reversibly thermochromic aqueous ink composition, and writing instrument and writing instrument set,

专利摘要:
COMPOSITION OF REVERSIVELY THERMOCHROMIC WATER INK AND WRITING INSTRUMENT AND WRITING INSTRUMENT SET, EACH USING THE SAME. A reversibly thermochromic aqueous paint composition comprising water, a water-soluble organic solvent, a reversibly thermochromic microcapsule pigment, a comb-shaped polymer dispersant having a carboxyl group on its side chain, an organic compound containing nitrogen and sulfur, and a water-soluble resin, where a reversibly thermochromic composition is encapsulated comprising (A) an organic compound that develops the color, electron donor, (B) an electron receptor compound and (C) a reaction medium that determines the temperature in which the color development reaction occurs between components (A) and (B) in the reversibly thermochromic microcapsule pigment; a writing instrument produced using ink composition; and a writing instrument set comprising the writing instrument and a friction body.
公开号:BR112012003441B1
申请号:R112012003441-3
申请日:2010-08-16
公开日:2020-11-03
发明作者:Katsuyuki Fujita
申请人:Kabushiki Kaisha Pilot Corporation(Also Trading As Pilot Corporation)；
IPC主号:

专利说明:

Technical Field
[001] The present invention relates to a water-based, reversibly thermochromic ink composition, and to a writing instrument and a writing instrument set, each using the same. Background Technique
[002] Until now, a writing instrument of the type filled in-suit has been published, where an ink occlusion body is impregnated with a water-based, reversibly thermochromic ink composition, capable of forming the letter, whose color tone changes depending on a change in temperature and is received on a shaft body (see, eg, Patent Document 1).
[003] The reversibly thermochromic aqueous ink composition, mentioned above, solves a problem that a reversibly thermochromic microcapsule pigment is gradually flocculated and precipitated in the ink occlusion body, due to a difference in specific gravity between the reversibly thermochromic microcapsule pigment and a vehicle and, for this reason, the color of the letter is made light or darker, depending on the state where a pen body is down (an inverted state) or up (up state). Specifically, it solves the problem by incorporating in the ink a water-soluble polymer flocculant to make the microcapsule pigment suspended in a free flocculated state through the free crosslinking action of the polymer flocculant.
[004] However, although it is possible to suppress the flocculation and sedimentation of the microcapsule pigment for a short time, by incorporating the polymer flocculant, it is difficult to completely suppress the whitening and darkening of the letter color attributable to the difference in gravity between the microcapsule pigment and the vehicle. In particular, the letter is sometimes cleared over time in a raised state or the letter is sometimes cleared by applying vibration in the transport or at the time when it is loaded in a raised state. Background Document Patent Document [Patent Document 1] JP-A-11 -335613 Summary of the Invention Problems that the Invention is to Solve
[005] The present invention provides a reversibly thermochromic aqueous ink composition, which is capable of suppressing the lightening and darkening of the letter at the moment when the writing instrument that receives the thermochromic reversible aqueous ink composition is used in the shaft body, and in particular, that does not make the letter color clear, over time, in a raised state or that does not make the letter color clear by applying vibration in transport or at the moment when it is loaded on a raised state, as well as a writing instrument and a writing instrument set using it. Means to Solve Problems
[006] The present invention aims to solve the above mentioned problems of the reversibly thermochromic aqueous ink composition and the writing instrument that uses the same, and, in other words, provides a reversibly thermochromic aqueous ink composition comprising: water; a water-soluble organic solvent; a reversibly thermochromic microcapsule pigment, which contains a reversibly thermochromic composition comprising: (A) an electron donor dye organic compound, (B) an electron receptor compound, and (C) a temperature-determining reaction medium in which color reactions occur between components (A) and (B); a comb-type polymer dispersant having carboxyl groups on its side chains; an organic nitrogen sulfur compound; and a water-soluble resin.
[007] In addition, it is preferred that the organic sulfur nitrogen compound is at least one compound selected from the group consisting of 2- (4-thiazoyl-benzimidazole, 2- (thiocyanatomethylthio) -1,3-benzothiazole, 2 -methyl-4-isothiazolin-3-one, 5-chloro-2-methyl-4-isothiazolin-3-one, which the mass ratio of the comb-type polymer dispersant having carboxyl groups on its side chains to the compound of organic sulfur nitrogen is 1: 1 to 1:10, that the pH of the paint composition falls within a range of 3 to 7, that the water-soluble resin is soluble when the pH of the paint composition falls within a range of 3 to 7, that the surface tension of the paint composition falls within a range of 25 to 45 mN / m, and the like.
[008] Furthermore, the present invention provides a writing instrument where the reversibly thermochromic aqueous ink composition is received in a shaft body and which comprises a pen body that releases the ink composition in the shaft body.
[009] Also, it is preferred that the rear end of the pen body comes into contact with an ink occlusion body containing a fiber bundle received in the shaft body and the ink occlusion body is impregnated with the ink composition , that the pen body is a marking pen body, that a friction member is provided, and the like.
[0010] Furthermore, the present invention provides a writing instrument set comprising the writing instrument and a friction body. Effects of the Invention
[0011] The present invention can provide a reversibly thermochromic aqueous ink composition that is capable of suppressing the lightening and darkening of the letter and, particularly, which has an excellent writing performance of causing no lightening of the color of the letter, over time, in a raised state, or no clarification of the letter's color by applying vibration in the transport or at the moment when it is loaded, as well as a writing instrument and a writing instrument set using it. Brief Description of Drawings
[0012] [FIG. 1] FIG. 1 is an illustrative drawing showing a discoloration behavior of a reversibly thermochromic microcapsule pigment, of the type that discolor with heat.
[0013] [FIG. 2] FIG. 2 is an illustrative drawing showing a discoloration behavior of a reversibly thermochromic microcapsule pigment, of the type that discolor with heat, having a color memory property.
[0014] [FIG. 3] FIG. 3 is an illustrative drawing showing a discoloration behavior of a reversibly thermochromic microcapsule pigment, the type that colors with heat.
[0015] [FIG. 4] FIG. 4 is an illustrative drawing showing an example of the writing instrument according to the present invention.
[0016] [FIG. 5] FIG. 5 is an illustrative drawing showing another example of the writing instrument according to the present invention.
[0017] [FIG. 6] FIG. 6 is an illustrative drawing showing another example of the writing instrument according to the present invention. Modalities for Carrying Out the Invention
[0018] First, a characteristic hysteresis will be described in a color-temperature thermometer curve of the reversibly thermochromic composition.
[0019] In FIG. 2, the color density is plotted on the ordinate and the temperature is plotted on the abscissa. A change in color density due to a change in temperature advances along the arrow. Here, A is a point that shows the density at a temperature t4 in which a completely discolored state is reached (hereinafter referred to as "complete discoloration temperature"); B is a point that shows density at a temperature t3 at which discoloration begins (hereinafter referred to as "the temperature at which discoloration begins"); C is a point that shows the density at a temperature t2 at which coloration begins (hereinafter referred to as "coloration start temperature"); and D is a point showing the density at a temperature ti at which a fully colored state is reached (hereinafter referred to as "full color temperature").
[0020] The region of discoloration temperatures is the region of temperatures between ti and t4 mentioned above, where both phases of the colored state and the discolored state can coexist, and the region of temperatures between t2 and ts, which has a big difference in color density, it is a region of substantial two-phase retention temperatures.
[0021] Furthermore, the length of the EF line segment is a measure showing the contrast of the discoloration, and the width of the hysteresis passing through a middle point of the EF line segment (the length of the HG line segment in FIG. 2 ) is a temperature width showing the degree of hysteresis (hereinafter referred to as "hysteresis width ΔH"). A small value of ΔH allows the presence of only one specified state of both states before and after discoloration, in a common temperature region. A large value of ΔH facilitates the retention of each state before and after discoloration.
[0022] The coloring agent contained in the ink composition of the present invention mentioned above is a microcapsule pigment containing, in a microcapsule, a reversibly thermochromic composition, which is discolored by heating and contains at least three essential components of (A) one electron donor dye organic compound, (B) an electron receptor compound and (C) a reaction medium that determines a temperature at which color reactions occur between components (A) and (B).
[0023] As the reversibly thermochromic composition, the reversibly thermochromic compositions described in JP-B-51- 44706, JP-B-51-44707, JP-B-1-29398, and the like can be mentioned. Each of these reversibly thermochromic compositions discolor at a predetermined temperature (discoloration point) as a limit; it shows a discolored state in a region of temperatures equal to, or greater than, the point of discoloration on one side of high temperatures, and a colored state in a region of temperatures equal to, or less than, the point of discoloration in a low temperature side; only one specified state of both states as mentioned above exists in a common temperature region and the other state is maintained as long as a heat or cold is applied, necessary to express the state, but returns to the state shown, in the temperature range common, when the application of heat or firo is removed; it has a property that a hysteresis width is relatively small (ΔH = 1 to 7 ° C) (see FIG. 1).
[0024] In addition, a microcapsule pigment can be applied that shows a large characteristic hysteresis (ΔHB = 8 to 50 ° C), as described in JP-B-4- 17154, JP-A-7-179777, JP-A -7-33997, JP-A-8-39936 and the like, namely, a microcapsule pigment of the type that discolor with heat containing, in a microcapsule, a reversibly thermochromic composition, which discolor by tracing a route in which the shape of a curve, which graphically represents a change in color density with a change in temperature, is vastly different between the case where the temperature is high on one side of low temperatures in the region of discoloration temperatures and the case where the temperature is decreased by a side of high temperatures in the region of discoloration temperatures, in an opposite way, and which has a color memory property of a colored state in a region of low temperatures equal to, or less than, the complete color temperature ( ti) or a discolored state in a high temperature region equal to, or greater than, the complete decolorization temperature (t4), in a specified temperature region [a temperature region between t2 and t3 (a substantial two phase retention temperature region)] ( see FIG. two).
[0025] The aforementioned reversibly thermochromic composition, having a color memory property, can specifically be operated effectively to retain the color shown in a common state (routine temperature region), specifying the color temperature complete ti to a temperature obtained only in a freezer, a cold region, and the like, ie, a range of -50 to 0 ° C, preferably -40 to -5 ° C, and more preferably -30 to -10 ° C, and the complete decolorization temperature t4 to a temperature obtained from the frictional heat generated with a known friction body or heating body, such as a hair dryer, ie, a range of 45 to 95 ° C, preferably 50 at 90 ° C, and more preferably 60 to 80 ° C, and specifying the ΔH value for 40 to 100 ° C.
[0026] The compounds of each component of components (A), (B) and (C) will be specifically exemplified below.
[0027] As an electron donor dye organic compound that is component (A) of the present invention, diphenylmethane phthalides, phenylindolyl phthalides, indolyl phthalides, diphenylmethane azaftalides, phenylindolyl azaphthalides, fluorans, styrylquinolines, diazardamide lactones, and the like.
[0028] Examples of these compounds are shown below.
[0029] The following may be mentioned: 3,3-bis (p-dimethylaminophenyl) -6-dimethylaminophthalide; 3- (4-diethylaminophenyl) -3- (1-ethyl-2-methylindol-3-yl) phthalide; 3,3-bis (1-n-butyl-2-methylindol-3-yl) phthalide; 3,3-bis (2-ethoxy-4-diethylaminophenyl) -4-azaftalide; 3- [2-ethoxy-4- (N-ethylanilino) phenyl] -3- (1-ethyl-2-methylindol-3-yl) -4-azaftalide; 3,6-diphenylaminofluorane; 3,6-dimethoxyfluane; 3,6-di-n-butoxyfluane; 2-methyl-6- (N-ethyl-N-p-tolylamino) fluorane; 3-chloro-6-cyclohexylaminofluorane; 2-methyl-6-cyclohexylaminofluorane; 2- (2-chloramino) -6-dibutylaminofluorane; 2- (2-chloroanilino) -6-di-n-butylaminofluorane; 2- (3-trifluormethylanilino) -6-diethylaminofluorane; 2- (N-methylanilino) -6- (N-ethyl-N-p-tolylamino) fluorane; 1,3-dimethyl-6-diethylaminofluorane; 2-chloro-3-methyl-6-diethylaminofluorane; 2-anilino-3-methyl-6-diethylaminofluorane; 2-anilino-3-methyl-6-di-n-butylaminofluorane; 2-xylidino-3-methyl-6-diethylaminofluorane; 1,2-benz-6-diethylaminofluorane; 1,2-benz-6- (N-ethyl-N-isobutylamino) fluorane; 1,2-benz-6- (N-ethyl-N-isoamylamino) fluorane; 2- (3-methoxy-4-dodecoxystyryl) quinoline; spiro [5H- (1) benzopyran (2,3-d) pyrimidine-5,1 '(3'H) isobenzofuran] -3'-one; 2- (diethylamino) -8- (diethylamino) -4-methyl-spiro [5H- (1) benzopyran (2,3-g) pyrimidine-5,1 '(3'H) isobenzofuran] -3-one; 2- (di-n-butylamino) -8- (di-n-butylamino) -4-methyl-spiro [5H- (1) benzopyran (2,3-g) pyrimidine-5.1 '(3'H) isobenzofuran] -3-one; 2- (di-n-butylamino) -8- (diethylamino) -4-methyl-spiro [5H- (1) benzopyran (2,3-g) pyrimidine-5.1 '(3'H) isobenzofuran] -3 -one; 2- (di-n-butylamino) -8- (N-ethyl-Ni-amylamino) -4-methyl-spiro [5H- (1) benzopyran (2,3-g) pyrimidine-5.1 '(3' H) isobenzofuran] -3-one; 2- (dibutylamino) -8- (dipentylamino) -4-methyl-spiro [5H- (1) -benzopyran (2,3-g) pyrimidine-5.1 '(3'H) -isobenzofuran] -3-one ; 3- (2-methoxy-4-dimethylaminophenyl) -3- (1-butyl-2-methylindol-3-yl) -4,5,6,7-tetrachlorophthalide; 3- (2-ethoxy-4-diethylaminophenyl) -3- (1-ethyl-2-methylindol-3-yl) -4,5,6,7-tetrachlorophthalide; 3- (2-ethoxy-4-diethylaminophenyl) -3- (1-pentyl-2-methylindol-3-yl) -4,5,6,7-tetrachlorophthalide; 4,5,6,7-tetrachlor-3- [4- (dimethylamino) -2-methylphenyl] -3- (1-ethyl-2-methyl-1H-indol-3-yl) -1 (3H) -isobenzofuran ; 3 ', 6'-bis [henyl (2-methylphenyl) amino] -spiro [isobenzofuran-1 (3H), 9' - [9H] xanten] - 3-one; 3 ', 6'-bis [henyl (3-methylphenyl) amino] -spiro [isobenzofuran-1 (3H), 9' - [9H] xanthen-3-one; and 3 ', 6'-bis [henyl (3-ethylphenyl) amino] -spiro [isobenzofuran-1 (3H), 9' - [9H] xanten] -3-one.
[0030] Additionally, the pyridine, quinazolines and bisquinazolines compounds, which are effective in producing fluorescent yellow to red colors, are mentioned and 4- [2,6-bis (2-ethoxyphenyl) -4-pyridinyl] -N, N-dimethylbenzene amine can be exemplified.
[0031] As an electron receptor compound of component (B) of the present invention, a group of compounds having an active proton, a group of pseudo-acid compounds (a group of compounds that are not acid, but acting as acids in the composition to cause the color development of compound (A)), a group of compounds having electron voids and the like.
[0032] Examples of compounds having an active proton include monophenols and polyphenols as compounds having a phenolic hydroxyl group, those additionally having a substituent, such as an alkyl group, an aryl group, an acyl group, an alkoxycarbonyl group , a carboxy group and an ester or amide thereof, or a halogen group, and bis- or trisphenols, and condensed phenol-aldehyde resins. In addition, the compounds can be metal salts of the compounds described above having a phenolic hydroxyl group.
[0033] The specific examples are shown below: Phenol, o-cresol, tertiary butylcatechol, nonylphenol, n-octylphenol, n-dodecylphenol, n-stearylphenol, p-chlorophenol, p-bromophenol, o-phenylphenol, n-butyl p-hydroxybenzoate, n-octyl p-hydroxybenzoate, resorcin, dodecyl gaiate, 2,2-bis (4-hydroxyphenyl) propane, a 4,4- dihydroxydiphenylsulfone, 1,1-bis (4-hydroxyphenyl) ethane, 2,2-bis (4-hydroxy-3-methylphenyl) propane, bis (4-hydroxyphenyl) sulfide, 1-phenyl -1,1-bis (4-hydroxyphenyl) ethanol, 1,1-bis (4-hydroxyphenyl) -3-methylbutane, 1,1-bis (4-hydroxyphenyl) -2-methylpropane, 1,1- bis (4-hydroxyphenyl) -n-hexane, 1,1-bis (4-hydroxyphenyl) -n-heptane, 1,1-bis (4-hydroxyphenyl) -n-octane, 1,1-bis ( 4-hydroxyphenyl) -n-nonane, 1,1-bis (4-hydroxyphenyl) -n-decane, 1,1-bis (4-hydroxyphenyl) -n-dodecane, 1,1-bis (4- hydroxyphenyl) - 2-ethylexane, 2,2-bis (4-hydroxyphenyl) butane, 2,2-bis (4-hydroxyphenyl) ethyl propionate, 2,2-bis (4-hydrox ifenyl) -4-methylpentane, 2,2-bis (4-hydroxyphenyl) hexafluorpropane, 2,2-bis (4-hydroxyphenyl) -n-heptane and 2,2-bis (4-hydroxyphenyl) -n- nonane.
[0034] Although the compounds described above having a phenolic hydroxyl group may exhibit more effective thermal discoloration characteristics, a compound selected from aromatic carboxylic acids, aliphatic carboxylic acids having 2 to 5 carbon atoms, metal salts can be used of carboxylic acids, esters of acidic phosphoric acids and their metal salts, and 1,2,3-triazole and its derivatives, and the like.
[0035] In addition, a microcapsule pigment of the type that discolor with heat containing a reversibly thermochromic composition can also be applied, using a specific alkoxyphenol compound having a linear or branched alkyl group having 3 to 18 carbon atoms (JP- A-11-129623), a specific hydroxybenzoic acid ester (JP-A-2001-105732), a gallic acid ester (JP-A- 2003-253149), or similar, as the electron receptor compound (see FIG 3).
[0036] The component (C), which is a reaction medium that reversibly induces an electron donor and receptor reaction between the components (A) and (B) mentioned above, in a region of specified temperatures, will be explained. Examples of component (C) include esters, ketones, ethers, alcohols, and acid amides.
[0037] As component (C), a carboxylic acid ester compound can be mentioned, mixed with the components (A) and (B) mentioned above, which discolor showing a great characteristic hysteresis in relation to a density curve of color-temperature (characteristic that a curve graphing a change in color with a change in temperature is different between the case where the temperature is changed from a side of lower temperatures to a side of higher temperatures and the case where the temperature is changed from a higher temperature side to a lower temperature side), it is capable of forming a reversibly thermochromic composition having a color memory property, and shows a value of ΔT (melting point-cloud point) ranging from 5 ° C to less than 50 ° C. Specifically, for example, an ester of carboxylic acid containing an aromatic ring substituted on the molecule, an ester of a carboxylic acid containing an aromatic ring unsubstituted with an aliphatic alcohol having 10 or more carbon atoms, an ester of carboxylic acid can be used. - lyric containing a cyclohexyl group in the molecule, an ester of a fatty acid having 6 or more carbon atoms with an unsubstituted aromatic alcohol or phenol, an ester of a fatty acid having 8 or more carbon atoms with a branched aliphatic alcohol, an ester of a dicarboxylic acid with an aromatic alcohol or a branched aliphatic alcohol, dibenzyl cinnamate, heptyl stearate, didecyl adipate, dilauryl adipate, dimiristyl adipate, dicetyl adipate, distearyl adipate, trilaurine, trimyristine, tristearin, dimyristin or distestin.
[0038] In addition, a fatty acid ester compound obtained from an aliphatic monohydric alcohol having 9 or more odd-numbered carbon atoms and an aliphatic carboxylic acid having even-numbered carbon atoms, and an ester compound of fatty acid having 17 to 23 carbon atoms in total, obtained from n-pentyl alcohol or n-heptyl alcohol and an aliphatic carboxylic acid having 10 to 16 even numbered carbon atoms, are also effective.
[0039] Specifically, n-pentadecyl acetate, n-tridecyl butyrate, n-pentadecyl butyrate, n-undecyl caproate, n-tridecyl caproate, n- pentadecyl, n-nonyl caprylate, n-undecyl caprylate, n-tridecyl caprylate, n-pentadecyl caprylate, n-heptila caprate, n-nonila caprate, n-undecila caprate , n-tridecyl caprate, n-pentadecyl tray, n-pentyl laurate, n-heptyla laurate, n-nonyl laurate, n-undecyl laurate, n- tridecyl, n-pentadecyl laurate, n-pentyl myristate, n-heptila myristate n-nonila myristate, n-undecyl myristate, n-tridecyl myristate, n-pentadecyl myristate, n-pentyl palmitate, n-heptyla palmitate, n-nonyl palmitate, n-undecyl palmitate, n-tridecyl palmitate, n-pentadecyl palmitate, n-nonyl stearate, n-undecyl searate, n-tri stearate decila, n-pentadecyl stearate, n-nonyl eicosanoate, n-undecyl eicosanoate, n-tridecyl eicosanoate, n-pentadecyl eicosanoate, n-nonila behenate, n behenate -undecila, n-tridecyl behenate, and n-pentadecyl behenate.
[0040] Like ketones, aliphatic ketones having 10 or more carbon atoms in total are effective and 2-decanone, 3-dcanone, 4-decanone, 2-undecanone, 3-undecanone can be mentioned, 4-undecanone, 5-undecanone, 2-dodecanone, 3-dodecanone, 4-dodecanone, 5-dodecanone, 2-tridecanone, 3-tridecanone, 2-tetradecanone, 2-pentadecanone, 8-pentadecanone, 2-hexadecanone, 3-hexadecanone, 9-heptadecanone, 2-pentadecanone, 2-octadecanone, 2-nonadecanone, 10-nonadecanone, 2-eicosanone, 11-eicosanone, 2-henesicosanone, 2-docosanone, laurone, and stearone.
[0041] Also, aryl alkyl ketones having 12 to 24 carbon atoms in total may be mentioned, for example, n-octadecanophenone, n-heptadecanophenone, n-hexadecanophenone, n-pentadecanophenone, n-tetradecanophenone , 4-n-dodecaacetophenone, n-tridecanophenone, 4-n-undecanoacetophenone, n-laurophenone, 4-n-decanoacetophenone, n-undecanophenone, 4-n-nonylacetophenone, n-decanophenone, a 4-n-octylacetophenone, n-nonanophenone, 4-n-heptylacetophenone, n-octanophenone, 4-n-hexylacetophenone, 4-n-cyclohexylacetophenone, 4-tert-butylpropiophenone, n-heptaphenone, a 4-n-pentylacetophenone, cyclohexyl phenyl ketone, benzyl n-butyl ketone, 4-n-butylacetophenone, n-hexanophenone, 4-isobutylacetophenone, 1-acetonephton, 2-acetonephone, and cyclopentyl phenyl ketone .
[0042] As ethers, aliphatic ethers having 10 or more carbons in total are effective and mention may be made of dipentyl ether, diexyl ether, diethyl ether, dioctyl ether, dinonyl ether, didecyl ether, ether diundecyl, didodecyl ether, ditridecyl ether, dithetradecyl ether, dipentadecyl ether, diexadecyl ether, dioctadecyl ether, dimethyl decanediol ether, dimethyl undecanediol ether, dimethyl dodecanediol ether, dimethyl ether, dimethyl ether diethyl nodiol, and diethyl undecanediol ether.
[0043] Like alcohols, saturated aliphatic monohydric alcohols having 10 or more carbon atoms are effective and mention may be made of decyl alcohol, undecyl alcohol, dodecyl alcohol, tridecyl alcohol, tetradecyl alcohol, pentadecyl alcohol, hexadecyl alcohol, heptadecyl alcohol, octadecyl alcohol, eicosilic alcohol, and docosyl alcohol.
[0044] As acidic amides, hexanamide, heptanamide, octanamide, nonanamide, decanamide, undecanamide, laurylamide, tridecanamide, myristamide, palmitamide, stearamide, and docosa- can be mentioned namida.
[0045] In addition, as the aforementioned component (C), a compound represented by the following formula (I), described in JP-A-2006-137886, is suitably used:
where Ri represents a hydrogen atom or a methyl group, m represents an integer from 0 to 2, either Xi and X2 represent - (CH2) nOCOR2 or - (CH2) nCOOR2 and 0 the other represents a hydrogen atom, n represents an integer from 0 to 2, R2 represents an alkyl or alkenyl group having 4 or more carbon atoms, Yi and Y2 each represent a hydrogen atom, an alkyl group having 1 to 4 carbon atoms, a methoxy group, or a halogen, erep, each represents an integer from 1 to 3.
[0046] Among the compounds represented by the aforementioned formula (1), the case where R1 is a hydrogen atom is preferred, since the reversibly thermochromic composition having a wider hysteresis width can be obtained. In addition, the case is more preferred where Ri is a hydrogen atom and m is 0.
In this regard, among the compounds represented by formula (1), a compound represented by the following formula (2) is most preferably used:
where R represents an alkyl or alkenyl group having 8 or more carbon atoms, and an alkyl group having 10 to 24 carbon atoms is preferred and an additional alkyl group having 12 to 22 carbon atoms is preferred.
[0048] Specific examples of the aforementioned compounds may include 4-benzyloxyphenylethyl ocanoate, 4-benzyloxyphenylethyl nonanoate, 4-benzyloxyphenylethyl de-canoate, 4-benzyloxyphenylethyl undecanoate, 4-benzyloxyphenylethyl dodecanoate , 4-benzyloxyphenylethyl tridecanoate, 4-benzyloxyphenylethyl tetradecanoate, 4-benzyloxyphenylethyl pentadecanoate, 4-benzyloxyphenylethyl hexadecanoate, 4-benzyloxyphenylethyl heptadecanoate, and 4-benzyloxyphenylate octadecanoate.
[0049] In addition, as the component (C) mentioned above, a compound represented by the following formula (3), described in JP-A-2006-188660, can also be used:
where R represents an alkyl or alkenyl group having 8 or more carbon atoms, m and m each represent an integer from 1 to 3, X and Y each represent a hydrogen atom, an alkyl group having 1 to 4 carbon atoms, an alkoxy group having 1 to 4 carbon atoms, or a halogen atom.
[0050] Specific examples of the aforementioned compound include 1,1-diphenylmethyl octanoate, 1,1-diphenylmethyl nonanoate, 1,1-diphenylmethyl decanoate, 1,1-diphenylmethyl undecanoate, 1,1-diphenylmethyl undecanoate 1,1-diphenylmethyl, 1,1-diphenylmethyl tridecanoate, 1,1-diphenylmethyl tetradecanoate, 1,1-diphenylmethyl pentadekanoate, 1,1-diphenylmethyl hexadecanoate, 1,1-heptadecanoate -diphenylmethyl, and 1,1-diphenylmethyl octadecanoate.
[0051] In addition, as the component (C) mentioned above, a compound represented by the following formula (4), described in JP-A-2008-280523, can also be used:
where X represents any one hydrogen atom, an alkyl group having 1 to 4 carbon atoms, a methoxy group, and a halogen atom, m represents an integer from 1 to 3, and n represents an integer from 1 to 20 .
[0052] Examples of the aforementioned compound may include malonic acid diester with 2- [4- (4-chlorobenzyloxy) phenyl] ethanol, succinic acid diester with 2- (4-benzyloxyphenyl) ethanol, diester succinic acid with 2- [4- (3-methylbenzyloxy) phenyl] ethanol, glutaric acid diester with 2- (4benzyloxyphenyl) ethanol, glutaric acid diester with 2- [4- (4-chlorobenzyloxy) phenyl] ethanol , the adipic acid diester with 2- (4-benzyloxyphenyl) ethanol, the pyelic acid diester with 2- (4-benzyloxyphenyl) ethanol, the subteric acid diester with 2- (4-benzyloxyphenyl) ethanol, the diester submeric acid with 2- [4- (3-methylbenzyloxy) phenyl] ethanol, submeric acid diester with 2- [4- (4-chlorobenzyloxy) phenyl] ethanol, subteric acid diester with 2- [4- ( 2,4-dichlorobenzyloxy) phenyl] ethanol, azelaic acid diester with 2- (4-benzyloxyphenyl) ethanol, sebacic acid diester with 2- (4-benzyloxyphenyl) ethanol, 1,10-decanedicarboxylic acid diester with 2- (4-benzyloxyphenyl) ethanol, the acid diester 1,18-octadecanedicarboxylic acid with 2- (4-benzyloxyphenyl) ethanol, and 1,18-octadecanedicarboxylic acid diester with 2- [4- (2-methylbenzyloxy) phenyl] ethanol.
[0053] In addition, as the component (C) mentioned above, a compound represented by the following general formula (5) can also be used:
where R represents an alkyl group or alkenyl group having 1 to 21 carbon atoms and n represents an integer from 1 to 3.
[0054] Examples of the aforementioned compound may include the 1,3-bis (2-hydroxyethoxy) benzene diester with the capric acid, the 1,3-bis (2-hydroxyethoxy) benzene diester with the undecanoic acid, the 1,3-bis (2-hydroxyethoxy) benzene diester with lauric acid, 1,3-bis (2-hydroxyethoxy) benzene diester with myristic acid, 1,4-bis (hydroxymethoxy) benzene diester with butyric acid, 1,4-bis (hydroxymethoxy) benzene diester with isovaleric acid, 1,4-bis (2-hydroxyethoxy) benzene diester with acetic acid, 1,4-bis diester (2-hydroxyethoxy) benzene with propionic acid, 1,4-bis (2-hydroxyethoxy) benzene diester with valeric acid, 1,4-bis (2-hydroxyethoxy) benzene diester with caprylic acid, 1,4-bis (2-hydroxyethoxy) benzene diester with caprylic acid, 1,4-bis (2-hydroxyethoxy) benzene diester with capric acid, 1,4-bis (2-hydroxyethoxy) diester benzene with lauric acid, and 1,4-bis (2-hydroxyethoxy) benzene diester with myristic acid .
[0055] Since the ratio of the components (A), (B) and (C) mentioned above to be mixed depends on the concentration, the decolorization temperature, the decolorization mode and the type of each component, the component ratio in the which discoloration characteristics can generally be obtained is in the range of 0.1 to 50, preferably 0.5 to 20 of component (B), and in the range of 1 to 800, preferably 5 to 20 of component (C), based on 1 of component (A) (each of the reasons mentioned above is expressed as part (s) by mass).
[0056] In this regard, it is also possible to cause a change in the exchangeable color from a color (1) to a color (2) by incorporating a coloring agent, such as a dye or non-thermochromic pigment, in the microcapsule pigment or in reversibly thermochromic paint.
[0057] Examples of the microencapsulation method of the thermosetting thermochromic composition include interfacial polymerization, in-terfacial polycondensation, in situ polymerization, submerged coating hardening, phase separation from an aqueous solution, phase separation from an organic solvent, cooling the dispersion by melting, coating the air suspension, or spray drying. It can be selected as needed, depending on the purpose of use.
[0058] As the materials for the aforementioned capsules, epoxy resins, urea resins, urethane resins, isocyanate resins, and the like can be mentioned.
[0059] It is also possible to provide the microcapsule for practical use after giving it durability, by forming a secondary resin film on its surface or after modifying the surface properties, depending on the purpose.
[0060] As the shape of the microcapsule pigment of the present invention, the application of a shape having a round cross section is not rejected, however a shape having a non-round cross section is effective.
[0061] With respect to the letter formed by writing, the microcapsule pigment is densely aligned and firmly fixed while placing the long diameter side (maximum external diameter side) in close contact with the writing surface. Thus, the letter shows a high density coloring characteristic. At the same time, against an external force generated by rubbing the letter with a frictional body, such as a rubber, the aforementioned microcapsule pigment delicately undergoes elastic deformation to a shape in order to mitigate the external force, the destruction of the membrane of the the microcapsule wall is suppressed, and its thermochromic function can be effectively expressed without being impaired.
[0062] It is preferred that the aforementioned microcapsule pigment has an average particle diameter (average value of the maximum outer diameter) that falls within a range of 0.5 to 5.0 pm, preferably 1.0 to 4.0 pm, and more preferably 1.0 to 3.0 pm, and satisfies the requirement that the reversibly thermochromic composition / wall membrane ratio = 7: 1 to 1: 1 (mass ratio), and preferably 6: 1 to 1 :1.
[0063] When the average particle diameter of the microcapsule pigment (including that having a round cross section) exceeds 5.0 pm, the decrease in the effluence of the capillary openings tends to occur, whereas when the average particle diameter is less than than 0.5 pm, a high density coloring characteristic is not easily displayed.
[0064] When the ratio of the reversibly thermochromic composition to the wall membrane is greater than the range described above, the wall membrane becomes excessively thin and, for this reason, decreases in durability against pressure and heat tends to occur, while when the ratio of the wall membrane to the reversibly thermochromic composition is greater than the range described above, the decrease in color density and brightness tends to occur.
[0065] Consequently, the particle diameter is measured using a laser diffraction / dispersion particle diameter measurement device [LA-300, manufactured by Horiba, Co., Ltd.], and a diameter of average particle (median diameter) is calculated according to the measured value.
[0066] The reversibly thermochromic microcapsule pigment mentioned above can be incorporated in an amount of 5 to 40% by weight, preferably 10 to 40% by weight, and more preferably 15 to 35% by weight, based on the total amount of the ink composition.
[0067] When the amount is less than 5% by mass, the color density is insufficient, while when it exceeds 40% by mass, the effluence of the ink decreases and, for this reason, the performance of writing can be inhibited .
[0068] As the medium to be used in the ink composition of the invention, water and a water-soluble organic solvent are used.
[0069] As the water-soluble organic solvent, for example, ethanol, propanol, butanol, glycerin, sorbitol, triethanolamine, die-tanolamine, monoethanolamine, ethylene glycol, diethylene glycol can be used , thiodiethylene glycol, polyethylene glycol, propylene glycol, butylene glycol, ethylene glycol monomethyl ether, ethylene glycol monoethyl ether, ethylene glycol monobutyl ether, diethylene glycol monomethyl ether, monoethyl ether diethylene glycol, diethylene glycol monobutyl ether, propylene glycol monobutyl ether, ethylene glycol monomethyl ether acetate, sulfolane, 2-pyrrolidone, N-methyl-2-pyrrolidone, or the like.
[0070] In this regard, since the specific gravity of the microcapsule pigment containing a reversibly thermochromic composition having a large hysteresis width generally exceeds 1, preferably the water-soluble organic solvent having a specific gravity of more than 1.1 employee.
[0071] As the water-soluble organic solvent, glycerin is preferably used and which can be incorporated in an amount of 5 to 40% by weight, preferably 25 to 40% by weight, and more preferably 30 to 35% by weight , based on the total amount of the paint composition.
The comb-type polymer dispersant having carboxyl groups on its side chains, contained in the ink composition of the present invention, is not particularly limited to the extent that it is a comb-type polymer compound having a plurality of carboxyl groups on their side chains, and acrylic polymer compounds having a plurality of carboxyl groups on their side chains are preferred. As the compound, the trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd., Can be mentioned as an example.
[0073] By the combined use of the comb-type polymer dispersant having carboxyl groups on its side chains and an organic sulfur nitrogen compound, together, the stability of the long-lasting dispersion of the microcapsule pigment itself can be improved.
[0074] The organic sulfur nitrogen compound additionally suppresses vibration-induced microcapsule pigment sedimentation, at the time when the ink composition is inserted into a writing instrument, for practical use.
[0075] This is because the compound additionally improves the dispersibility of dispersing the microcapsule pigment by the comb-type polymer dispersant having carboxyl groups on its side chain.
[0076] As the organic nitrogen sulfur compound, a compound selected from thiazole compounds, isothiazole compounds, benzothiazole compounds, and benzisothiazole compounds can be used.
[0077] As the organic sulfur nitrogen compound, specifically, one or more compounds selected from 2- (4-thiazoyl) -benzimidazole (TBZ), 2- (thiocyanatomethylthio) -1, 3-benzothiazole (TCMTB), 2 -methyl-4-isothiazolin-3-one, and 5-chloro-2-methyl-4-isothiazolin-3-one are preferably used, and one or more compounds selected from 2- (4-thiazoyl) - benzimidazole (TBZ), 2-methyl-4-isothiazolin-3-one, and 5-chloro-2-methyl-4-isothiazolin-3-one are most preferably used.
[0078] The organic sulfur nitrogen compound can be exemplified by the trade names: Topside 88, Topside 133, Topside 170, Topside 220, Topside 228, Topside 300, Topside 400, Topside 500, Topside 600, Topside 700Z, Topside 800, and Topside 950, manufactured by Parmachem Asia Ltd .; and by trade names: Hokustar HP, Hokustar E50A, Hokuside P200, Hokuside 6500, Hokuside 7400, Hokuside MC, Hokuside 369, and Hokuside R-150, manufactured by Hokko Sangyo Co., Ltd.
[0079] The mass ratio of the comb-type polymer dispersant having carboxyl groups on its side chains to the aforementioned organic nitrogen sulfur compound is 1: 1 to 1:10, and preferably from 1: 1 to 1: 5 . Satisfying the aforementioned range, it is possible to sufficiently develop the dispersion of the microcapsule pigment and the suppression of the vibration-induced sedimentation of the microcapsule pigment.
[0080] The aforementioned water-soluble resin contained in the ink composition of the present invention is added to impart an ink-fastening property to the paper surface or a viscosity and also has a function of increasing the stability of the polymer dispersant the comb type having carboxyl groups on its side chains and the organic sulfur nitrogen compound, mentioned above, in the paint.
[0081] Like water-soluble resin, alkyd resins, acrylic resins, styrene-maleic acid copolymers, cellulose derivatives, polyvinylpyrrolidone, poly (vinyl alcohol), and dextrin, and more can be mentioned preferably, a partially saponified poly (vinyl alcohol) is suitably used, which is rich in solubility in an acidic range and has a saponification degree of 70 to 89% per mol.
[0082] As the amount of water-soluble resin additive, it is added to the paint in a range of 0.3 to 3.0% by mass, preferably 0.5 to 1.5% by mass.
[0083] By controlling the pH of the ink composition of the present invention to 3 to 7, preferably 4 to 6, and more preferably 5 to 6, flocculation and sedimentation of the reversibly thermochromic microcapsule pigment contained in a low temperature region.
[0084] When the pH exceeds 7, the effluence of the ink tends to be impaired when allowed to stand in a region of low temperatures, i.e., a region of temperatures where the ink is frozen. Also, when the pH is less than 3, the coloring characteristic of the reversibly thermochromic composition contained in the capsule is enhanced and, for this reason, a problem may arise that a color remains discolored.
Consequently, as the water-soluble resin mentioned above, it is preferred to use a water-soluble resin in the paint composition in the range where the pH of the paint composition is 3 to 7.
[0086] The aforementioned ink composition is controlled in its surface tension at 20 ° C for a range of preferably 25 to 45 mN / m, more preferably 30 to 45 mN / m, and most preferably 30 to 40 mN / m.
[0087] By controlling the surface tension in the aforementioned range, it is difficult to separate when writing, the effluence of the ink is not impaired, even when left at rest in a region of temperatures below 0 ° C, where the ink it is frozen, or left to stand in a region of high temperatures, eg, under an environment of 50 ° C, and there is hardly an irregularity in the density of the letter and the width of the writing that depend on the storage environment and the environment of use.
[0088] When the surface tension is less than 25 mN / m, the effluence of the paint tends to be unstable and the density of the letter becomes irregular in some cases. Also, when the surface tension exceeds 45 mN / m, the separation of the line tends to occur and also the effluence of the paint decreases, depending on the storage environment and the usage environment described above, with this the letter density can decrease and the irregularity in the width of the writing tends to occur.
[0089] In addition, if necessary, anti-rust compounds, such as benzotriazole, tolyltriazole, dicyclohexylammonium nitrite, diisopropylammonium nitrite, and saponin can be used; wetting agents such as urea, non-ionic surfactants, reduced or unreduced starch hydrolysates, disaccharides, including trehalose, oligosaccharides, sucrose, cyclodextrins, glucose, dextrins, sorbitol , mannitol, and sodium pyrophosphate; defoaming agents; fluorine-based surfactants or non-ionic surfactants that improve paint permeability.
[0090] Furthermore, a sodium salt of a naphthalenesulfonic acid-formalin condensate [trade name: DEMOL N, manufactured by Kao Corporation] can also be used as a surfactant and is preferably used in combination with glycerin.
[0091] In addition, as the structure of the writing instrument receiving the aforementioned ink composition, a direct liquid type writing instrument can be mentioned which has a structure where a valve mechanism is provided in the shaft body and the ink in the shaft body it is released to the pen body by opening the valve, or a writing instrument of the direct liquid type that has a structure where the ink is directly received inside the shaft body and an element that controls the ink flow that it has comb-shaped grooves or an ink flow controlling element comprising a bundle of fibers. However, an internal filling type writing instrument that has a structure where an ink occlusion body comprising a bundle of fibers to be received in the shaft body is impregnated with ink, a pen body is mounted on the front end of writing, and the back end of the pen body comes into contact with the ink occlusion body directly or via a connecting element.
[0092] The aforementioned ink occlusion body is formed by bundling the folded fibers in a longitudinal direction and is configured by incorporating the fibers in a covering material, such as a plastic tube or film, and adjusting the porosity within a range about 40 to 90%. In this regard, the fiber bundle body may be one processed for adhesion by processing the resin, processing by thermal melting, a plasticizer, or the like.
[0093] For the aforementioned shaft body, a molded body formed from a thermoplastic resin, such as polyethylene, polypropylene, poly (ethylene terephthalate), or nylon, is suitably used.
[0094] As the pen body, a marking pen body is suitable and the pen bodies made of fibers, felts, plastics, and the like, can be mentioned.
[0095] The shape of the front end of the marking pen can be a cannonball shape or a chisel shape.
[0096] In addition, a brush pen body or a ballpoint pen body can be used. Examples of the brush pen body include a fiber bundle body in which the fibers are tightly bundled together in a longitudinal direction, a porous plastic body having continuous voids, a body thermally fused or processed with a fiber resin synthetic resin, and a body processed by extruding a soft resin or an elastomer.
[0097] Examples of the ballpoint pen include one in which a metal is cut to form a base that receives the ball and a part that releases the inner ink, and one in which a plurality of parts are projected internally on the inner surface close to an end of a metal tube by deformation by external pressure and openings of effluent paint are formed radially extending outside from the central part in a radial direction between the above-mentioned, individual projected parts.
[0098] The ball contained in the aforementioned ballpoint pen is effectively a ball of consolidated carbide, stainless steel, ruby, ceramic, or similar, having an outside diameter of 0.3 to 2.0 mm, preferably 0.4 to 1.5 mm, and more preferably 0.5 to 1.0 mm.
[0099] In relation to this, the ballpoint pen mentioned above may have a constitution where a locking element is provided that grips the back of the ball forward, so that the ball is pressed on the inner edge of the front end of the body. pen to be in a state of close contact when not writing, and the ball is retracted by the pressure of writing to enable the effluence of ink when writing.
[00100] The letter formed with a writing instrument that receives the aforementioned ink composition can be discolored by rubbing with a finger or applying a heating device or a cooling device.
[00101] Typical examples of the heating device include a conductive thermochromic device, equipped with a resistor heating body, a heating decolorization device filled with hot water or the like, and the application of a hair dryer. Preferably, a friction member or a friction body capable of discoloration is used by a conventional method.
[00102] Like the friction member or the friction body, an elastic body, such as an elastomer or a foamed plastic body, is suitable, which has good elasticity and can generate frictional heat through appropriate friction in the structure. friction, and can be a plastic molded body, a stone, a wood, a metal, or a fabric.
[00103] In this regard, the letter may be rubbed by means of a gum rubber, however, since the rubber chips are generated in the rubbing, the friction member as mentioned above is preferably used.
[00104] As a material for the aforementioned friction member or friction body, a silicone resin or a SEBS resin (styrene-ethylene-butadiene-styrene block copolymer) is suitably used, however the SEBS resin it is more appropriately used, since the silicone resin tends to adhere to the erased portion with rubbing and the letter tends to be repelled in repeated writing.
[00105] The aforementioned friction member may be a member (friction body) having any shape separate from the writing instrument, however portability is excellent when attaching the friction body to the writing instrument.
[00106] The portion to which the aforementioned friction member is attached may be the front end (top part) of a lid or the rear end (portion on which an anterior writing end is not installed) of a body. axis.
[00107] In addition, it is also possible to provide a small portion designed having any shape in a part of the cover or a part of the shaft body, to form a friction member.
[00108] Examples of the cooling device include a cold thermal decolorization device using a Peltier element, a cold thermal decolouration device in which a refrigerant, such as ice water or pieces of ice, is inserted, and the application of a refrigerator or freezer.
[00109] Furthermore, the writing instrument set can also be obtained by combining the aforementioned writing instrument and a friction body. Examples
[00110] The following will illustrate the Examples of the reversibly thermochromic aqueous ink compositions for writing instruments of the present invention and the writing instruments that use them, however the present invention should not be interpreted as being limited to them.
[00111] In this regard, the term "part (s)" in the Examples means part (s) by weight.
[00112] The surface tension of the paint was measured in a state that the temperature of the paint composition was 20 ° C, by means of an automatic surface tensiometer (CBVP-A3), manufactured by Kyowa Interface Science Co., Ltd. Example 1 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00113] A microcapsule pigment suspension was obtained which contained a reversibly thermochromic composition having a color memory property and composed of 3.0 parts of 1,3-dimethyl-6-diethylaminofluorane as component (A), 3, 0 parts of 4,4 '- (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as component (B), and 50.0 capryl parts of 4-benzyloxyphenylethyl as component (C).
[00114] The above mentioned suspension was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00115] The average particle diameter of the microcapsule pigment is 2.5 pm, the complete decolorization temperature is 60 ° C, and the complete staining temperature is -20 ° C. The pigment changes from orange to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00116] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the aforementioned microcapsule pigment (colored orange by cooling to -20 ° C or lower in advance), 0.5 part of a polymer dispersant comb type [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd., a mixture of 2-methyl-4-isothiazolin-3-one and 5-chloro-2-methyl-4-isothiazolin-3-one], 0.5 part of poly (vinyl alcohol), 35.0 parts of glycerin, 0 , 02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00117] The pH of the aforementioned ink composition was 7.00 and the surface tension was 39.8 mN / m. Preparation of the Internal Filling Type Writing Instrument (see FIG. 4)
[00118] An ink occlusion body 2, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in an axis 4 body made of a powder resin - Lipropylene, and grouped with a pen body processed with resin 3 (cannonball type) of a polyester fiber on the front end of the shaft body via a support 5 in the connected state, and a cap 6 was then adapted to it , so an internal filling type 1 writing instrument (marking pen) was obtained.
[00119] A SEBS resin was adapted to the rear end of the shaft body as a friction member 7.
[00120] Using the aforementioned writing instrument, an orange letter (calligraphy) was formed by writing on a sheet of paper.
[00121] The letter mentioned above was orange at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction member adapted to the shaft body. This state was maintained at room temperature. When the paper sheet was cooled to -20 ° C or lower, the color was returned to the original orange and the discoloration behavior was reproduced repeatedly. Example 2 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00122] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and composed of 1.0 part of 2- (dibutylamino) -8- (dipentylamino) -4- methyl- spiro [5H- [1] benzopyran [2,3-g] pyrimidine-5,1 '- (3'H) -isobenzofuran] -3-one as component (A), 3.0 parts of 4.4' - (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as component (B), and 50.0 parts of 4-benzyloxyphenylethyl caprate as component (C).
[00123] The aforementioned suspension was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00124] The average particle diameter of the aforementioned microcapsule pigment is 2.3 pm, the complete decolorization temperature is 58 ° C, and the complete staining temperature is -20 ° C. The pigment changes from pink to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00125] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the aforementioned thermochromic microcapsule pigment above (pink in color by cooling to -20 ° C or lower in advance), 0.5 part of a comb-type polymer dispersant [commercial name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside 369, manufactured by Hokko Chemical Industry Co ., Ltd.], 0.5 part poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00126] The pH of the aforementioned ink composition was 6.98 and the surface tension was 40.0 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00127] An ink occlusion body, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in a shaft body made of a polypropylene resin. , and grouped with a pen body processed with polyester fiber resin (cannonball type) on the front end of the shaft body via a support in the connected state, and a cap was then adapted to it, so a internal filling type writing instrument (marking pen).
[00128] A SEBS resin was adapted to the rear end of the aforementioned shaft body as a friction member.
[00129] Using the aforementioned marking pen, a pink letter (calligraphy) was formed by writing on a letter printed on a sheet of paper.
[00130] The letter mentioned above was pink at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body adapted to the shaft body. This state was maintained at room temperature. When the sheet of paper was cooled to -20 ° C or lower, the color was returned to the original pink and the discoloration behavior was reproduced repeatedly. Example 3 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00131] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and composed of 4.5 parts of 2- (2-chloroamino) -6-dibutylaminofluorane as the component (A), 3.0 parts of 4.4 '- (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as the component (B ), and 50.0 parts of 4-benzyloxyphenylethyl caprate as component (C).
[00132] The suspension mentioned above was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00133] The average particle diameter of the aforementioned microcapsule pigment is 2.4pm, the complete decolorization temperature is 56 ° C, and the complete staining temperature is -20 ° C. The pigment changes color from black to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00134] A reversibly thermochromic aqueous paint composition was obtained by mixing 30.0 parts of the above-reversibly ter-microchromic microcapsule pigment (colored by cooling to -20 ° C or lower in advance), 0.5 part of a comb-type polymer dispersant [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokustar HP, manufactured by Hokko Chemical Industry Co., Ltd., 2- (4-thiazoyl) -benzimidazole], 0.5 part of polyl (vinyl alcohol), 35.0 parts of glycerin, 0.02 part of a defoaming agent (based on silicone), and 32.98 parts of water.
[00135] The pH of the aforementioned ink composition was 7.1 and the surface tension was 38.5 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00136] An ink occlusion body, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in a shaft body made of a polypropylene resin. , and grouped with a pen body processed with polyester fiber resin (cannonball type) on the front end of the shaft body via a support in the connected state, and a cap was then adapted to it, so a internal filling type writing instrument (marking pen).
[00137] A SEBS resin was adapted to the cap at its top as a friction member.
[00138] Using the aforementioned marking pen, a black letter (calligraphy) was formed by writing on a sheet of paper.
[00139] The letter mentioned above was black at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body adapted to the lid. This state was maintained at room temperature. When the paper sheet was cooled to -20 ° C or lower, the color was returned to the original black and the discoloration behavior was reproduced repeatedly. Example 4 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00140] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and consisting of 3.0 parts of 4- [2,6-bis (2-ethoxyphenyl) -4- pyridinyl] -N, N-dimethylbezenoamine as component (A), 10.0 parts of 2,2-bis (4'-hydroxyphenyl) - hexafluorpropane as component (B), and 50.0 parts of 4- benzyloxyphenylethyl as component (C).
[00141] The above mentioned suspension was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00142] The average particle diameter of the aforementioned microcapsule pigment is 2.5pm, the complete decolorization temperature is 59 ° C, and the complete staining temperature is -20 ° C. The pigment changes color from yellow to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00143] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the above-reversibly ter-microchromic microcapsule pigment (yellow colored by cooling to -20 ° C or lower in advance), 0.5 part of a comb-type polymer dispersant [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd ., a mixture of 2-methyl-4-isothiazolin-3-one and 5-chloro-2-methyl-4-isothiazolin-3-one], 0.5 part poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00144] The pH of the aforementioned ink composition was 7.05 and the surface tension was 39.8 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00145] An ink occlusion body, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in a shaft body made of a polypropylene resin , and grouped with a pen body processed with polyester fiber resin (cannonball type) on the front end of the shaft body via a support in the connected state, and a cap was then adapted to it, so a internal filling type writing instrument (marking pen).
[00146] A SEBS resin was adapted to the rear end of the aforementioned shaft body as a friction member.
[00147] Using the aforementioned marking pen, a yellow letter (calligraphy) was formed by writing on a letter printed on a sheet of paper.
[00148] The letter mentioned above was yellow at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body adapted to the shaft body. This state was maintained at room temperature. When the paper sheet was cooled to -20 ° C or lower, the color was returned to the original yellow and the discoloration behavior was reproduced repeatedly. Example 5 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00149] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and consisting of 2.0 parts of 4,5,6,7-tetrachlor-3- [4- ( dimethylamino) -2- methylphenyl] -3- (1-ethyl-2-methyl-1 H-indole-3-i) -1 (3H) -isobenzofuranone as component (A), 3.0 parts of 4.4 '- (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as component (B), and 50.0 parts of 4- caprate benzyloxyphenylethyl as component (C).
[00150] The suspension mentioned above was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00151] The average particle diameter of the aforementioned microcapsule pigment is 2.5pm, the complete decolorization temperature is 55 ° C, and the complete staining temperature is -20 ° C. The pigment changes color from blue to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00152] A reversibly thermochromic aqueous paint composition was obtained by mixing 20.0 parts of the above-reversibly ter-microchromic microcapsule pigment (colored blue by cooling to -20 ° C or lower in advance), 0.2 part of a comb-type polymer dispersant [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd ., a mixture of 2-methyl-4-isothiazolin-3-one and 5-chloro-2-methyl-4-isothiazolin-3-one], 0.5 part of poly (vinyl alcohol), 30.0 parts of glycerin, 0.02 part of a defoaming agent (based on silicone), and 48.28 parts of water.
[00153] The pH of the aforementioned ink composition was 6.98 and the surface tension was 40.1 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00154] An ink occlusion body, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in a shaft body made of a polypropylene resin , and grouped with a pen body processed with polyester fiber resin (cannonball type) on the front end of the shaft body via a support in the connected state, and a cap was then adapted to it, so a internal filling type writing instrument (marking pen).
[00155] A SEBS resin was adapted to the rear end of the aforementioned shaft body as a friction member.
[00156] Using the aforementioned writing instrument, a blue letter (calligraphy) was formed by writing on a sheet of paper.
[00157] The letter mentioned above was blue at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body adapted to the shaft body. This state was maintained at room temperature. When the sheet of paper was cooled to -20 ° C or lower, the color was returned to the original blue and the discoloration behavior was reproduced repeatedly. Example 6 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00158] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and composed of 3.0 parts of 4- [2,6-bis (2-ethoxyphenyl) -4- pyridinyl] -N, N-dimethylbezenoamine as component (A), 10.0 parts of 2,2-bis (4'-hydroxyphenyl) - hexafluorpropane as component (B), and 50.0 parts of 4- benzyloxyphenylethyl as component (C).
[00159] The above mentioned suspension was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00160] The average particle diameter of the aforementioned microcapsule pigment is 2.5pm, the complete decolorization temperature is 59 ° C, and the complete staining temperature is -20 ° C. The pigment changes color from yellow to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00161] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the aforementioned thermochromic microcapsule pigment mentioned above (yellow colored by cooling to -20 ° C or lower in advance), 0.5 part of a comb-type polymer dispersant [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokustar HP, manufactured by Hokko Chemical Industry Co., Ltd.] , 0.5 part poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00162] The pH of the aforementioned ink composition was 7.00 and the surface tension was 38.5 mN / m. Preparation of the Internal Fill Type Writing Instrument (see FIG. 5)
[00163] An ink occlusion body2, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in an axis 4 body made of a powder resin. lipropylene, and grouped with a pen body processed with polyester fiber resin 3 (type of handle) on the front end of the shaft body via a support 5 in the connected state, and a cap 6 was then adapted to it, by that an internal filling type 1 writing instrument (marking pen) was obtained.
[00164] A SEBS resin was adapted to the front end of the aforementioned cap as a friction member.
[00165] Using the aforementioned marking pen, a yellow highlight (calligraphy) was formed on a sheet of paper.
[00166] The letter mentioned above was yellow at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body adapted to the shaft body. This state was maintained at room temperature. When the paper sheet was cooled to -20 ° C or lower, the color was returned to the original yellow and the discoloration behavior was reproduced repeatedly. Example 7 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00167] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and composed of 2.0 parts of 4,5,6,7-tetrachlor-3- [4- ( dimethylamino) -2- methylphenyl] -3- (1-ethyl-2-methyl-1 H-indole-3-i) -1 (3H) -isobenzofuranone as component (A), 3.0 parts of 4.4 '- (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as component (B), and 50.0 parts of 4- caprate benzyloxyphenylethyl as component (C).
[00168] The above mentioned suspension was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00169] The average particle diameter of the aforementioned microcapsule pigment is 2.5 pm, the complete decolorization temperature is 55 ° C, and the complete staining temperature is -20 ° C. The pigment changes color from blue to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00170] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the above-mentioned reversibly termochromic microcapsule pigment (colored blue by cooling to -20 ° C or lower in advance), 0.5 part of a comb-type polymer dispersant [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokustar HP, manufactured by Hokko Chemical Industry Co., Ltd. ], 0.5 part poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00171] The pH of the aforementioned ink composition was 6.97 and the surface tension was 38.8 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00172] An ink occlusion body, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in a shaft body made of a polypropylene resin. , and grouped with a pen body processed with polyester fiber resin (chisel type) on the front end of the shaft body via a holder in the connected state, and a cap was then adapted to it, so it was An internal filling type writing instrument (marking pen) was obtained.
[00173] A SEBS resin was adapted to the front end of the aforementioned cap as a friction member.
[00174] Using the aforementioned writing instrument, a blue letter (calligraphy) was formed on a sheet of paper.
[00175] The letter mentioned above was blue at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body adapted to the shaft body. This state was maintained at room temperature. When the sheet of paper was cooled to -20 ° C or lower, the color was returned to the original blue and the discoloration behavior was reproduced repeatedly. Example 8 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00176] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and composed of 1.0 part of 2- (dibutylamino) -8- (dipentylamino) -4- methyl- spiro [5H- [1] benzopyran [2,3-g] pyrimidine-5,1 '- (3'H) -isobenzofuran] -3-one as component (A), 3.0 parts of 4.4' - (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as component (B), and 50.0 parts of 4 -benzyloxyphenylethyl as component (C).
[00177] The suspension mentioned above was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00178] The average particle diameter of the aforementioned microcapsule pigment is 2.3 pm, the complete decolorization temperature is 58 ° C, and the complete staining temperature is -20 ° C. The pigment changes from pink to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00179] A reversibly thermochromic aqueous paint composition was obtained by mixing 20.0 parts of the above-reversibly ter-microchromic microcapsule pigment (colored pink by cooling to -20 ° C or lower in advance), 0.5 part of a comb-type polymer dispersant [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part poly (vinyl alcohol), 33.0 parts glycerin, 0.02 part defoaming agent (silicone based), and 44.98 parts water.
[00180] The pH of the aforementioned ink composition was 6.97 and the surface tension was 39.6 mN / m. Preparation of the Direct Liquid Type Writing Instrument
[00181] The aforementioned ink 8 (which had been left to stand at room temperature after the microcapsule pigment had been colored pink by cooling to -20 ° C or lower in advance) and a stirring body 9 (SUS-304, ferrite-based stainless steel ball, diameter 3 mm) were placed on an axle body 4 and an anterior marking pen body 3 [chisel type] was joined with it via a support 5, while a locking mechanism valve 10 intervened, so a direct liquid type 1 writing instrument (marking pen) was obtained.
[00182] In connection with this, the aforementioned valve mechanism contains a valve base, a valve body, and a metal spring which presses on the aforementioned valve body in order to be pressure welded to the valve base, and has a structure where the valve is opened by a writing pressure applied to the pen body when writing.
[00183] A SEBS resin was adapted to the rear end of the aforementioned shaft body as a friction member.
[00184] Using the aforementioned writing instrument, a pink highlight (calligraphy) was formed by writing on a sheet of paper.
[00185] The letter mentioned above was pink at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body. This state was maintained at room temperature. When the sheet of paper was cooled to -20 ° C or lower, the color was returned to the original pink and the discoloration behavior was reproduced repeatedly. Example 9 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00186] A reversibly thermochromic microcapsule pigment was obtained in the same manner as in Example 1, except that the average particle diameter of the microcapsule pigment was adjusted to 1.8 pm.
[00187] The complete discoloration temperature of the microcapsule pigment is 60 ° C, and the complete color temperature is -20 ° C. The pigment changes from orange to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00188] A reversibly thermochromic aqueous paint composition was prepared in the same manner as in Example 1, except that the aforementioned microcapsule pigment (colored orange by cooling to -20 ° C or lower in advance) was used. Preparation of the Internal Filling Type Writing Instrument
[00189] An internal filling type writing instrument (marking pen) was prepared in the same manner as in Example 1, except that the reversibly thermochromic aqueous ink composition mentioned above was used.
[00190] Using the aforementioned writing instrument, an orange letter (calligraphy) was formed by writing on a sheet of paper.
[00191] The letter mentioned above was orange at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction member adapted to the shaft body. This state was maintained at room temperature. When the paper sheet was cooled to -20 ° C or lower, the color was returned to the original orange and the discoloration behavior was reproduced repeatedly. Example 10 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00192] A reversibly thermochromic microcapsule pigment was obtained in the same manner as in Example 1, except that the average particle diameter of the microcapsule pigment was adjusted to 1.5 µm.
[00193] The temperature for complete discoloration of the microcapsule pigment is 60 ° C, and the complete color temperature is -25 ° C. The pigment changes from orange to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00194] A reversibly thermochromic aqueous paint composition was prepared in the same manner as in Example 1, except that the aforementioned microcapsule pigment (colored orange by cooling to -25 ° C or lower in advance) was used. Preparation of the Internal Filling Type Writing Instrument
[00195] An internal filling type writing instrument (marking pen) was prepared in the same manner as in Example 1, except that the reversibly thermochromic aqueous ink composition mentioned above was used.
[00196] Using the aforementioned writing instrument, an orange letter (calligraphy) was formed by writing on a sheet of paper.
[00197] The letter mentioned above was orange at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction member adapted to the shaft body. This state was maintained at room temperature. When the paper sheet was cooled to -25 ° C or lower, the color was returned to the original orange and the discoloration behavior was reproduced repeatedly. Example 11 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00198] A reversibly thermochromic microcapsule pigment was obtained in the same manner as in Example 1, except that the average particle diameter of the microcapsule pigment was adjusted to 1.1 pm.
[00199] The temperature for complete discoloration of the microcapsule pigment is 60 ° C, and the complete color temperature is -30 ° C. The pigment changes from orange to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00200] A reversibly thermochromic aqueous paint composition was prepared in the same manner as in Example 1, except that the aforementioned microcapsule pigment (colored orange by cooling to -30 ° C or lower in advance) was used. Preparation of the Internal Filling Type Writing Instrument
[00201] An internal filling type writing instrument (marking pen) was prepared in the same manner as in Example 1, except that the reversibly thermochromic aqueous ink composition mentioned above was used.
[00202] Using the aforementioned writing instrument, an orange letter (calligraphy) was formed by writing on a sheet of paper.
[00203] The letter mentioned above was orange at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction member adapted to the shaft body. This state was maintained at room temperature. When the sheet of paper was cooled to -30 ° C or lower, the color was returned to the original orange and the discoloration behavior was reproduced repeatedly. Example 12 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00204] A reversibly thermochromic microcapsule pigment was obtained in the same manner as in Example 2, except that the average particle diameter of the microcapsule pigment was adjusted to 1.4 pm.
[00205] The temperature for complete discoloration of the microcapsule pigment is 58 ° C, and the complete color temperature is -25 ° C. The pigment changes from pink to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00206] A reversibly thermochromic aqueous paint composition was prepared in the same manner as in Example 2, except that the aforementioned microcapsule pigment (colored pink by cooling to -25 ° C or lower in advance) was used. Preparation of the Internal Filling Type Writing Instrument
[00207] An internal filling type writing instrument (marking pen) was prepared in the same manner as in Example 2, except that the reversibly thermochromic aqueous ink composition mentioned above was used.
[00208] Using the marking pen mentioned above, a pink letter (calligraphy) was formed by writing on a letter printed on a sheet of paper.
[00209] The letter mentioned above was pink at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction member adapted to the shaft body. This state was maintained at room temperature. When the sheet of paper was cooled to -25 ° C or lower, the color was returned to the original pink and the discoloration behavior was reproduced repeatedly. Example 13 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00210] A reversibly thermochromic microcapsule pigment was obtained in the same manner as in Example 3, except that the average particle diameter of the microcapsule pigment was adjusted to 1.3 pm.
[00211] The temperature for complete discoloration of the microcapsule pigment is 56 ° C, and the complete color temperature is -25 ° C. The pigment changes color from black to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00212] A reversibly thermochromic aqueous paint composition was prepared in the same manner as in Example 3, except that the aforementioned microcapsule pigment (colored black by cooling to -25 ° C or lower in advance) was used. Preparation of the Internal Filling Type Writing Instrument
[00213] An internal filling type writing instrument (marking pen) was prepared in the same manner as in Example 3, except that the reversibly thermochromic aqueous ink composition mentioned above was used.
[00214] Using the marking pen mentioned above, a black letter (calligraphy) was formed by writing on a sheet of paper.
[00215] The letter mentioned above was black at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction member adapted to the lid. This state was maintained at room temperature. When the paper sheet was cooled to -25 ° C or lower, the color was returned to the original black and the discoloration behavior was reproduced repeatedly. Comparative Example 1 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00216] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 1 (colored orange by cooling to -20 ° C or lower in advance), 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35.0 parts of glycerin, 0.02 part of a defoaming agent (based on silicone), and 38.48 parts of water.
[00217] The pH of the aforementioned ink composition was 6.60 and the surface tension was 40.5 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00218] The resulting ink composition was contained in a writing instrument in the same way as in Example 1, to obtain an internal filling type writing instrument (marking pen). Comparative Example 2 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00219] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly thermochromic microcapsule pigment prepared in Example 2 (colored pink by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside 369, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35.0 parts of glycerin , 0.02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00220] The pH of the aforementioned ink composition was 6.60 and the surface tension was 40.4 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00221] The resulting ink composition was contained in a writing instrument in the same way as in Example 2, to obtain an internal filling type writing instrument (marking pen). Comparative Example 3 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00222] A reversibly thermochromic aqueous paint composition was obtained by mixing 30.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 3 (colored black by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokustar HP, manufactured by Hokko Chemical Industry Co., Ltd., 2- (4-thiazoyl) -benzimidazole], 0.5 part of poly (vinyl alcohol), 35.0 parts of glycerin, 0.02 part of a defoaming agent (based on silicone), and 32.98 parts of water.
[00223] The pH of the aforementioned ink composition was 6.90 and the surface tension was 39.8 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00224] The resulting ink composition was contained in a writing instrument in the same manner as in Example 3, to obtain an internal filling type writing instrument (marking pen). Comparative Example 4 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00225] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 4 (colored yellow by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside NS, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00226] The pH of the aforementioned ink composition was 6.90 and the surface tension was 40.2 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00227] The resulting ink composition was contained in a writing instrument in the same manner as in Example 4, to obtain an internal filling type writing instrument (marking pen). Comparative Example 5 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00228] A reversibly thermochromic aqueous paint composition was obtained by mixing 20.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 5 (colored blue by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 30.0 parts glycerin, 0.02 part of a defoaming agent (based on silicone), and 47.98 parts of water.
[00229] The pH of the aforementioned ink composition was 6.85 and the surface tension was 40.5 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00230] The resulting ink composition was contained in a writing instrument in the same way as in Example 5, to obtain an internal filling type writing instrument (marking pen). Comparative Example 6 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00231] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 6 (colored yellow by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokustar HP, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00232] The pH of the aforementioned ink composition was 6.80 and the surface tension was 40.1 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00233] The resulting ink composition was contained in a writing instrument in the same manner as in Example 6, to obtain an internal filling type writing instrument (marking pen). Comparative Example 7 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00234] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 7 (colored blue by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokustar HP, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35.0 parts glycerin, 0.02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00235] The pH of the aforementioned ink composition was 6.78 and the surface tension was 39.8 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00236] The resulting ink composition was contained in a writing instrument in the same manner as in Example 7, to obtain an internal filling type writing instrument (marking pen). Comparative Example 8
[00237] Preparation of the Reversibly Termochromic Aqueous Paint Composition
[00238] A reversibly thermochromic aqueous paint composition was obtained by mixing 20.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 8 (colored pink by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 1.0 part of poly (vinyl alcohol), 33, 0 parts glycerin, 0.02 part defoaming agent (silicone based), and 44.48 parts water.
[00239] The pH of the aforementioned ink composition was 6.80 and the surface tension was 40.2 mN / m. Preparation of the Direct Liquid Type Writing Instrument
[00240] The resulting ink composition was contained in a writing instrument in the same manner as in Example 8, to obtain a direct liquid type writing instrument (marking pen). Comparative Example 9 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00241] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 9 (colored orange by cooling to -20 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35, 0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00242] The pH of the aforementioned ink composition was 6.85 and the surface tension was 40.0 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00243] The resulting ink composition was contained in a writing instrument in the same manner as in Example 9, to obtain an internal filling type writing instrument (marking pen). Comparative Example 10 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00244] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 10 (colored orange by cooling to -25 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35, 0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00245] The pH of the aforementioned ink composition was 6.80 and the surface tension was 39.8 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00246] The resulting ink composition was contained in a writing instrument in the same manner as in Example 10, to obtain an internal filling type writing instrument (marking pen). Comparative Example 11
[00247] Preparation of the Reversibly Termochromic Aqueous Paint Composition
[00248] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 11 (colored orange by cooling to -30 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35, 0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00249] The pH of the aforementioned ink composition was 6.90 and the surface tension was 41.0 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00250] The resulting ink composition was contained in a writing instrument in the same manner as in Example 11, to obtain an internal filling type writing instrument (marking pen). Comparative Example 12 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00251] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 12 (colored pink by cooling to -25 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35, 0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00252] The pH of the aforementioned ink composition was 6.90 and the surface tension was 41.0 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00253] The resulting ink composition was contained in a writing instrument in the same manner as in Example 12, to obtain an internal filling type writing instrument (marking pen). Comparative Example 13 Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00254] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the reversibly termochromic microcapsule pigment prepared in Example 13 (colored black by cooling to -25 ° C or lower in advance), 0.5 part of hydroxyethyl cellulose, 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd.], 0.5 part of poly (vinyl alcohol), 35, 0 parts glycerin, 0.02 part defoaming agent (silicone based), and 37.98 parts water.
[00255] The pH of the aforementioned ink composition was 6.78 and the surface tension was 41.5 mN / m. Preparation of the Direct Liquid Type Writing Instrument
[00256] The resulting ink composition was contained in a writing instrument in the same manner as in Example 13, to obtain an internal filling type writing instrument (marking pen).
[00257] Using the writing instrument obtained in each of the Examples and Comparative Examples mentioned above, the following tests were conducted. Vibration Test
[00258] Using the writing instrument obtained in each of Examples 1 to 13 and Comparative Examples 1 to 13, a line having a length of 20 cm was written ten times as ten lines, on a writing paper.
[00259] Its cover was adapted to the writing instrument used to write and was placed on an agitator [recipro-agitator manufactured by Taitec Corporation] in a raised state (the front end of writing was up). After the vibration was checked at 284 rpm, for 5 hours, in a vertical direction, under an environment of 25 ° C, a line having a length of 20 cm was written ten times as ten lines, on a writing paper, and the letter was compared to the letter before the test.
[00260] Furthermore, after a vibration was checked for 50 hours in a vertical direction, under an environment of 40 ° C, which is an assumption of long-term passage, a line having a length of 20 cm was similarly written ten times as ten lines, on writing paper, and the letter was compared to the letter before the test.
[00261] The results of the vibration test were shown in the table below.

The assessment of the symbols in the table is as follows: A: the disconnection is not observed on the letter compared to the initial and has the same color density as that of the initial; B: disconnection is observed at the beginning of writing and the letter density is reduced compared to the initial density. Aging Test
[00262] Four writing instruments obtained in each of Example 8 and Comparative Example 8 were prepared. Using each writing instrument, a line having a length of 20 cm was written ten times as ten lines on writing paper.
[00263] Its cover was adapted to the writing instrument used to write and was left to rest in a raised state (the front end of writing was up), at 25 ° C for 30 days for the first writing instrument , at 25 ° C for 60 days for the second writing instrument, at 50 ° C for 30 days for the third writing instrument, and at 50 ° C for 60 days for the fourth writing instrument. After that, in each case, a line having a length of 20 cm was written ten times as ten lines, on a writing paper, and the letter was compared with the letter before the test.
[00264] The results of the aging test are shown in the following table.
The assessment of the symbols in the table is as follows: C: the disconnection is not observed on the letter compared to the initial and has the same color density as that of the initial; D: disconnection is observed at the beginning of writing and the letter density is reduced compared to the initial density. Writing Sensation Test
[00265] Using each of the writing instruments obtained in Examples 1 to 13, 15 circles in a line were written 30 times as 30 lines, on a writing paper, and the sensation of writing was compared.
[00266] Consequently, the test of the sensation of writing was performed by 5 people from Test Persons A to E.
[00267] The results of the writing sensation test are shown in the table below.
The evaluation of the symbols in the table is as follows: S: very smooth writing can be done; A: smooth writing can be performed; B: writing is done with the usual writing sensation. Example 14 Preparation of Reversibly Thermochromic Microcapsule Pigment
[00268] A microcapsule pigment suspension was obtained, which contained a reversibly thermochromic composition having a color memory property and consisting of 3.0 parts of 1,3-dimethyl-6-diethylaminofluorane as component (A), 3.0 parts of 4.4 '- (2-ethylexane-1,1-diyl) diphenol and 5.0 parts of 2,2-bis (4'-hydroxyphenyl) -hexafluorpropane as component (B), and 50 , 0 parts of 4-benzyloxyphenylethyl caprate as component (C).
[00269] The above mentioned suspension was centrifuged to isolate a reversibly thermochromic microcapsule pigment.
[00270] The average particle diameter of the aforementioned microcapsule pigment is 2.5 pm, the complete decolorization temperature is 60 ° C, and the complete staining temperature is -20 ° C. The pigment changes from orange to colorless through a change in temperature. Preparation of Reversibly Thermochromic Aqueous Paint Composition
[00271] A reversibly thermochromic aqueous paint composition was obtained by mixing 25.0 parts of the aforementioned microcapsule pigment (colored orange by cooling to -20 ° C or lower in advance), 0.5 part of a polymer dispersant comb type [trade name: Solsparse 43000, manufactured by Lubrizol Japan Ltd.], 1.0 part of an organic sulfur nitrogen compound [trade name: Hokuside R-150, manufactured by Hokko Chemical Industry Co., Ltd., a mixture of 2-methyl-4-isothiazolin-3-one and 5-chloro-2-methyl-4-isothiazolin-3-one], 0.5 part of poly (vinyl alcohol), 35.0 parts of glycerin, 0 , 02 part of a defoaming agent (based on silicone), and 37.98 parts of water.
[00272] The pH of the aforementioned ink composition was 7.00 and the surface tension was 39.8 mN / m. Preparation of the Internal Filling Type Writing Instrument
[00273] An ink occlusion body, in which a loose polyester fiber was coated with a synthetic resin film, was impregnated with the aforementioned ink composition, received in a shaft body made of a polypropylene resin. , and grouped with a pen body processed with polyester fiber resin (cannonball type) on the front end of the shaft body via a support in the connected state, and a cap was then adapted to it, so a internal filling type writing instrument (marking pen). Preparation of the Writing Instrument Game
[00274] The aforementioned internal filling type writing instrument and a rectangular friction body made of a SEBS resin were combined to obtain a writing instrument set.
[00275] Using the aforementioned writing instrument, an orange letter (calligraphy) was formed by writing on a sheet of paper.
[00276] The letter mentioned above was orange at room temperature (25 ° C), but the letter discolored and became colorless when rubbed using the friction body. This state was maintained at room temperature. When the paper sheet was cooled to -20 ° C or lower, the color was returned to the original orange and the discoloration behavior was reproduced repeatedly.
[00277] Although the present invention has been described in detail and with reference to its specific modalities, it will be apparent to someone skilled in the art that various changes and modifications can be made to it, without departing from its spirit and scope.
[00278] This application is based on Japanese Patent Application No. 2009-189038, filed on August 18, 2009, and its entire contents are incorporated into this document by reference.
[00279] Description of Reference Numerals and Signs ti Temperature of complete coloration of a reversibly thermochromic microcapsule pigment, of the type that discolor with heat t2 Temperature of beginning of the coloration of a reversibly thermochromic microcapsule pigment, of the type that discolor with heat t3 Temperature of onset of discoloration of a reversibly thermochromic microcapsule pigment, of the type that discolor with heat t4 Temperature of complete discoloration of a reversibly thermochromic microcapsule pigment, of the type that discolor with heat Ti Temperature of complete discoloration of a reversibly thermochromic pigment thermochromic, of the type that colors with heat T2 Temperature of beginning of the discoloration of a reversibly thermochromic microcapsule pigment, of the type that colors with heat Ta Temperature of beginning of the coloring of a reversibly thermochromic microcapsule pigment, of the type that colors with heat T4 Temperature coloring o complete with a reversibly thermochromic microcapsule pigment, the type that colors with heat ΔH Hysteresis width 1 Writing instrument 2 Ink occlusion body 3 Pen body 4 Shaft body 5 Support 6 Cap 7 Friction member 8 Ink 9 Body stirring 10 Valve mechanism

权利要求:
Claims (12)
[0001]
1. A reversibly thermochromic aqueous paint composition, CHARACTERIZED by the fact that it comprises: water, 30 to 40% by weight, based on the total amount of the paint composition, of a water-soluble organic solvent, in which the organic solvent soluble in water is glycerin, a reversibly thermochromic microcapsule pigment, which contains a reversibly thermochromic composition comprising: (A) an electron donor dye organic compound, (B) an electron receptor compound, and (C) a reaction medium that determines the temperature at which color reactions occur between components (A) and (B), a comb-type polymer dispersant having carboxyl groups in its side chains, an organic sulfur nitrogen compound, and a water-soluble resin, in that the comb-type polymer dispersant is an acrylic polymeric compound having a plurality of carboxyl groups in its side chains.
[0002]
2. Reversible thermochromic aqueous paint composition according to claim 1, CHARACTERIZED by the fact that the organic sulfur nitrogen compound is at least one compound selected from the group consisting of 2- (4-thiazoyl) -benzimidazole, 2- (thiocyanatomethylthio) -1,3-benzothiazole, 2-methyl-4-isothiazolin-3-one, 5-chloro-2-methyl-4-isothiazolin-3-one.
[0003]
3. Reversible thermochromic aqueous paint composition according to claim 1 or 2, CHARACTERIZED by the fact that the mass ratio of the comb-type polymer dispersant having carboxyl groups in its side chains to the organic sulfur nitrogen compound is 1: 1 to 1:10.
[0004]
4. A reversibly thermochromic aqueous paint composition according to any one of claims 1 to 3, CHARACTERIZED by the fact that the pH of the paint composition falls within a range of 3 to 7.
[0005]
5. A reversibly thermochromic aqueous paint composition, according to claim 4, CHARACTERIZED by the fact that the water-soluble resin is soluble when the pH of the paint composition falls within a range of 3 to 7.
[0006]
6. A reversibly thermochromic aqueous paint composition according to any one of claims 1 to 5, CHARACTERIZED by the fact that the surface tension of the paint composition falls within a range of 25 to 45 mN / m.
[0007]
7. A reversibly thermochromic aqueous paint composition according to any one of claims 1 to 6, CHARACTERIZED by the fact that the organic sulfur nitrogen compound is at least one compound selected from the group consisting of thiazole compounds, compounds of isothiazole, benzothiazole compounds, and benzisothiazole compounds.
[0008]
8. Writing instrument, CHARACTERIZED by the fact that the reversibly thermochromic aqueous ink composition as defined in any one of claims 1 to 6 is received in a shaft body and which comprises a pen body that releases the ink composition in the body axis.
[0009]
9. Writing instrument according to claim 8, CHARACTERIZED by the fact that the rear end of the pen body comes into contact with an ink occlusion body containing a group of fibers received in the shaft body and the occlusion body of the ink is impregnated with the ink composition.
[0010]
10. Writing instrument according to claim 8 or 9, CHARACTERIZED by the fact that the pen body is a marking pen body.
[0011]
11. Writing instrument according to any one of claims 8 to 10, CHARACTERIZED by the fact that it comprises a friction member.
[0012]
12. Writing instrument set, CHARACTERIZED by the fact that it comprises the writing instrument as defined in any of the king vindications 8 to 10 and a friction body.

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法律状态:
2018-01-30| B25A| Requested transfer of rights approved|Owner name: KABUSHIKI KAISHA PILOT CORPORATION (ALSO TRADING A |

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2018-04-10| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

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2019-02-05| B06T| Formal requirements before examination [chapter 6.20 patent gazette]|

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2019-09-03| B07A| Application suspended after technical examination (opinion) [chapter 7.1 patent gazette]|

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2020-05-05| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

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2020-11-03| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 10 (DEZ) ANOS CONTADOS A PARTIR DE 03/11/2020, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

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申请号 | 申请日 | 专利标题

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JP2009189038A|JP5511259B2|2009-08-18|2009-08-18|Reversible thermochromic water-based ink composition, writing instrument using the same, and writing instrument set|

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JP2009-189038|2009-08-18|

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PCT/JP2010/063835|WO2011021610A1|2009-08-18|2010-08-16|Reversibly thermochromic aqueous ink composition, and writing instrument and writing instrument set each utilizing same|

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