded to the maximum diameter d S of the ink diffusion behind the recording medium, printing ink is bonded to the maximum diameter d C of the water-insoluble bleeding in the printing ink behind the recording medium, and the said determination that has the degree of depth etc. that printing ink is bonded to water-insoluble colorant after the common paper is undertaken by following method.At first, printing ink is attached to the diameter d I of the ink dot after the common paper, the contact angle meter (Face CONTACT-ANGLEMETER CA-P) that uses consonance interface science company to make, use pin footpath 28G (internal diameter: 0.18mm, external diameter: syringe needle 0.36mm) on common paper, is the height of 4mm from the front end of syringe needle and the distance on common paper surface, the printing ink that drips reads the diameter of the droplets of ink after dripping according to the scale of contact angle meter.And, be designated as the diameter d I that printing ink is attached to recording medium ink dot afterwards with this value.In addition, the common paper of using in the present embodiment is the B-Paper (NSK paper) that Canon Inc. makes.
Printing ink is bonded to the maximum diameter d S of the ink diffusion behind the recording medium, reach the mensuration of the maximum diameter d C of the water-insoluble bleeding in the printing ink after printing ink is bonded to recording medium, according to above-mentioned condition, place the ink dot that drips more than 6 hours, after the droplet of ink stabilization, measure the maximum linear length of ink dot, its value is designated as maximum diameter.The maximum linear length that the cyan form and aspect of the water-soluble dye C.I. sun blue 199 of the maximum diameter d S that printing ink is bonded to the ink diffusion behind the recording medium by measuring other interpolation are spread is tried to achieve, the maximum diameter d C that printing ink is bonded to the water-insoluble bleeding in the printing ink behind the recording medium tries to achieve by the maximum linear length of measuring in the printing ink that black pigment spread, at this moment, observe the shape of the ink dot that black pigment spread in the printing ink simultaneously.
The mensuration that has the degree of depth of<water-insoluble colorant 〉
The mensuration that has the degree of depth of water-insoluble colorant, from the printing ink of the foregoing description 6, comparative example 18~20 was formed, except that water-soluble dye C.I. sun blue 199, this corresponding section was added water, makes adjustment printing ink, under the same conditions, filtered, and made.Use have by the corresponding record signal with heat energy give printing ink make printing ink ejection, many jet recording device of type BJS-700 (Canon Inc.'s manufacturing) as required, on the PB-Paper (NSK paper) that Canon Inc. makes, estimating under the identical condition, print with gradation of drop-out colour.After the printing, after the printing ink set, use razor that printing portion is cut off from printing the back side, cut off section with microscopic examination, measure paper section the water-insoluble colorant have thickness (degree of depth).According to the measurement result that obtains, estimate by following metewand.And,, be shown in table 9 with the evaluation result that obtains, the measured value that reaches the maximum diameter d C of the water-insoluble bleeding in the printing ink after printing ink is bonded to recording medium.
[each metewand]
(spot diameter relational expression)
Zero: the relational expression that satisfies dC<dI<dS
*: the relational expression that does not satisfy dC<dI<dS
(the some shape of water-insoluble colorant)
1: from the top visual observation of paper
Zero: the some shape of water-insoluble colorant is positive circle, and, sharpness of border.
*: the some shape of water-insoluble colorant is not positive circle, and the border is oozed out.
2: from the horizontal visual observation of paper
Zero: the point of water-insoluble colorant almost exists with identical height with the paper surface.
*: the point of water-insoluble colorant exists with tangible projection on the paper surface.
(water-insoluble colorant exist the degree of depth)
Zero: less than 30 μ m
*: more than the 30 μ m
Table 9: the measurement result of the result that printing ink adheres to and the maximum diameter of bleeding
Embodiment 6 | Comparative example 18 | Comparative example 19 | Comparative example 20 | ||
The spot diameter relational expression | ○ | ○ | × | ○ | |
The point shape of water- | 1. the top is observed | ○ | ○ | × | ○ |
2. transverse observation | ○ | × | ○ | ○ | |
The water-insoluble colorant have a degree of depth | ○ | ○ | × | × | |
The maximum diameter d C[mm of the diffusion of water-insoluble colorant] | 3.04 | 2.84 | 3.75 | 2.96 |
Figure 15 is the synoptic diagram of top of the set image of formed point when said determination.In addition, Figure 16 be with the water-insoluble colorant of the section of said determination paper have thickness (degree of depth) time microphotograph that uses as synoptic diagram.Shown in Figure 15 and table 9, when using the printing ink of embodiment 6 and comparative example 18, the water-insoluble colorant forms orbicular point, but, the water-insoluble colorant of comparative example 18, projection exists on paper, show that the water-insoluble colorant is to have covered the paper surface more than the necessary amount, so embodiment 6 and comparative example 18 have relatively shown that colorant stops effectively at the near surface of paper.On the other hand, when using the printing ink of comparative example 19, the diffusion of water-insoluble colorant heterogeneity forms point, and the surface of paper not only, also is diffused into the depth direction of paper, so, can confirm that colorant is not effectively utilized.In addition, when using the printing ink of comparative example 20, as shown in figure 15, though the water-insoluble colorant has formed positive circle, but from the section of the printing portion that uses ink-jet recording device BJS-700 shown in Figure 16 (Canon Inc.'s manufacturing) as can be known: the water-insoluble colorant is the surface of paper not only, also is diffused into the depth direction of paper, at this moment, can confirm that colorant is not effectively utilized.
In addition, from the value of the maximum diameter d C of the diffusion of the water-insoluble colorant shown in the table 9 as can be known: the poor solvent of embodiment 6 and good solvent be the printing ink of coexistence suitably, ratio is the printing ink that solvent contains with the poor solvent of embodiment 18 only, and the diffusion of water-insoluble colorant is bigger.Thus, in the pigment ink that is one of the object of the invention, also have fully big area factor even can confirm the droplet of ink amount that has reached few, and can obtain the purpose of the high image of OD (image color).In addition, form from each printing ink of embodiment 6 and comparative example 18, except that the ア セ チ レ Application グ リ コ one Le EO affixture of tensio-active agent, this corresponding section has been added the printing ink that does not contain tensio-active agent of the composition of water, with these printing ink, the printing ink with embodiment 6 and comparative example 18 carry out with respect to the adhesion detection of common paper to condition under, the spot diameter that does not contain the printing ink of tensio-active agent is measured, the mensuration that has the degree of depth of water-insoluble colorant.Its result, in the printing ink that does not use these tensio-active agents, it is slow when though the set time ratio after adhering to uses tensio-active agent, but, poor solvent and good solvent be the printing ink of coexistence suitably, than only is the printing ink that solvent contains with the poor solvent, and the diffusion of water-insoluble colorant is bigger, has obtained the identical relation of situation with the printing ink that uses tensio-active agent.
[about the test of the colour mixture (bleeding) of image]
<embodiment 7~16 〉
Use printing ink and colored ink and the usefulness of embodiment 1~5 recited above as black ink, carry out image and form.The colored ink that uses this moment is by following preparation.
(making of cyan ink)
Mix the composition shown in following, fully stir make it dissolving after, be to carry out pressure filtration, the preparation cyan ink on the micron filter (Fuji's thin film fabrication) of 0.2 μ m in aperture size.
199 3.5 parts of DBL (sun blue)
7.5 parts of glycerol
7.5 parts of Diethylene Glycols
1.0 parts of acetylene alcohol E-100
80.5 parts of pure water
(making of magenta ink)
According to following compositions, identical preparation magenta ink with cyan ink.
289 2.5 parts of AR (Xylene Red)
7.5 parts of glycerol
7.5 parts of Diethylene Glycols
1.0 parts of acetylene alcohol E-100
81.5 parts of pure water
(making of Yellow ink)
According to following compositions, similarly prepare Yellow ink.
862.5 parts of DY (directly yellow)
7.5 parts of glycerol
7.5 parts of Diethylene Glycols
1.0 parts of acetylene alcohol E-100
81.5 parts of pure water
<estimate
Use each black ink of embodiment 1~5 and the colored ink of above-mentioned preparation, by the combination shown in the following table 10, as Fig. 9 of having stated or shown in Figure 10, use have the corresponding record signal by heat energy is given printing ink make printing ink ejection, many jet recording device of type as required, print evaluation.And, the evaluation result that obtains is shown in table 11.
Table 10: the black ink of use and head
Header structure | Bk printing ink | |
Embodiment 7 | Fig. 9 | |
Embodiment 8 | Fig. 9 | Embodiment 2 |
Embodiment 9 | Fig. 9 | Embodiment 3 |
Embodiment 10 | Fig. 9 | Embodiment 4 |
Embodiment 11 | Fig. 9 | Embodiment 5 |
Embodiment 12 | Figure 10 | |
| Figure 10 | Embodiment 2 |
| Figure 10 | Embodiment 3 |
| Figure 10 | Embodiment 4 |
| Figure 10 | Embodiment 5 |
(bleeding)
With black and various chromatic solid section,, by visual, observe the degree of bleeding, by following benchmark evaluation according to recording method adjacency, the printing of Fig. 9 and 10.In addition, the common paper of here using is used the PB-Paper (NSK paper) that Canon Inc. makes.Evaluation result is shown in table 11.
AA: can not recognize bleeding.
A: bleeding is remarkable hardly.
B: have bleeding, but do not have the level of substantial problem.
C: the boundary line of color is unclear, has bleeding.
Table 11: evaluation result
Bleeding | |
Embodiment 7 | A |
Embodiment 8 | A |
Embodiment 9 | A |
Embodiment 10 | A |
Embodiment 11 | A |
Embodiment 12 | |
Embodiment | |
13 | |
Embodiment | |
14 | |
Embodiment | |
15 | |
Embodiment | |
16 | AA |
Utilize possibility on the industry
As the example of applying flexibly of the present invention, can enumerate: in pigment printing ink, even few printing ink drop amount also has fully large area coefficient, and can obtain the water color ink of the high image of OD (image concentration). In addition, as the example of applying flexibly of the present invention, can enumerate: even few printing ink drop amount also has fully large area coefficient, and can obtain the ink mist recording method of the high image of OD (image concentration), can suitably used print cartridge in above-mentioned recording method, record cell and ink mist recording device. In addition, as the example of applying flexibly of the present invention, can enumerate: do not produce along slurry when mutually the coloured image record of adjacency is carried out in the zone of different colours on common paper, can effectively control the image forming method of the colour mixture (bleeding) of black ink and colored ink zone intersection.
Claims (23)
1, water color ink, be to contain water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that, these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, when all wts (weight %) with the good solvent in this printing ink is A, when being B with all wts (weight %) of the poor solvent in the printing ink, A: B is in the scope below 10: 30 more than 10: 5, and relatively the Ka value of each of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method shows that wherein the water-soluble solvent of the Ka value of maximum is a poor solvent.
2, water color ink, be to contain water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, and the Ka value of each of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method relatively, the water-soluble solvent that wherein shows maximum Ka value is in the water color ink of poor solvent, this water color ink is with respect to the attachment state of common paper, use pin footpath 28G (internal diameter: 0.18mm, external diameter: syringe needle 0.36mm), with the front-end configuration of this syringe needle is the height place of 4mm in the distance with the common paper surface, printing ink therefrom drips, thereafter, when making the printing ink set, the measured value of the diameter of the ink dot after just being attached to common paper with printing ink is dI, the measured value that is bonded to the maximum diameter of the ink diffusion after the common paper with printing ink is dS, when the measured value that is bonded to the maximum diameter of the water-insoluble bleeding in the printing ink after the common paper with printing ink is dC, between above-mentioned each measured value, the relation of following (formula 1) is set up, and, after by ink-vapor recording ink print being bonded to common paper, the degree of depth that exists with respect to the water-insoluble colorant of common paper is less than 30 μ m
DC<dI<dS (formula 1).
3, the water color ink described in the claim 2, when the gross weight (weight %) with the good solvent in the above-mentioned printing ink is A, when being B with the gross weight (weight %) of the poor solvent in the printing ink, A: B is in the scope below 10: 30 more than 10: 5.
4, the water color ink described in each of claim 1~3, above-mentioned water-insoluble colorant are resin dispersion type pigment, microcapsule-type pigment, self-dispersion type pigment any that uses resin as dispersion agent.
5, the water color ink described in each of claim 1~3, pigment dyestuff or carbon black that above-mentioned water-insoluble colorant is a self-dispersion type, and, having at least a hydrophilic radical at its particle surface, this hydrophilic radical directly or by other atomic group is connected to particle surface.
6, the water color ink described in the claim 5, above-mentioned hydrophilic radical can from by-COOM1 ,-SO
3M1, and-PO
3H (M1)
2Select in the group that (M1 in the formula represents any of hydrogen atom, basic metal, ammonium and organic ammonium) constitutes.
7, the water color ink described in the claim 5 or 6, above-mentioned other atomic group can be selected from the group that is made of alkylidene group, replacement or the unsubstituted phenylene of carbonatoms 1~12 and replacement or unsubstituted naphthylidene.
8, the water color ink described in each of claim 1~3, above-mentioned water-insoluble colorant be at the surface chemistry bonding organic group of pigment particle and modification pigment dyestuff or carbon black, above-mentioned organic group is included in organic pigment particles or carbon black particle surface directly or the reactant of the co-polymer of functional group, ionic monomer and hydrophobic monomer by other atomic group chemical bonding.
9, the water color ink described in each of claim 1~9, the Ka value of trying to achieve by the bristow method is lower than 1.5 (ml/m
2/ msec
1/2).
10, claim 1,2,9 each described in water color ink, the Ka value of trying to achieve by the bristow method is 0.2 (ml/m
2/ msec
1/2) more than.
11, the water color ink described in each of claim 1~10, above-mentioned water-insoluble colorant is 0.1~15 weight % with respect to the ratio of all wts of printing ink.
12, the water color ink described in each of claim 1~11, above-mentioned water-insoluble colorant is 1~10 weight % with respect to the ratio of all wts of printing ink.
13, the water color ink described in each of claim 1~12, it is that ink-jet is used.
14, ink jet recording method is characterized in that having at least the operation with the described water color ink of ink ejecting method ejection claim 13.
15, the ink jet recording method described in the claim 14, above-mentioned ink jet recording method are by producing bubble to inking heat energy, making the ink jet recording method of the mode of drop ejection.
16, print cartridge is characterized in that holding the water color ink described in each of claim 1~13.
17, record cell, the ink gun that it is characterized in that possessing the accommodation section that holds the water color ink described in the claim 13 and this printing ink is sprayed.
18, ink-jet recording device, the ink gun that it is characterized in that possessing the accommodation section that holds the water color ink described in the claim 13 and this printing ink is sprayed.
19, image forming method, be to use the hydrate colour printing ink of black ink and at least a color on common paper, to carry out the image forming method of ink-vapor recording, it is characterized in that on black ink, using the water color ink described in the claim 13, and, when forming image that forms by this black ink and the adjacent image that forms of image that forms by colored ink, after giving the scanning formation image of black ink, form the scanning that colored ink is given in the zone at this image.
20, the image forming method described in the claim 19, give the scanning of black ink after, after vacating at least 1 scanning space, distance, the scanning of giving colored ink.
21, the image forming method described in the claim 19 uses at sub scanning direction and staggers and the scanner head of the ejiction opening ranks of the ejiction opening ranks of the ejection black ink that disposes and ejection colored ink.
22, the described image forming method of claim 19, giving of printing ink is by producing bubble to inking heat energy, the ink jet recording method of the mode of drop ejection being carried out.
23, water color ink, be to contain water, in the water color ink of different types of a plurality of water-miscible organic solvent and water-insoluble colorant, it is characterized in that these a plurality of water-miscible organic solvents are with respect to the good solvent of above-mentioned water-insoluble colorant with respect to the poor solvent of above-mentioned water-insoluble colorant, in each Ka value of above-mentioned a plurality of water-miscible organic solvents of trying to achieve according to the bristow method, poor solvent is the water-miscible organic solvent that shows maximum Ka value, penetrate into more earlier in the recording medium than above-mentioned good solvent, assist the aggegation of the water-insoluble colorant in the above-mentioned good solvent of recording medium surface side.
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP382045/2002 | 2002-12-27 | ||
JP2002382045 | 2002-12-27 | ||
JP127599/2003 | 2003-05-02 | ||
JP127476/2003 | 2003-05-02 | ||
JP425520/2003 | 2003-12-22 |
Related Child Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN200810002235.9A Division CN101186148B (en) | 2002-12-27 | 2003-12-26 | Ink jet recording method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1732239A true CN1732239A (en) | 2006-02-08 |
CN100369985C CN100369985C (en) | 2008-02-20 |
Family
ID=35964239
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN200810002235.9A Expired - Fee Related CN101186148B (en) | 2002-12-27 | 2003-12-26 | Ink jet recording method |
CNB2003801075503A Expired - Fee Related CN100369985C (en) | 2002-12-27 | 2003-12-26 | Water-based ink, ink jet recording method, ink cartridge, recording unit, ink jet recording apparatus, and image forming method |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN200810002235.9A Expired - Fee Related CN101186148B (en) | 2002-12-27 | 2003-12-26 | Ink jet recording method |
Country Status (1)
Country | Link |
---|---|
CN (2) | CN101186148B (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102189767A (en) * | 2010-01-28 | 2011-09-21 | 精工爱普生株式会社 | Aqueous ink composition, ink jet recording method and recorded material |
CN1961050B (en) * | 2004-06-28 | 2011-12-28 | 佳能株式会社 | Aqueous ink, aqueous ink set, ink cartridge, inkjet recorder, inkjet recording method, and image forming method |
CN104354472A (en) * | 2013-05-16 | 2015-02-18 | 株式会社理光 | Image formation apparatus |
CN105818536A (en) * | 2016-03-25 | 2016-08-03 | 北京博源恒芯科技有限公司 | Print head and ink-jet printing device |
CN105818538A (en) * | 2016-01-25 | 2016-08-03 | 北京博源恒芯科技有限公司 | Inkjet printing device and printing method |
CN106554656A (en) * | 2015-09-30 | 2017-04-05 | 兄弟工业株式会社 | Inkjet recording aqueous ink and print cartridge |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6471757B1 (en) * | 1997-10-30 | 2002-10-29 | Canon Kabushiki Kaisha | Ink, ink container, ink set, ink jet printing apparatus, and ink jet printing method |
JP3862441B2 (en) * | 1998-03-20 | 2006-12-27 | キヤノン株式会社 | Ink jet recording ink, ink set, ink cartridge, recording unit, image recording apparatus, image recording method, color image forming method, and image optical density improving method |
JP4235329B2 (en) * | 1998-12-22 | 2009-03-11 | キヤノン株式会社 | Ink, ink container, ink set, ink jet recording apparatus and ink jet printing method |
JP4683585B2 (en) * | 1999-09-17 | 2011-05-18 | キヤノン株式会社 | Ink set |
JP4371555B2 (en) * | 1999-09-17 | 2009-11-25 | キヤノン株式会社 | Image recording method and multicolor image quality improving method |
US6641651B2 (en) * | 2000-06-15 | 2003-11-04 | Canon Kabushiki Kaisha | Ink-jet ink, ink cartridge and recording unit, and ink-jet recording process and ink-jet recording apparatus using the same |
JP4541596B2 (en) * | 2000-06-21 | 2010-09-08 | キヤノン株式会社 | Inkjet printing method |
DE60122428T2 (en) * | 2000-06-21 | 2007-03-08 | Canon K.K. | Ink jet ink, ink jet printing method, ink jet printing device, ink jet printing unit and ink cartridge |
JP4817540B2 (en) * | 2000-06-21 | 2011-11-16 | キヤノン株式会社 | Ink set, ink jet printing method using the ink set, recording unit, ink cartridge, and ink jet printing apparatus |
JP4996018B2 (en) * | 2000-06-21 | 2012-08-08 | キヤノン株式会社 | Ink, inkjet recording method, ink cartridge, recording unit, and inkjet recording apparatus |
-
2003
- 2003-12-26 CN CN200810002235.9A patent/CN101186148B/en not_active Expired - Fee Related
- 2003-12-26 CN CNB2003801075503A patent/CN100369985C/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1961050B (en) * | 2004-06-28 | 2011-12-28 | 佳能株式会社 | Aqueous ink, aqueous ink set, ink cartridge, inkjet recorder, inkjet recording method, and image forming method |
CN102189767A (en) * | 2010-01-28 | 2011-09-21 | 精工爱普生株式会社 | Aqueous ink composition, ink jet recording method and recorded material |
CN102189767B (en) * | 2010-01-28 | 2014-05-28 | 精工爱普生株式会社 | Aqueous ink composition, ink jet recording method and recorded material |
CN104354472A (en) * | 2013-05-16 | 2015-02-18 | 株式会社理光 | Image formation apparatus |
CN106554656A (en) * | 2015-09-30 | 2017-04-05 | 兄弟工业株式会社 | Inkjet recording aqueous ink and print cartridge |
CN105818538A (en) * | 2016-01-25 | 2016-08-03 | 北京博源恒芯科技有限公司 | Inkjet printing device and printing method |
CN105818536A (en) * | 2016-03-25 | 2016-08-03 | 北京博源恒芯科技有限公司 | Print head and ink-jet printing device |
Also Published As
Publication number | Publication date |
---|---|
CN101186148B (en) | 2014-01-22 |
CN100369985C (en) | 2008-02-20 |
CN101186148A (en) | 2008-05-28 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN1213114C (en) | Ink, ink set, ink cartridge, recording unit, image recording process and image recording apparatus | |
CN1197922C (en) | Ink, ink series, image printing device, ink-jet printing method and pigment | |
CN100341959C (en) | Ink jet recording ink set | |
CN1249180C (en) | Printing ink, ink box, recording unit, ink-jet recording method, apparatus and stabilizing method | |
CN1961050A (en) | Aqueous ink, aqueous ink set, ink cartridge, inkjet recorder, inkjet recording method, and image forming method | |
CN1977005A (en) | Cyan ink, ink set, set of ink and reactive liquid, and image forming method | |
CN1977003A (en) | Water-based ink, ink set and image forming method | |
CN1977004A (en) | Water-based ink, inkjet recording method, ink cartridge, recording unit, inkjet recording device and image-forming method | |
CN1258571C (en) | Printing ink set, ink-jet recording method, recording element, ink box, ink-jet recording apparatus, method for reducing leakage and increasing fixation of black image | |
CN1324095C (en) | Ink composition for ink-jet recording, recording method using same, and record | |
CN1143775C (en) | Ink-jet recording process using liquid formulation and ink in combination | |
CN1193889C (en) | Ink assembly for ink-jet recording, recording device, ink-jet recording device, and ink-jet recording method | |
CN1213113C (en) | Liquid composition and ink system, imaging method and equipment using them | |
CN101050326A (en) | Ink jet recording ink, recording method and recording apparatus | |
CN1192887C (en) | Recording device and image recording apparatus | |
CN1771307A (en) | Water based coloring agent preparations for inkjet printing | |
CN1871315A (en) | Recording ink for ink-jet recording apparatus, and, ink cartridge, ink-jet recording apparatus, ink-jet recording process,and recorded matter | |
CN1922278A (en) | Ink set, ink jet recording method, ink cartridge, recording unit, ink jet recording device and image forming method | |
CN1732237A (en) | Disperse color material and process for producing the same, water-color ink employing it, ink tank, inkjet recorder, inkjet recording method and inkjet recorded image | |
CN1589297A (en) | Aqueous ink jet printable compositions | |
CN1550527A (en) | Aqueous ink, and ink-jet recording method, ink-jet recording apparatus, and image forming method using the same | |
CN1651525A (en) | Pigment-dispersed ink-jet ink, ink set, ink tank, recording unit, ink-jet recording apparatus, ink-jet recording process and production process of pigment-dispersed ink-jet ink | |
CN1608113A (en) | Ink composition | |
CN101040014A (en) | Recording ink, and ink cartridge, ink-recorded article, inkjet recording device and inkjet recording method | |
CN1780887A (en) | Water base ink and method for forming image and recorded image using said ink |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20080220 Termination date: 20151226 |
|
EXPY | Termination of patent right or utility model |