CN1121874A - Ballpoint pen containing an aqueous ink composition - Google Patents
Ballpoint pen containing an aqueous ink composition Download PDFInfo
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- CN1121874A CN1121874A CN95102909A CN95102909A CN1121874A CN 1121874 A CN1121874 A CN 1121874A CN 95102909 A CN95102909 A CN 95102909A CN 95102909 A CN95102909 A CN 95102909A CN 1121874 A CN1121874 A CN 1121874A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B43—WRITING OR DRAWING IMPLEMENTS; BUREAU ACCESSORIES
- B43K—IMPLEMENTS FOR WRITING OR DRAWING
- B43K1/00—Nibs; Writing-points
- B43K1/08—Nibs; Writing-points with ball points; Balls or ball beds
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- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09D—COATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
- C09D11/00—Inks
- C09D11/16—Writing inks
- C09D11/18—Writing inks specially adapted for ball-point writing instruments
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- Chemical & Material Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Materials Engineering (AREA)
- Wood Science & Technology (AREA)
- Organic Chemistry (AREA)
- Inks, Pencil-Leads, Or Crayons (AREA)
- Pens And Brushes (AREA)
Abstract
A ballpoint pen contains an aqueous ink composition into which ink is directly filled. The pen is free from ink dripping and has improved writing performance. The aqueous ink composition is directly filled into an ink reservoir tube equipped with a ballpoint pen tip. The aqueous ink composition includes (a) an aqueous medium, (b) a pigment and (c) a carboxyl group-containing crosslinked hydrophilic polymer. The ink reservoir tube tip has a clearance between a ball and a ball receiver in the range of 10 to 40 mu m.
Description
The present invention relates to a kind of ballpoint pen that the water-base ink mixture is housed.The present invention be more particularly directed to have a kind of like this ballpoint pen of water-base ink mixture, promptly, this water-base ink mixture can directly be filled in the ink storage tube directly to the ball-point pen tip ink supply, need not to use ink absorption part, providing ink bar and providing ink bar control piece.
The ballpoint pen that the water-base ink mixture is housed can roughly be divided into (a) (b) (c) three class ballpoint pens.In (a) class ballpoint pen, ink is absorbed by an ink absorption part that is arranged in the ink storage tube, and this ink supplies on the ball-point pen tip by an ink supply conduit that is arranged between ink storage tube and the ball-point pen tip.In (b) class ballpoint pen, the ink that directly is filled in the ink storage tube supplies to ball-point pen tip by a providing ink control piece and a providing ink bar that is arranged between ink storage tube and the ball-point pen tip.In (c) class ballpoint pen, ink directly is filled in the ink storage tube, can directly providing ink be need not to use ink absorption part, providing ink bar and providing ink controller to ball-point pen tip.
The advantage of above-mentioned (c) class ballpoint pen is, can store a large amount of inks and these inks can use, but,, therefore need reach such requirement: promptly because (c) the class ballpoint pen has above-mentioned structure, when ballpoint pen is packed up the not time spent, ink need be in high viscous state, leaks by ball-point pen tip to prevent ink, but when ballpoint pen uses, the ball of ballpoint pen rotates the shearing that ink is produced need make ink viscosity reduce, thereby makes ink can flow through nib.In addition, also have such strict demand: promptly, when ball-point pen tip must prevent the ink drip vertically downward the time, even also should be like this when the envrionment conditions such as temperature and humidity changes.Another requirement is, ink is in that supply with should be smooth when writing setting-out, and any disconnected black phenomenon that do not have produces, and the lines of being write should have higher contrast ratio, and keep clear for a long time.
In order to satisfy above-mentioned requirement, existing at present multiple suggestion, but the suggestion that can fully satisfy above-mentioned requirements is not seen so far as yet.
For example, people proposed a kind of like this ink that is used for writing implement, in this ink, used a kind of acrylic resin, thereby make ink have thixotropism (Japanese Patent Application Publication-49678/1982), but, this ink has a shortcoming when being used for above-mentioned (c) type ballpoint pen, it can not prevent when ball-point pen tip is upright at nib place generation drip phenomenon.
An object of the present invention is: provide a kind of ink directly to fill out filling formula ballpoint pen, this can satisfy above-mentioned requirement, and a kind of ballpoint pen with good antidrip performance of ink particularly is provided.
The inventor is through conscientiously research back discovery meticulously, if in ink, use a kind of specific cross-linked hydrophilic polymer, this polymkeric substance expands in ink and disperses with colloidal state, simultaneously the particle diameter of expansible colloidal solid is in a specific scope, so, when this ink be used in combination with a ball-point pen tip and this nib in ball and the gap between the round-bead seat in a specified range time, above-mentioned purpose can realize by the synergy of this mixture.Therefore, the present invention finishes on the basis of this understanding just.
That is to say, the present invention includes following aspect:
1. a ballpoint pen that the water-base ink mixture is housed, water-base ink mixture is wherein made like this, that is, directly (A) a kind of water-base ink mixture is joined in (B) ink storage tube; At this, said water-base ink by (a) aqueous medium, (b) dyestuff and (c) a carboxylic cross-linked hydrophilic polymer form, said cross-linked hydrophilic polymer expands with colloidal state and disperses, particle diameter is 0.5 to 10.0 μ m, and it is to contain carboxylic monomer and a kind ofly use when needed with this monomer with a kind of, and but 0.5 mole of % of the two total amount of monoene monomer of copolyreaction or bigger amount and a kind of crosslinkable monomer carry out crosslinkedly, and this crosslinkable monomer has the insatiable hunger of at least two polymerizables reactions and closes hydrocarbon; And said storage tube and such ball-point pen tip are fitted together, and promptly in this ball-point pen tip, the gap between ball and the round-bead seat is between 10.0 to 40.0 μ m.
2. according to the ballpoint pen that the water-base ink mixture is housed of paragraph 1, wherein, used ink is made of 5 to 90% water (by weight), 0 to 50% wetting agent (by weight), 1 to 50% dyestuff (by weight) and 0.1~2.0% carboxylic cross-linked hydrophilic polymer (by weight).
3. according to the ballpoint pen that the water-base ink mixture is housed of paragraph 1 or 2, wherein, the amount of water to be mixed was 25 to 85% (by weight).
4. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 3, wherein, carboxylic cross-linked hydrophilic polymer is the polymkeric substance of a kind of carboxylic monoene monomer and crosslinkable monomers.
5. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 3, wherein, carboxylic cross-linked hydrophilic polymer is by a kind ofly containing carboxylic monomer, a kind ofly can constituting with this monoene monomer and said crosslinkable monomer that contains the carboxylic monomer copolyreaction.
6. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 5, wherein, carboxylic cross-linked hydrophilic polymer is a kind of and one or more monomer crosslinked polymkeric substance, at this, said monomer is chosen the family that the polyoxyethylene glycol divinyl ether of two unsaturation bases, a kind of allyl sucrose and a kind of Acrylic Acid Monomer with polymerizable functional constitute from having by one at least.
7. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 6, wherein, a kind of anticorrosive lubricant is joined in the ink.
8. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 7, wherein, a kind of pH regulator agent is joined in the ink.
9. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 8, wherein, a kind of sterilant is joined in the ink.
10. according to the ballpoint pen that the water-base ink mixture is housed of one of paragraph 1 to 9, wherein, one mainly is made of to prevent that the stopper that ink leaks by an ink storage tube afterbody is inserted in the opposite side relative with ink storage tube installation ball-point pen tip one side lubricating grease.
The present invention is characterized in, use a kind of carboxylic polymkeric substance of cross-linked hydrophilic, this polymkeric substance expands with granular colloidal state and disperses, particle diameter is 0.5 to 10.0 μ m, and this polymkeric substance is to contain carboxylic monomer and a kind ofly use when needed and but the two 0.5 mole of % of total amount or bigger amount and a kind of crosslinkable monomer of the monoene monomer of copolyreaction carries out crosslinkedly with this monomer with a kind of, and this crosslinkable monomer has the unsaturated hydrocarbons that at least two polymerizables react.
Above-mentioned cross-linked hydrophilic polymer is a kind of such polymkeric substance: promptly in this polymkeric substance, have the monomer of carboxyl and crosslinkable monomer crosslinked, form a kind of tridimensional network.
The example that is used to form the monomer of above-mentioned cross-linked hydrophilic polymer comprises: contain carboxylic monomer, such as vinylformic acid, methacrylic acid, propylenedicarboxylic acid, MALEIC ANHYDRIDE MIN 99.5 and fumaric acid, they can use or individually with two kinds or more kinds of being used in combination.In addition, acrylamide or V-Pyrol RC also can be used as a kind of hydrophilic monomer together.
Crosslinkable monomeric example comprises: have the alkylene ether of two unsaturated groups at least, such as glycol ether bi-vinyl ether and polyoxyethylene glycol bi-vinyl ether, propenyl sucrose and Acrylic Acid Monomer with polymerizable functional such as front three.
When but the monomer that use contains carboxylic monomer or this monomer and copolyreaction uses together, but the monomeric consumption of copolyreaction is 0.5 mole of % or be that the basis is more more with the total monomer amount preferably, to be suitable for forming cross-linked hydrophilic polymer with good three-dimensional net structure and it can expand and disperse with colloidal state in ink.If the amount of crosslinkable monomers is less than 0.5 mole of %, and three-dimensional net structure will be very weak, can not form expansible colloid discrete particles and formed polymkeric substance not dissolve in ink, this ink of result is easy to drip with the ball-point pen tip place.
The blended example is as follows mutually with crosslinkable monomer for carboxylic monomer.
(1) two Vinyl Ethers of 11.8 parts of acryloyls (is 0.164 part by mole) and 0.3 portion by weight (is 0.0016 part by mole) crosslinkable monomers glycol ether by weight, in the case, crosslinkable monomers accounts for 1.0 moles of %.
(2) the glycol ether diisobutylene acidic group ether of the methacrylic acid monomer of 100 parts (by 1.16 parts of moles) and 2.5 parts by weight (by mole 0.012 part) by weight, at this moment, crosslinkable monomer is roughly 1.0 moles of %.The polyoxyethylene glycol bi-vinyl ether of the MALEIC ANHYDRIDE MIN 99.5 of (by 0.020 part of mole) and 0.6 part by weight (by 0.00185 part of mole), at this, the content of crosslinkable monomers is approximately 1.2 moles of %.
Contain that the multipolymer of carboxylic monomer and crosslinkable monomers can be carried out polyreaction usually in the undissolvable solution of a kind of this multipolymer and the powder that forms a kind of white.This powder has constituted and can expand and the dispersed crosslinked hydrophilic polymer with colloidal state in ink.
This stability that can improve ink in ink with colloidal state expansion and dispersed crosslinked hydrophilic polymer extremely effectively used in this invention makes ink become a stable creeping liquid.
The example that can be used for aqueous medium of the present invention comprises water and a kind of mixture that is made of water and wetting agent.Mixing wetting agent is to evaporate from ink for anti-sealing, the example of wetting agent comprises water soluble compounds, such as ethene glycol, propylene glycol, glycerol, divinyl glycol, triethylene glycol, two propylene glycol, sulfo-glycol ether, polyglycerol, polyethylene glycol, polypropylene glycol, methylcyclohexane, ethylene glycol butyl ether, methyl carbitol and ethyl carbitol.These wetting agents can use separately, also can two kinds or multiple being used in combination.The blending ratio of aqueous medium is 5% to 90% water and 0 to 50% wetting agent by weight, and preferably 25% to 90% water and 0% to 50% wetting agent are more preferably 30% to 85% water and 0% to 50% wetting agent.
In the present invention, color is taken as the tinting material use.Pigment is compared with dyestuff and can be improved the contrast gradient of writing lines and it has good anti-water and anti-point, can keep the sharpness of lines muchly.Not having what special restriction at this for employed pigment, for example can be pigment dyestuff, mineral dye and high-visibility pigment, and these pigment can use separately, also can the two or multiple being used in combination.The amount of pigment to be mixed is preferably in 1% to 50% scope by weight.About the amount of pigment to be mixed, the amount of mineral dye and pigment dyestuff in 1% to 50% scope, is preferably 1% to 30% by weight, and the amount of high-visibility pigment is preferably 5% to 50% by weight in 1% to 50% scope.
Carboxylic polymer loading is preferably 0.1% to 2.0% by weight.If the number of expansion colloid discrete particles is less, then the particle interaction between expansion colloid discrete particles and pigment is just insufficient, prevents that therefore ink is also just very weak from the effect of ball-point pen tip drippage.
On the other hand, if the number of expansion colloid discrete particles is more than what need, then the particle interaction between expansion colloid discrete particles and pigment is just too strong, thereby make this mutual one to act on when writing and can not rotate the shearing force that is produced and destroy fully by ball, the result causes making ink to flow becoming not smooth.
Therefore, in the present invention, the number that is used for forming at ink the cross-linked hydrophilic polymer of expansion colloidal solid is preferably in the 0.1%-2.0% scope of (by weight).
By the way, the advantage that pigment has is that ink can utilize a kind of waterborne pigment dispersant manufacturing at an easy rate.
The example of the anticorrosive lubricant of available comprises tensio-active agent, 124 Triazole and the fatty acid ester of phosphoric acid.The nib that the ballpoint pen of water-base ink mixture is housed is made of a metal ball and a round-bead seat, and because ink is a water-based, so dust often invests the rotation that ball hinders ball.The anticorrosive lubricant that is blended in the ink not only can prevent the generation of dust, and can make the rotation of ballpoint pen become smooth.The quantity of anticorrosive lubricant to be mixed was preferably in for 0.2 to 2.0% (by weight).
In addition, a kind of pH value conditioning agent can be mixed with the amount of 0.1 to 6.0% (by weight).The example of this pH value conditioning agent comprises single acetyl amine, diethylamide, triacetamide, N, the two methylacetamides of N-, N, N-diethylamide ethanamide, N, two butyl acyl ethanamides of N-and N-methylamine diethylamide.
In ink, expand and during the cross-linked hydrophilic polymer of dispersoid state, the neutralization reaction of carboxyl can acceleration expansion.Thereby it is effectively mixing pH value conditioning agent, and in the example that is described below, various kinds of amine can add as pH value conditioning agent.
In this linking, when previous with sodium or analogue in and the salt that carboxyl generated of cross-linked hydrophilic polymer when being utilized pH value conditioning agent always unessential yet.
If desired, can in ink, mix and add a kind of sterilant, to improve the shelf characteric of ink.The example of sterilant comprises 1,2-phenyl isothiazoline, Sodium Benzoate and sodium dehydroacetate.
Second of the present invention is characterised in that, be between 10.0 to 40.0 μ m in the ball and the gap between the round-bead seat that constitute ball-point pen tip, and this ball-point pen tip is used in combination with above-mentioned ink.
According to experimental result, if the particle diameter of expansible colloid discrete particles less than 0.5 μ m, these particles are almost dissolved so, so the drip phenomenon of ink can not prevent.If particle diameter is greater than 10.0 μ m, ink is difficult to flow through ink channel so, makes the flowability of ink degenerate.In addition, if the above-mentioned gap in the ball-point pen tip is less than 10.0 μ m, although this flowability to the drip phenomenon ink that can prevent ink degenerates so.If the gap is greater than 40.0 μ m, ink will produce drip phenomenon, particularly surpass in 90% the environment in relative humidity, and the drip phenomenon of ink is easy to see.
Thereby the particle diameter of expansible colloid discrete particles needs the scope at 0.5 to 10.0 μ m in the ink, need be in the scope of 10.0 to 40.0 μ m at ball that constitutes ball-point pen tip and the gap between the round-bead seat.If these two requirements can not all be met, ink will produce drip phenomenon so, and its flowability will degenerate, and ballpoint pen just can not have good writing quality thus.
Such effect can not obtain the explanation of entirely accurate in theory, but, the inventor can infer, if the particle diameter of expansible colloid discrete particles and the gap in the ball-point pen tip are in suitable scope, so when the ballpoint pen that water-base ink is housed is not used.Gap in the ball-point pen tip is sealed by expansible colloid discrete particles by intergranular interaction, thereby has prevented that ink from dripping from ball-point pen tip.On the other hand, owing to shear action is arranged in ink when just ball rotates when writing, so above-mentioned interaction is destroyed, ink just can successfully flow out by the gap in the ball-point pen tip like this.
In the present invention, aqueous medium, pigment, cross-linked hydrophilic polymer, if necessary, also have pH value conditioning agent, tensio-active agent and sterilant to make ink, and particle size adjustment shear agitation in dispersion process of expansible colloid discrete particles is finished by mixing and disperseing.Dispersion process can be finished by certain agitator or decollator.Yet, in 1000r.p.m or lower low shear agitation process, (promptly stir) with the homodisperse device, the particle diameter of made colloidal solid is outside above-mentioned scope, and in 3000r.p.m or higher shear agitation process, the particle diameter of made colloidal solid is within above-mentioned scope.Particle grain size can be measured by general opticmicroscope.
As shown in Figure 1, the gap between ball and round-bead seat can be measured like this,, with when a digital indicator 2 contacts, promotes balls 4 with a pin 3 that inserts from the ball-point pen tip afterbody at the top that makes ball pen head 1 that is, shows device and measures thereby promote numeral.In the accompanying drawings, with reference to digital 6 being anchor clamps, digital 7 is guide rails of a pin, and digital 8 is one to be used for the guide rail of digital indicator axle 5.
Ball-point pen tip of the present invention can be referred to traditional conical ball-point pen tip.This class nib has a metal ball and and is used to receive a holding portion and a tubular ball-point pen tip that holds ball, and in this tubular ball-point pen tip, ball is clamped in the round-bead seat that is made of a metal tube top.According to writing the needed thickness of lines, the diameter of ball can be in 0.3 to 0.6mm scope.
Below with reference to some examples the present invention is described in detail.
(1) preparation mixing solutions
Mixed solution A
The mixed preparation mixed solution A of following material:
Glycerol (a kind of wetting agent) 30.0 parts (by weight)
Triacetamide (a kind of pH value conditioning agent) 1.8 parts (by weight)
The phosphoric acid Voranol EP 2001
(a kind of tensio-active agent) 1.0 parts (by weight)
10% propylene glycol solution of 1,2 phenyl isothiazoline-3-1
(a kind of antiseptic-germicide) 0.2 part (by weight)
15.0 parts of ion exchanged waters (by weight)
Mixing solutions B
The mixed preparation mixing solutions of following material B:
Glycerol (a kind of wetting agent) 20.0 parts (by weight)
Triacetamide (a kind of pH value conditioning agent) 0.8 part (by weight)
The phosphoric acid Voranol EP 2001
(a kind of tensio-active agent) 1.0 parts (by weight)
10% propylene glycol solution of 1,2 phenyl isothiazoline-3-1
(a kind of antiseptic-germicide) 0.2 part (by weight)
25 parts of ion exchanged waters (by weight)
Mixed solution C
The mixed preparation mixed solution C of following material:
Ethene glycol (a kind of wetting agent) 30.0 parts (by weight)
Triacetamide (a kind of pH value conditioning agent) 0.8 part (by weight)
The phosphoric acid Voranol EP 2001
(a kind of tensio-active agent) 1.5 parts (by weight)
10% propylene glycol solution of 1,2 phenyl isothiazoline-3-1
(a kind of antiseptic-germicide) 0.2 part (by weight)
17.1 parts of ion exchanged waters (by weight)
Mixing solutions D
The mixed preparation mixing solutions of following material D:
Ethene glycol (a kind of wetting agent) 10.0 parts (by weight)
Glycerol (a kind of wetting agent) 10.0 parts (by weight)
Triacetamide (a kind of pH value conditioning agent) 0.8 part (by weight)
Phosphoric acid polyoxyethylene groups ether
(tensio-active agent) 1.5 parts (by weight)
10% propylene glycol solution of 1,2 phenyl isothiazoline-3-1
(antiseptic-germicide) 0.2 part (by weight)
27.1 parts of ion exchanged waters (by weight)
Mixing solutions E
The mixed mixing solutions E that is prepared into of following material:
20.0 parts of glycerol (wetting agent) (by weight)
N, N-diethylamide ethanamide
(pH value conditioning agent) 0.8 part (by weight)
Phosphoric acid polyoxyethylene groups ether
(tensio-active agent) 1.5 parts (by weight)
10% propylene glycol solution of 1,2 phenyl isothiazoline-3-1
(antiseptic-germicide) 0.2 part (by weight)
27.1 parts of ion exchanged waters (by weight)
(2) ink mixing example
Mix example 1:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Works company limited produces to part Chichicaca Color Red F-14 by weight, solids content wherein is 16%), 2.6 part ion exchanged water and 0.4 part of crosslinked acrylic resin by weight by weight is added among 47.0 parts of mixing solutions B by weight, wherein crosslinked acrylic resin is to carry out crosslinked with 1.2% (by a mole) that contains carboxylic monomer with a kind of crosslinkable monomer.Then, at 50 to 60 ℃, by a homodisperse device with 3000r.p.m dispersed with stirring 20 minutes, thereby make a kind of ink of redness.
At this, the crosslinked acrylic resin in the ink is in a kind of colloid dispersive state, and according to microscopical observation, its colloidal particle diameter is in 1 to 2mm scope.
Mix example 2:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Works company limited produces to part Victoria Color Pink G23 by weight, solids content wherein is 40%), 1.6 part ion exchanged water and 0.4 part of crosslinked acrylic resin by weight by weight is added among 48.0 by weight the mixing solutions B, wherein crosslinked acrylic resin carries out crosslinked with 0.8% (by a mole) that contains carboxylic monomer.Then finish the step the same and make the peach ink of a kind of fluorescence with mixing example 1.
At this, the crosslinked acrylic resin in the ink is in a kind of colloid dispersive state, and according to microscopical observation, its colloidal particle diameter is in the scope of 1 to 2 μ m.
Mix example 3:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Works company limited produces to part Chichicaca Color Black F-10 by weight, solids content wherein is 19%), 2.6 part ion exchanged water and 0.4 part of crosslinked acrylic resin by weight by weight is added among 47.0 parts of mixing solutions B by weight, wherein crosslinked acrylic resin is to carry out crosslinked with 0.8% (by a mole) that contains carboxylic monomer with a crosslinkable monomer.Then by stirring fully wetting crosslinked acrylic resin.Utilize a kind of dinomill (diameter of zircon head be 0.5 to 0.8mm) to carry out dispersion processing subsequently, make black ink thus.
At this, the crosslinked acrylic resin in the ink is in a kind of colloid dispersion state, and according to microscopical observation, its colloidal particle diameter is in the scope of 0.5 to 1 μ m.
Mix example 4:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Works company limited produces to part Victoria Color Yellow G-20 by weight, solids content wherein is 40%), 1.7 part ion exchanged water and 0.3 part of resin of crosslink propylene by weight by weight is added in 48.0 parts of mixed solution A by weight, wherein crosslinked vinylformic acid tree is to carry out crosslinked with 0.4% (by a mole) that contains carboxylic monomer with a crosslinkable monomer.Then finish the step the same, thereby make a kind of ink of fluorescent yellow with mixing example 1.
According to microscopic examination, the crosslinked acrylic resin in the ink is dissolved.
Mix example 5:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Works company limited produces to part Victoria Color Green G-24C by weight, curing content wherein is 40%), 0.6 part ion exchanged water and 1.4 parts of acrylate interpolymer emulsions by weight by weight are added in 48 parts of mixed solution A by weight, wherein emulsion has 30% curing content (by weight), and it can not be with crosslinkable monomer crosslinked.Stir 5 minutes subsequently, thereby make a kind of ink of fluorescence green.
According to microscopical observation, the acrylate multipolymer in the ink is dissolved.
Mix example 6:
50.0 Chichicaca Color Black F-10 (front had been done explanation) by weight and 0.4 part of crosslinked acrylic resin by weight are added in 49.6 parts of mixed solution C by weight, wherein, crosslinked acrylic resin is to carry out crosslinked with 0.8% (by a mole) that contains carboxylic monomer with a crosslinkable monomer.Then finish the process the same, make a kind of ink of black thus with mixing example 1.
At this, crosslinked acrylic resin is in a kind of expansible colloid dispersion state in ink, and microscopical observation, and its colloidal particle size is in the scope of 1 to 2 μ m.
Mix example 7:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Work company limited produces to part Chichicaca Color Red F-14 by weight, solids content wherein is 16%) and 0.4 part of crosslinked acrylic resin by weight be added among 49.6 parts of mixing solutions D by weight, wherein, crosslinked acrylic resin is that 1.2% (by a mole) that contains carboxylic monomer carries out crosslinked with a crosslinkable monomer.Then finish and the process of mixing example 1, make the ink of a redness thus.
At this, crosslinked acrylic resin is in a kind of expansion colloidal dispersion state in ink, and according to microscopical observation, its particle is in the scope of 1 to 2 μ m.Mix example 8:
50.0 (this is the water dispersible pigment dispersion that a kind of Mikumi Color Works company limited produces to part Chichicaca Color Blue F-21 by weight, solids content wherein is 25%) and 0.4 part of crosslinked acrylic resin by weight be injected towards among 49.6 parts of mixing solutions E by weight, wherein, crosslinked acrylic resin carries out crosslinked with monomeric 0.8% (by the mole) of a hydroxyl with a crosslinkable monomer.Then finish the program the same, make a kind of blue ink thus with mixing example 1.
At this, crosslinked acrylic resin is in a kind of expansible colloid dispersion state, and according to its particle diameter of microscopical observation within 1 to 2 mu m range.
(3) example of ball-point pen tip:
Existing ball-point pen tip generally all is the ball-point pen tip of taper.In this ball-point pen tip, be installed in by hard metal ball on the round-bead seat of a ball receiving member of making by stainless steel, and the gap between ball and ball receiving member (this gap is corresponding to the front/rear amount of movement of the ball of ball-point pen tip) is to measure with a kind of mode the same with said determination.According to observed value, ball-point pen tip is divided into following classification:
Classification A-ball diameter is 0.7mm, and the gap is in the scope of 7-8 μ m.
Classification B1-ball diameter is 0.5mm, and the gap is in the scope of 15 to 25 μ m.
Classification B2-ball diameter is 0.7mm, and the gap is in the scope of 15 to 25 μ m.
Classification C-ball diameter is 0.5mm, and the gap is in the scope of 25 to 35 μ m.
Classification D-ball diameter is 0.5mm, and the gap surpasses 40 μ m.
The example of being made ballpoint pen by above-mentioned mixing example and ball-point pen tip example will be described below.
Example 1:
From the example of the ball-point pen tip of B1 classification, choose 5 Jie's ball points, this nib is installed in respectively on the ink storage tube that internal diameter is 4mm, in each ink storage tube, add the ink in the mixing examples 1 of 1.2 grams.Afterbody at each ink storage tube inserts the back anti-leak plug that mainly is made of grease then, makes 5 aqueous ballpoint pens thus.
Example 2 to 6:
Charge into the ink that mixes in the example 2,3 and 6 to 8 at the ball-point pen tip of from the ball-point pen tip example of classification B1, B2 and C, selecting (each classification select 5 nibs), make the ballpoint pen example 2 to 6 shown in the table 1 in the mode the same with example 1.
Comparative example 1 to 11:
To fill into from classification A with the ink of the same mode of example 1 with example 1 to 8
1, B1 and D the ball-point pen tip selected of nib example in (5 of every group selections), make ballpoint pen comparative example shown in the table 1, that the water-base ink mixture is housed thus.
For the ballpoint pen of so making that the water-base ink mixture is housed, now its writing quality and anti-drippage performance are estimated.Writing quality presses the O state and the X state is divided.At the O state, any lines must not occur and lack black phenomenon, at the X state, the observable scarce black phenomenon of naked eyes appears in lines.The assessment of antidrip performance of ink is performed such, and promptly each nib all is placed on 20 ℃, reaches 2 hours under the condition of relative humidity 90%, and nib vertically downward, and in addition, the visual inspection ink is by the leakage situation of nib.Ball-point pen tip of the present invention be divided into do not have the X state that occur to drip the O state of China ink and China ink occurs dripping the results are shown in Table 1.
Table 1
Biro point performance
Mix example particle diameter ball diametric clearance writing quality and drip China ink
(μ m) (mm) example 11 1-2 0.5 classification B1 00 examples 22 1-2 0.7 classification B2 00 examples 33 0.5-1 0.5 classification B1 00 examples 46 1-2 0.5 classification B1 00 examples 57 1-2 0.7 classification B2 00 examples 68 1-2 0.5 classification C 00 mixes example 11 1-2 0.7 classification A * zero mixing example, 21 1-2,0.5 classification D zero * mixing example 32 1-2 0.7 classification A * zero
Table 1 (continuing)
Biro point performance
Mix example particle diameter ball diametric clearance writing quality and drip China ink
(μ m) (mm) mixes example 42 1-2 0.5 classification D zero * mixing example 53 0.5-1 0.7 classification A * zero and mixes example 63 0.5-1 0.5 classification D zero * mixing example 74 dissolvings 0.5 classification B1 zero * mixing example 85 dissolving 0.5 classification B1 zero * mixing example 96 1-2 0.7 classification A * zero mixing examples, 10 7 1-2,0.5 classification D zero * mixing example 11 8 1-2 0.7 classification A * zero
As from above-mentioned table, can seeing, when ballpoint pen of the present invention uses particle diameter is 0.5 to 10.0 μ m and the expansion colloid discrete particles that is made of cross-linked hydrophilic polymer, and constitute between the ball of its nib and ball receiving member be spaced apart 10.0 to 40.0 μ m the time, can not occur dripping black phenomenon and writing quality also splendid.
With regard to the ballpoint pen that the water-base ink mixture is housed of the present invention, it is not interrupted that the good fluidity of ink, lines neither lack China ink yet.In addition, the contrast gradient of writing lines is also very strong, and lines can be in clear state for a long time.In addition, antidrip performance of ink is also fine.
Fig. 1 is a synoptic diagram, has represented the method for the clearance measurement of ball-point pen tip.
Nomenclature:
1-ball-point pen tip, 5-digital indicator axle
2-digital indicator, 6-anchor clamps
3-pin, 7-needle guide rail
4-ball, 8-digital indicator axis rail
Claims (10)
1. ballpoint pen that the water-base ink mixture is housed, water-base ink mixture is wherein made like this, that is, directly (A) a kind of water-base ink mixture is joined in (B) ink storage tube; At this, said water-base ink by (a) a kind of aqueous medium, (b) a kind of pigment and (c) a kind of carboxylic polymkeric substance of cross-linked hydrophilic constitute, said cross-linked hydrophilic polymer expands with colloidal state and disperses, particle diameter is 0.5 to 10.0 μ m, and it is to contain carboxylic monomer and a kind of and this monomer uses when needed jointly with a kind of, but and the monoene monomer of copolyreaction, 0.5 mole of % of the total amount of the two or bigger amount and a kind of crosslinkable monomer carry out crosslinked, and this crosslinkable monomer has the unsaturated hydrocarbons of at least two polymerizables reactions; And said storage tube is fitted together with a kind of like this ball-point pen tip, and promptly in this ball-point pen tip, the gap between ball and the round-bead seat is between 10.0 to 40.0 μ m.
2. according to the ballpoint pen that the water-base ink mixture is housed of claim 1, wherein, used ink is by 5 to 90% water (by weight), and 0 to 50% wetting agent (by weight), 1 to 50% pigment (by weight) and the carboxylic cross-linked hydrophilic polymer of 0.1 to 2.0% (by weight) (by weight) constitute.
3. according to the ballpoint pen that the water-base ink mixture is housed of claim 1 or 2, wherein, the amount of water to be mixed was 25 to 85% (by weight).
4. according to the ballpoint pen with water-base ink mixture of one of claim 1 to 3, wherein, carboxylic cross-linked hydrophilic polymer is the polymkeric substance of a kind of carboxylic monoene monomer and crosslinkable monomers.
5. according to the ballpoint pen that the water-base ink mixture is housed of one of claim 1 to 3, wherein, carboxylic cross-linked hydrophilic polymer is by a kind of carboxylic monomer that contains, a kind of monoene monomer that can contain the carboxylic monomer copolyreaction with this, and said crosslinkable monomers constitutes.
6. according to the ballpoint pen that the water-base ink mixture is housed of one of claim 1 to 5, wherein, carboxylic cross-linked hydrophilic polymer is a kind of and one or more monomer crosslinked polymkeric substance, at this, said monomer is chosen from the family that is made of the polyoxyethylene glycol divinyl ether with at least two unsaturation bases, a kind of allyl sucrose and a kind of Acrylic Acid Monomer with polymerizable functional.
7. according to the ballpoint pen that the water-base ink mixture is housed of one of claim 1 to 6, wherein, a kind of anticorrosive lubricant is added in the said ink.
8. according to the ballpoint pen that the water-base ink mixture is housed of one of claim 1 to 7, wherein, a kind of pH value conditioning agent is joined in the said ink.
9. according to the ballpoint pen that the water-base ink mixture is housed of one of claim 1 to 8, wherein, a kind of antiseptic-germicide is joined in the said ink.
10. according to the ballpoint pen that the water-base ink mixture is housed of one of claim 1 to 9, wherein, one mainly is made of to prevent that the stopper 7 that ink leaks by ink storage tube afterbody is inserted in the opposite side relative with ink storage tube installation ball-point pen tip one side lubricating resin.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP37639/94 | 1994-02-10 | ||
JP3763994 | 1994-02-10 | ||
JP33827694A JP3379849B2 (en) | 1994-02-10 | 1994-12-16 | Aqueous ballpoint pen |
JP338276/94 | 1994-12-16 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1121874A true CN1121874A (en) | 1996-05-08 |
CN1050570C CN1050570C (en) | 2000-03-22 |
Family
ID=26376767
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN95102909A Expired - Fee Related CN1050570C (en) | 1994-02-10 | 1995-02-10 | Ballpoint pen containing an aqueous ink composition |
Country Status (4)
Country | Link |
---|---|
JP (1) | JP3379849B2 (en) |
KR (1) | KR100198501B1 (en) |
CN (1) | CN1050570C (en) |
TW (1) | TW292990B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100408351C (en) * | 2002-12-10 | 2008-08-06 | 碧克公司 | Leak resistant writing instrument |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW358116B (en) * | 1996-12-09 | 1999-05-11 | Mitsubishi Pencil Co | Ballpen aqueous ink component |
KR20010025283A (en) * | 2000-12-05 | 2001-04-06 | 김영훈 | composite of high glossy water ink used for writing implements |
JP4326867B2 (en) * | 2003-07-22 | 2009-09-09 | パイロットインキ株式会社 | Water-based ink composition for ballpoint pen and ballpoint pen incorporating the same |
JP2006070236A (en) * | 2004-08-06 | 2006-03-16 | Sakura Color Prod Corp | Aqueous ink composition |
JP4972303B2 (en) * | 2004-10-19 | 2012-07-11 | 株式会社サクラクレパス | Color material composition |
JP5037958B2 (en) * | 2007-01-31 | 2012-10-03 | 株式会社パイロットコーポレーション | Water-based ballpoint pen ink composition |
JP6062084B1 (en) * | 2016-01-27 | 2017-01-18 | ゼブラ株式会社 | Water-based ink composition for ballpoint pen and water-based ballpoint pen |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6049072A (en) * | 1983-08-27 | 1985-03-18 | Ogawa Kako Kk | Colored liquid for applicator containing grease as sealant |
-
1994
- 1994-12-16 JP JP33827694A patent/JP3379849B2/en not_active Expired - Fee Related
-
1995
- 1995-01-06 KR KR1019950000140A patent/KR100198501B1/en not_active IP Right Cessation
- 1995-02-10 CN CN95102909A patent/CN1050570C/en not_active Expired - Fee Related
- 1995-02-10 TW TW84101167A patent/TW292990B/zh active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100408351C (en) * | 2002-12-10 | 2008-08-06 | 碧克公司 | Leak resistant writing instrument |
Also Published As
Publication number | Publication date |
---|---|
CN1050570C (en) | 2000-03-22 |
TW292990B (en) | 1996-12-11 |
JP3379849B2 (en) | 2003-02-24 |
KR950031540A (en) | 1995-12-18 |
KR100198501B1 (en) | 1999-06-15 |
JPH07266778A (en) | 1995-10-17 |
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