JP2001323201A - Oil-based ink composition for ball-point pen - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an oil-based ink composition for ball-point pen free from writing disorder, that is, letters become thinner as writing proceeds, or the like, and ink leakage from the tip of the pen. SOLUTION: This oil-based ink composition for ball-point pen contains a coloring agent, an organic solvent and a resin. The resin includes a toluenesulfonamide-epoxy resin.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an oil-based ink composition for ball-point pens, and more particularly to an oil-based ink composition for ball-point pens that does not cause writing failure such as a decrease in density even when writing is completed.

[0002]

2. Description of the Related Art An oil-based ball-point pen has a simple structure in which a tube, which is filled with ink, is mounted on a component called a chip, which includes a ball for transferring ink to a tip thereof and a holder for receiving the ball. For this reason, the viscosity of the ink to be filled into the tube is set high,
In many cases, the viscosity is 10 Pa · s or more. However, when the environmental temperature is lowered, such as in winter, the viscosity may be further increased and the brush feeling may become heavy, and therefore, it may be set to about 5 Pa · s. In such a case, if the writing is continued for a long time, a problem may occur that the holder portion is damaged, the flow rate decreases, and the writing line becomes thinner than the initial one. In addition, ink leakage may easily occur from the ball portion at the tip of the chip.

[0003] A number of compositions are known for oil-based ballpoint pen inks. For example, Japanese Patent Application Laid-Open No. 08-311388 discloses that a fatty acid amide, which is a sagging agent often used in paints, is used to provide a smooth and good writing taste without sagging, blurring of handwriting, broken lines, and bleeding. The resulting ink compositions have been proposed.

[0004] In addition, since the viscosity in the ink storage cylinder is made relatively high by applying shear thinning viscosity to the ink and the viscosity becomes low during writing, the writing feeling is adjusted to enhance the ink holding property, and the ink from the tip is improved. As an example to prevent leakage,
In JP-A-11-116879, a crosslinked acrylic acid polymer is blended to impart a shear thinning property to the ink. In JP-A-10-251587, an N-vinylacetamide polymer is contained. Japanese Unexamined Patent Publication No. Hei 9-78021 discloses a method of blending a cross-linked N-vinylacetamide polymer into an ink composition to suppress the dripping of ink when a ballpoint pen tip is left facing downward.
It is described that a so-called sagging prevention property is exhibited.

[0005] These conventionally known oil-based ballpoint pen ink compositions and the like have obtained effects according to their respective purposes. However, especially when the writing is continued for a long time, the holder portion is damaged, the flow rate is reduced, the writing line becomes thinner than the initial one, and the countermeasure against this is not perfect. For this reason, there is a need for an oil-based ballpoint pen ink composition that can provide smooth writing and a good writing feel even when writing for a long time by suppressing the change in viscosity.

[0006]

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above circumstances, has a good writing feeling, does not cause writing defects such as a decrease in density even when writing is completed, and has a tip end. The present invention provides an oil-based ink composition for a ballpoint pen that does not cause ink leakage from the ball portion.

[0007]

Means for Solving the Problems The present inventors have conducted various studies in order to solve the above-mentioned problems, and as a result, have found that when a resin component contains toluenesulfonamide / epoxy resin, an excellent effect is exhibited. Was completed. That is, the present invention requires an oil-based ink for a ball-point pen containing a colorant, an organic solvent, and a resin, wherein the oil-based ink composition for a ball-point pen contains toluenesulfonamide / epoxy resin as the resin. Furthermore, the viscosity at 25 ° C. of the oil-based ink for a ballpoint pen is required to be 1 to 10 Pa · s. In addition, an oil-based ink composition for a ballpoint pen, in which the colorant is a mixture of a dye and a pigment, is required.

[0008]

Embodiments of the present invention will be described below in detail. Oil-based ballpoint pen ink of the present invention,
It is an oil-based ink for a ballpoint pen containing a colorant, an organic solvent, and a resin, and it is important that the resin contains toluenesulfonamide / epoxy resin.

According to the present invention, since the resin contains toluenesulfonamide / epoxy resin, the writing feeling is good, and it is possible to exhibit the effect of preventing writing defects such as a decrease in density even when writing is continued. Conceivable.
In addition, as a coloring agent of the present invention, a dye, a pigment, or a mixture thereof can be used.

The pigments used in the present invention include inorganic pigments such as carbon black and titanium dioxide pigments, azo-condensed azo pigments, phthalocyanine pigments, anthraquinone pigments, quinacdrine pigments, isoindolinone pigments, and diketo pigments. Organic pigments such as pyrrolopyrrole-based pigments and various lake pigments, fluorescent pigments, pearl pigments, metallic pigments such as gold and silver, and the like can be mentioned. In particular, the organic pigments preferably used in the present invention are not soluble in the organic solvent used, preferably an alcoholic solvent, and commercially available chromatic organic pigments such as blue, red, yellow, and green can be used.

More specifically, as the blue organic pigment, various blue pigments can be used.
ent Blue 15, 15: 1, 15: 2, 15: 3, 15: 4, 15: 6, 16, 17
, 28, 29, 36, CI Pigment Blue 60 and the like, and may be surface-treated with a surfactant or the like at the stage of pigment production. In particular, specific examples of blue pigments include Graphtol Blue 2GLS and Sandorin manufactured by Clariant.
Blue RL, Sandorin Blue91052, ICI Lutetiacy
anine CSN, Palomar Blue B4806 from Mobay, Palom
ar Blue B4707, Endurophtal Blue BT-7 from Worlee
88D, Cappelle's Phtalocyanine Blue RS1517C,
Heliogen Blue L6920 and Heliogen Blue L6 from BASF
875F, Heliogen Blue L6901F, Heliogen Blue 6905F
, Heliogen Blue L6975F, Heliogen Blue 6989F, He
liogen Blue L7072D, Heliogen Blue L7080, Helioge
n Blue L7101F, Heliogen Blue L6700F,

Monastral Blue FBN manufactured by Zeneca, Mon
astral Blue CSN, Monastral BlueFNX, Mondite Blue
RL, Catulia Cyanie L.PS, Woo S from Francolor
Cyanie Blue A-1700, Cyanie Blue B-7000 made by ung
, Cyanie Blue B-7800, Cyanie Blue B-8000, Sun
Sunfast Blue 249-1282, Francolor Cat
ulia Cyaninel.JS, Hostaperm Blue B manufactured by Hoechst
LF, Renol Bue A2RE, Irgalite Blue GLNF, Irgalite Blue GLVD, Irgal from Ciba Specialty Chemicals
ite Blue ATC, CROMOPHTAL Blue A3R, MICROLITH Blu
e 4G-WA, MICROLITH Blue 4G-A, Shepherd So
vereign Blue385, Holland Blue212, Kingfisher Blue
211, OIympic Blue 190,

Ultramarine Blue, Dai Colo manufactured by Luh
r Italy Blue EP37, Chromofine Blue4920, W
Orlee's Endurophtal Blue BT-729D, Heubach's Heucosine Blue G1737, Heucosine Blue HS-5000,
Lackecht Blue G1737, Kenalake LF from Kenalake
BRX, Chromofine Blue 4930 manufactured by Dainichi Seika Kogyo Co., Ltd.
, Chromofine Blue 5188, Chromofine Blue SR5020
, Fastogen Blue 50 manufactured by Dainippon Ink and Chemicals, Inc.
30L, Fastogen Blue 5420SD, Fastogen Blue5502, F
Astogen Blue TGR-F, Fastogen Blue EP-7, Cyanine Blue G-134, Cyanine Blue SAS,
There are pigments such as Cyanine Blue KRS and Cyanine Blue 4033.

As the red organic pigment, various red pigments can be used. For example, CI Pigment Red 17, 144, 16
6, 170, 177, 202, 214, 220, 254, 255, etc., and may be surface-treated with a surfactant or the like in the pigment production stage. Specific commercial names include Chromopht manufactured by Ciba Specialty Chemicals.
al DPP RED BO, Chromophtal DPP RED BP, Chromophtal
DPP RED DPP, Irgazin DPP Red BO, Irgazin DPP Red B
TR, Chromophtal RED A 2B, Chromophtal REDA 3B, Ch
romophtal Scarlet R, Chromophtal Scarlet RN, Chrom
ophtal ScarletBR, Chromophtal Red BRN, Cinquasia
Magenta TR 235-6, Dainichi manufactured by Dainichi Seika Industry Co., Ltd.
Fast Poppy Red G, Dainichi Fast Poppy Red R, Baye
Bayerrox Red 110M, Bayerrox Red 120MN, B manufactured by r
ayerrox Red 130M,

[0015] Toluidine Red G0335C manufactured by Cappelle,
Toluidine Red RNO333C, Bonitol Red BM, Bonitol Red
4844C, Lysopac Red 4841C, Cappoxyt Red 4435B, Cap
poxyt Red 4437B, Mineral Orange Thiosol GL, Minera
l Orange Thiosol G, Mineral Orange Solipur GH, Min
eral Red Solipur 3BH, Lysopac Red 7030C, Copperas Red R9998 from Hercos, Sicored L3750 from BASF
, Lithol Scharlach L4301, Litholechtmaroon L4763,
Sicoflush-P-Maroon 4763, Paliogen Redviolet L5080
, Sicotrans Red L2817, Sicomin Red L3025, Sicomin
Red L3230s, Sico Fast Scarlet L4252,

Heucotron Red 230, Palio, manufactured by Heubach
gen Red 3880HD, Paliogen L3920, Paliogen Red L4210
Horna Molybdato from Ciba Specialty Chemicals
r.MLN-74-SQ, Horna Molybdateor.MLH-740-Q, Irgal
ite Red 3RS, Toluidine Red L, Tolu from Woo Sung
idine Red K, Bon Red SR, Bon Red 3M, Bon Red MP, Fa
st Bordeaux C, Lake Red C-500, Lake Red C-900, Fas
t Red FGR, Chromophtal Red A2B, Chropmohtal Red A3
B, Novoperm Red Violet MRSnew, Perma from Hoechst
nent Bordeaux FGR, Permanent Red FGR70, Hostaperm
Rosa E, Novoperm Reel F3RK70, Quindo from Miles
Magenta RV6832, Perrindo Maroon from Bayer Mobay
Pigments such as R6422, Graphtol Red 5BLS from Sandoz.

As the yellow organic pigment, various yellow pigments can be used. For example, CI Pigment Yellow 1, 3,
12, 13, 14, 16, 17, 55, 81, 83, 74, 93, 94, 95, 9
7, 109, 110, 120, 128, 138, 147, 154, 155, 167, 18
5, 191 and the like, and may be surface-treated with a surfactant or the like in a pigment production stage. A specific example is Paliotol Yellow 2140HD, Sico manufactured by BASF.
pal Yellow L1110, Sicotan Yellow L1912, Sicomin Ye
llow L1622, Sicomin Yellow L1630S, SicominYellow L
1635S, Sicotrans Yellow L1916, Sico Yellow 1252HD,
Paliogen Yellow L1482, Paliogen Yellow L1560, Pal
iotol Yellow D1155, Paliotol YellowL0960HD,

Horna C manufactured by Ciba Specialty Chemicals
hrome Yellow GMX AX-15, Horna Chrome Yellow GMXAH-
35, Horna Chrome Yellow GU-15-SQ, Irgazin Yellow G
O, Irgazin Yellow 2RLT, Irgazin Yellow 3RLTN, Irga
zin Yellow 5GLT, Irgazin Yellow 2GLTE, Bayer Bayferrox 915, Bayferrox 920, Bayferrox 3420, B
ayferrox 3910, Bayferrox 3920, Hoechst Novo
perm Yellow H2G, Hostaperm Yellow H4G, Hostaperm Y
ellow H3G, Hostaperm Yellow H6G, Novoperm Yellow F
2G, Novoperm Yellow HR70,

Pigment Yellow 171 manufactured by Sanyo Pigment Co., Ltd.
7, Pigment Yellow 1450, Pigment Yellow 1710, Pigme
nt Yellow 1711, Pigment Yellow 1707, Pigment Yello
w 8104, Pigment Yellow 1425, Light Fast Pigment Ye
llow R, Dainichi Seika Co., Ltd. SEIKA FAST YELLOW 10GH,
SEIKA FAST YELLOW A-3, SEIKA FAST YELLOW 2035, SEI
KA FAST YELLOW 2054, SEIKA FAST YELLOW 2300, SEIKA
FAST YELLOW 2200, SEIKA FAST YELLOW 2270, SEIKA FA
ST YELLOW 2400 (B), SEIKA FAST YELLOW 2500, SEIKA FAS
T YELLOW 2600, SEIKA FAST YELLOW ZAY-260, SEIKA FA
ST YELLOW 2700 (B), SEIKA FAST YELLOW 2770, Clarian
t Sandrin Yellow 4G, PV FastYellow HGR, Nov
operm Yellow FGL, Novoperm Yellow H10G01, HANSA Ye
llow 10G, PV Fast Yellow H2G-01, Permanent Yellow
There are pigments such as NCG.

As the green organic pigment, various green pigments can be used. For example, CI Pigment Green 7, 17,
36, 50, 70 and the like, which may be surface-treated with a surfactant or the like during the pigment production stage. A specific example is Chromofine manufactured by Dainippon Ink and Chemicals, Inc.
Cyanine Green 2GN, Chromofine Cyanine Green 5301,
Chromofine Cyanine Green 2GN, Dainichi Cyanine G
reen 537, Dainichi Cyanine Green FG, Dainichi Cyan
ine Green FGH, Chromofine Green 5370, Fastogen Green 5005, Fastogen Green 5710 manufactured by Dainichi Seika Co., Ltd.
Fastogen Green B, Fastogen Green S, Fastogen Green
SF, Fastogen Green SO, Fastogen Green2YK,

Heliogen Green 8680 manufactured by BASF, Helio
gen Green 8681K, Heliogen Green8682T, Heliogen Gre
en 8730, Heliogen Green 8730K, Heliogen Green A, H
eliogen Green GNA, Heliogen Green G, Heliogen Gree
n GA, Heliogen Green GN, Heliogen Green GTA, Heliog
en Green GV, Heliogen Green GWS, Heliogen Green K
8730, Heliogen Green L 8730, Fastogen Green MY, Fa
stogen Green YCN, Helio Fast Green GT, Heliogen Gre
en 6G, Heliogen Green 6GA, Heliogen Green 8GA, Hel
iogen Green 9360, Heliogen Green K9360, Heliogen G
reen L 9140, Heliogen Green L 9361,

Iragal manufactured by Ciba Specialty Chemicals
ite Fast Brilliant Green 3GL, Iragalite Fast Brill
iant Green GL, Iragalite Green GLN, Iragalite Gre
en 6G, Liofast Green B23 manufactured by Toyo Ink Manufacturing Co., Ltd.
7, Lionol Green B 201, Lionol Green Y 102, Lionol
Green YS 07, Lionol Green 2Y301, Lionol Green 2YS,
Lionol Green 6YK, Lionol Green 6YKPCN, Polymon De
velopments Ltd.Polymo Green FBH, Polymo Gre
en FGH, Polymo Green 6G, Polymo Green G, Polymo Gre
en GN, Polymo Green GN 500, S manufactured by Sanyo Pigment Co., Ltd.
anyo CyanineGreen, Sanyo Phthalocyanine Green F6G,
Sanyo Phthalocyanine Green FB, Sanyo Phthalocyani
ne Green FB Pure, SAX, SAX (pigment), Sanyo Phthalo
There are pigments such as cyanine Green 6YS.

These organic pigment particles may be used alone or in combination of two or more. These organic pigment particles have an average particle diameter of 100 nm to 400 nm.
It is preferable that the fine particles are dispersed and contained in the ink composition in the form of fine particles within the range of nm. 10 in average particle size
If it is 0 nm or less, the specific surface area increases, and depending on the concentration, it is disadvantageous for quick writing during writing. On the other hand, when the thickness is 400 nm or more, the storage stability deteriorates. Here, the average particle diameter is measured by a light (laser) scattering diffraction type particle size distribution analyzer.

The oil-soluble dye used in the present invention includes:
Conventionally used dyes can be mainly used, and examples thereof include organic solvent-soluble dyes classified as solvent dyes in the color index.
Specific examples of the solvent dye include Balifast Black 3806 (CI Solvent Black 29), 3807 (Trimethylbenzylammonium salt of CI Solvent Black 29 dye), and Spirit Black SB (CI Solvent Black). Black 5), Spiron Black GMH _sp (CI Solvent Black 43),
Balifast Red 1308 (a salt-forming product of a dye of CI Basic Red 1 and a dye of CI Acid Yellow 23), Balifast Yellow AUM (a dye of CI Basic Yellow 2 and a CI Acid Yellow 4
2), Spiron Yellow C2GH (C.I.
I. Organic salt of basic yellow 2 dye),

Spiron Violet CRH (CI Solvent Vaseiolet 8-1), Balifast Violet 1701 (CI Basic Violet 1)
And C. I. Acid Yellow 42 dye salt form), Spiron Red CGH (organic acid salt of CI Basic Red 1 dye), Spiron Pink BH (CI Solvent Red 82), Nigrosine Base EX (CI Solvent) Black 7), Oil Blue 603 (CI.
Solvent Blue 5), Neozapon Blue 808 (C.I.
I. Solvent Blue 70), Aizen Spilon Yellow C-
GNH, Aizen Spilon Blue C-RH, Savinyl Blue GLS, SP
T Blue 111 and the like.

The colorant used in the present invention may be one or more of the above-mentioned dyes and pigments, or a mixture of the above-mentioned dyes and pigments. It is preferable that the total content be 5 to 40% by weight. If it is less than 5% by weight, adverse effects such as fading in drawing line density or the like occur, and if it is more than 40% by weight, fluidity and solubility of dissolved components are deteriorated, and storage stability is deteriorated.

The organic solvent is added for adjusting the viscosity and accelerating the dissolution of the dye, and may be any solvent which does not dissolve the above-mentioned organic pigment particles, and may be ethylene glycol, diethylene glycol, propylene glycol, dipropylene glycol, or ethylene glycol. Glycol solvents such as xylene glycol, ethylene glycol monomethyl ether, ethylene glycol monoethyl ether, ethylene glycol monobutyl ether, ethylene glycol monohexyl ether, ethylene glycol monophenyl ether, diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, diethylene glycol monobutyl ether, Ethylene glycol monohexyl ether, diethylene glycol monophenyl ether,
Propylene glycol monomethyl ether, propylene glycol monoethyl ether, propylene glycol mononormal butyl ether, propylene glycol monophenyl ether,

Dipropylene glycol monomethyl ether, dipropylene glycol monoethyl ether, dipropylene glycol mononormal butyl ether, dipropylene glycol monophenyl ether, tripropylene glycol monomethyl ether, tripropylene glycol monoethyl ether, tripropylene glycol mononormal butyl ether; Ether solvents such as tripropylene glycol monophenyl ether, alcohol solvents such as benzyl alcohol and α-methylbenzyl alcohol, propylene glycol methyl ether acetate, propylene glycol diacetate, N-methyl-2-pyrrolidone, water and the like can be used. . These solvents can be used alone or as a mixture. The use amount thereof is preferably 35 to 80% by weight based on the total amount of the oil-based ink composition for a ballpoint pen.

The toluenesulfonamide / epoxy resin used in the present invention is a synthetic resin made of Tosylamide / Epoxy Resin.
Also called in, it is estimated to have the following structural formula.

Embedded image

As a commercially available product, Decoset-z (Decorativ
e), Lustrabrite S n> 1 (Telechemische), Lustrabri
te S-70 n> 1 (Telechemische), Nagellite 3050-80 (Telechem
chemlsche), Nagellite3050 n> 1 (Telechemlsche), Pol
There are ytex Resin (Estron), PolytexE-100 (Estron) and the like. Toluenesulfonamide / epoxy resin can be used in an amount of 1 to 30% by weight of the total composition, preferably 5 to 30% by weight.
１５15% by weight. When the amount is less than 1% by weight, the effect of the present invention is inferior. When the amount exceeds 30% by weight, poor writing tends to occur due to an increase in viscosity.

Toluenesulfonamide / epoxy resin is added to improve the fixability, prevent hand-through of a handwriting, adjust the function of an organic pigment as a dispersant, adjust the viscosity, and promote the dissolution of a dye. In the present invention, such a toluenesulfonamide / epoxy resin may be used alone, or may be used by being appropriately mixed with another resin. Other resins include, for example, cyclohexanone, acetophenone, condensation resins of ketones such as urea and formaldehyde, condensation resins of cyclohexanone and hydrogenated resins thereof, maleic acid resins, copolymers of styrene and maleic ester, styrene And a copolymer of acrylic acid or an ester thereof,

Polyvinylpyrrolidone, polyvinyl butyral, polyvinyl acetal, polyamide which is a condensate of a polymerized fatty acid and a polyamine, epoxy resin, polyvinyl alkyl ether, coumarone-indene resin, polyterpene, xylene resin, rosin-based resin and hydrogenated products thereof Rosin-modified maleic acid resin, vinylpyrrolidone-vinyl acetate copolymer, polymethacrylic acid ester,
Examples include polyacrylic acid-polymethacrylic acid copolymers, polyoxyethylene and phenol resins. These resins can be used alone or as a mixture.

The oil-based ink composition for a ballpoint pen of the present invention may contain a higher fatty acid, a phosphate ester-based lubricant, a nonionic surfactant having a long-chain alkyl group, or the like as a lubricant. Is most preferably used. It is not clear why the oil-based ballpoint pen ink of the present invention is an oil-based ink composition ink for a ballpoint pen that has a good writing feel and does not cause poor writing such as a reduced density even when writing is completed, although toluene sulfone is not known. It is presumed that the amide / epoxy resin suppresses a change in the viscosity of the ink even when the liquid temperature rises and falls, has flexibility, and is due to its structure.

For the preparation of the oil-based ballpoint pen ink composition for writing, a conventionally known method for producing an ink composition can be applied. That is, the solvent-soluble component can be obtained by dissolving each component with a stirring and mixing machine to obtain an oil-based ink composition for a ball-point pen, and when a pigment is used as chromatic particles, the pigment is dispersed with a dispersing mixer and the like. The oil-based ink composition for ball-point pens and the like can be obtained by dispersing together with the above components and then additionally mixing the necessary components. At the time of production, heating for dissolving solids such as dyes, and use of a filter, a centrifuge, or the like for removing coarse particles such as organic pigments can be used as necessary.

[0035]

EXAMPLES The present invention will be described in more detail with reference to Examples, Comparative Examples and Test Examples of the present invention, but the present invention is not limited by the Examples.

Examples 1 to 4 and Comparative Examples 1 to 3 Oil-based ballpoint pen inks comprising a combination of an oil-soluble dye, various organic pigment particles, an organic solvent, a resin and a lubricant were produced by the following production method. In the production of ink, the organic pigment is first dispersed using a resin as a dispersant and dispersed in a well-known method, for example, using a ball mill or three rolls, and then transferred to a container equipped with a reflux condenser and a stirrer. After that, other components were added, the mixture was stirred at 60 ° C. for 10 hours, and impurities were removed by filtration under pressure to prepare oil-based ink compositions of Examples 1 to 4 and Comparative Examples 1 and 2 shown in Table 1. The numerical values of the compositions in Table 1 indicate parts by weight. The viscosity of the ink was measured with a cone-plate viscometer (TV-20 type, manufactured by Tokimec Co., Ltd.).

[0037]

[Table 1]

Each of the inks for oil-based ballpoint pens prepared in the above Examples and Comparative Examples was filled into a polypropylene tube and a refill having a stainless steel tip (ball is a super-steel alloy, having a diameter of 0.7 mm). Assembled on the shaft of SA-R manufactured by K.K. The following brush test was conducted using these refills or oil-based ballpoint pens, and the results are shown in Table 2.

<Brush Feeling Test> The drawing line after 1000 m of writing was evaluated on the basis of writing. ：: Same as the initial state Δ: Slightly lower than the initial state ×: Thinner than the initial state An ink dripping test after 50 days at 50 ° C. was evaluated based on the writing criteria. ：: No ink is discharged on the ball portion at the tip of the chip. Δ: Ink is slightly discharged on the ball at the tip of the chip. □: The ink covers almost the entire ball at the ball portion at the tip of the chip. ×: Ink hangs down.

[0040]

[Table 2]

[0041]

Since the oil-based ballpoint pen ink of the present invention contains a flexible toluenesulfonamide / epoxy resin as a resin, it has a good writing feel and causes poor writing such as a low density even after writing. Demonstrate the effect that does not have.

Claims (2)

[Claims] 1. An oil-based ink composition for a ball-point pen containing a colorant, an organic solvent, and a resin, characterized by containing toluenesulfonamide / epoxy resin as a resin. 2. The oil-based ink composition for a ball-point pen according to claim 1, wherein the viscosity of the oil-based ink for a ball-point pen at 25 ° C. is 1 to 10 Pa · s.