JP3922630B2 - Writing instrument - Google Patents

Description

【００２２】
また、実施例１においては、８０重量％のエタノール中に、塩基性染料のローダミン6Gと酸性成分の陰イオン活性剤との塩であるAizen Spilon Red C-GH（商品名、保土ヶ谷化学工業）を染料造塩体として２０重量％含有させたものを着色剤液として使用した。
（２−２）実施例２
実施例２においては、前記実施例１で使用したのと同一のインク用液体16を使用した。
【００２３】
また、実施例２においては、８０重量％のメタノールと１０重量％の精製水との混合物中に、酸性染料のC.I.Acid Yellow42と塩基性成分のアミンとの塩であるAizen Spilon SBN Yellow510（商品名、保土ヶ谷化学工業）を染料造塩体として１０重量％含有させたものを着色剤液として使用した。
（２−３）実施例３
実施例３においては、前記実施例１で使用したのと同一のインク用液体16を使用した。
【００２４】
また、実施例３においては、２０重量％のトルエンと６０重量％のエタノールとの混合物中に、酸性染料のC.I.Acid Yellow36と塩基性染料のC.I.Basic Violet3との塩であるAizen Spilon Violet540（商品名、保土ヶ谷化学工業）を染料造塩体として２０重量％含有させたものを着色剤液として使用した。
（２−４）実施例４
実施例４においては、下記の表２に示すような組成を有するインク用液体16（ｐＨ＝４．０）を使用した。
【００２５】
【表２】

【００２６】
また、実施例４においては、２０重量％のメタノールと６０重量％のエタノールとの混合物中に、酸性染料のC.I.Acid Orange6と塩基性染料のローダミン6CGNとの塩であるAizen Spilon S.P.T.Red-533（商品名、保土ヶ谷化学工業）を染料造塩体として１０重量％含有させたものを着色剤液として使用した。
（３）比較例
（３−１）比較例１
比較例１においては、前記実施例４で使用したのと同一のインク用液体16を使用した。
【００２７】
また、比較例１においては、７０重量％のエタノールと１０重量％の精製水との混合物中に、塩基性染料であるAizen Victoria Pure Blue BOH（商品名、保土ヶ谷化学工業）を２０重量％含有させたものを着色剤液として使用した。
（３−２）比較例２
比較例２においては、前記実施例１で使用したのと同一のインク用液体16を使用した。
【００２８】
また、比較例２においては、８０重量％のエタノールに、酸性染料であるWater Blue 9（商品名、オリエント化学工業株式会社）を２０重量％含有させたものを着色剤液として使用した。
（４）試験項目
上記各実施例及び各比較例について、以下の３項目の試験を行った。
【００２９】
（４−１）筆記可能距離
上述の筆記具の筆記可能距離を、以下のようにして判定した。すなわち、ＩＳＯ規格１４１４５−１に準拠した筆記試験器に上述の筆記具を装着して、筆記速度4.5m/分、筆記角度60゜及び筆記負荷0.98N(100g重)の条件により筆記を行った。そして、その描線が、各着色剤の色彩を十分認識可能な状態で持続した距離を筆記可能距離とした。
【００３０】
（４−２）経時安定性（25℃）
上述の筆記具を、25℃、かつ、「DRY」に保った恒温恒湿器（SE-14CRAL、株式会社カトー）内に６箇月放置した。そして、この期間の経過後に実際の筆記が可能かどうかを判定した。
（４−３）経時安定性（50℃）
上述の筆記具を、50℃、かつ、「DRY」に保った恒温恒湿器（SE-14CRAL、株式会社カトー）内に６箇月放置した。そして、この期間の経過後に実際の筆記が可能かどうかを判定した。
【００３１】
（５）試験結果
上述の各実施例及び各比較例についての、上記各試験項目に関する結果を、下記の表３に示す。
【００３２】
【表３】

【００３３】
上記表３に示すとおり、染料造塩体を着色剤として使用した実施例１から実施例４までは、塩基性染料を着色剤として使用した比較例１に対して、筆記可能距離並びに25℃及び50℃における経時安定性の各項目において優れた結果を示した。また、染料造塩体を着色剤として使用した実施例１から実施例４までは、酸性染料を着色剤として使用した比較例２に対して、筆記可能距離の項目においていずれも優れた結果を示した。
【００３４】
上記結果が示すとおり、インク用液体16と、このインク用液体16に着色するための着色剤とが分離して収納され、インク用液体16が筆記先端へ誘導される途中で、前記着色剤が該インク用液体16に添加されるように形成されている筆記具において使用される着色剤として、染料造塩体は、酸性染料及び塩基性染料よりも適していることが明らかである。
【００３５】
【発明の効果】
本発明は上述のとおり構成されているので、以下に記す効果を奏する。
すなわち、インク用液体と、このインク用液体に着色するための着色剤とが分離して収納され、インク用液体が筆記先端へ誘導される途中で、前記着色剤が該インク用液体に添加されるように形成されている筆記具において、インク用液体に対して適度な溶解性を有する着色剤を収容させることによって、かかる筆記具を用いた場合における、無色又はほぼ無色のインク用液体によって筆記が可能となるという意外性を確実に発揮させることが可能となる。
【図面の簡単な説明】
【図１】本発明の実施例に係る筆記具全体を正面断面図で示したものである。
【図２】本発明の実施例に係る筆記具の要部を正面断面図で示したものである。
【図３】図２に示す筆記具を、Ａ−Ａ線における断面図で示したものである。
【符号の説明】
1 軸筒 1a 液体収納部
2 口先部 3 継ぎ手
4 空気孔 5 コレクター
6 液体保留溝 7 インク溝
8 通気溝 9 規制部
10 ボールペンチップ 11 先端ボール
12 インク誘導芯 13 着色剤添加芯
14 着色剤吸着芯 15 コレクター用芯
16 インク用液体 17 キャップ
18 尾栓[0001]
BACKGROUND OF THE INVENTION
In the present invention, the ink liquid and the colorant for coloring the ink liquid are separately stored, and the colorant is in the middle of being guided to the writing tip. In particular, the present invention relates to a writing instrument in which a colorant having appropriate properties is stored for such a writing instrument.
[0002]
[Prior art]
The following are mentioned as a prior art relevant to this invention.
In Japanese Patent Laid-Open No. 2001-260586, the ink liquid and the main colorant for coloring the ink liquid are separately stored, and the ink liquid is guided to the writing tip. A writing instrument is disclosed in which a colorant is formed so as to be added to an ink liquid.
[0003]
Specifically, the ink liquid stored in the liquid storage part in the writing instrument, which is colorless or colored to an extent unsuitable for writing, permeates the ink guide core formed of the fiber bundle, thereby writing. The ink guide core is impregnated with a colorant such as a dye or a pigment, and the colorant moves to the ink liquid so that the ink liquid is written to the tip. It is colored to the density | concentration suitable for writing until it is reached, and writing is made by apply | coating to the paper surface. As a result, the unexpectedness that writing is possible with a colorless or almost colorless ink liquid is nurtured, so that an interesting writing instrument that is not limited to writing is provided.
[0004]
[Problems to be solved by the invention]
In the writing instrument as disclosed in the above-mentioned prior art, the ink liquid is not colored at all, or even if it is colored, it is not colored to such an extent that it is suitable for writing. It was. In order for such an ink liquid to be colored to such an extent that it is suitable for writing while being guided to the tip of the writing by permeation or the like, it is required that the colorant is not too soluble in the ink liquid. Is done. This is because if the solubility of the colorant is too high, the colorant may be exhausted even though the ink liquid remains. Further, due to the high solubility in the ink liquid, the situation where the colorant permeates into the ink liquid remaining in the liquid storage portion is also considered, and the above-described unexpectedness may be impaired.
[0005]
In view of the above-described problems, the present invention provides a method in which the ink liquid and the colorant for coloring the ink liquid are separately stored and the ink liquid is in the middle of being guided to the writing tip. In the writing instrument formed so that the agent is added to the ink liquid, by containing a colorant having an appropriate solubility in the ink liquid, when such a writing instrument is used, it is colorless or almost It is an object of the present invention to surely exhibit the unexpectedness that writing can be performed with a colorless ink liquid.
[0006]
[Means for Solving the Problems]
In view of the above problems, the present invention separates and stores the ink liquid 16 and the colorant for coloring the ink liquid 16, and the ink liquid 16 is being guided to the writing tip. Thus, the writing tool is formed so that the colorant is added to the ink liquid 16, and a dye salt-form is used as the colorant.
[0007]
What is a dye salt body?
(1) Salts of acid dyes and basic components,
(2) A salt of a basic dye and an acidic component or (3) a salt of an acidic dye and a basic dye.
[0008]
Here, the “dye salt-formation body” referred to in the present invention is one that exhibits a behavior like a dye by dissolving in a solvent, and a behavior like a pigment by being dispersed in a solvent. It may be any of those shown and those showing intermediate behavior.
In the present invention, as described in (1) above, the dye salt-form can be a salt of an acid dye and a basic component.
[0009]
Here, the “acidic dye” refers to a dye containing an acidic group such as a sulfonic acid group or a carboxylic acid group in the molecular structure.
The “basic component” refers to a water-soluble basic compound that can form a salt by combining the conjugate acid with an acidic group of an acidic dye.
An example of a dye salt-form formed from an acid dye and a basic component is Aizen Spilon SBN Yellow510 (trade name, Hodogaya Chemical Co., Ltd.), which uses CIAcid Yellow42 as an acid dye to form a salt with an amine. ing.
[0010]
Furthermore, in the present invention, as described in (2) above, the dye salt-form can be a salt of a basic dye and an acidic component.
The “basic dye” refers to a dye containing a basic group such as an amino group in the molecular structure.
The “acidic component” refers to a water-soluble acidic compound that can form a salt when its conjugate base is bonded to a basic group of a basic dye.
[0011]
An example of a salt salt formed from a basic dye and an acidic component is Aizen Spilon Red C-GH (trade name, Hodogaya Chemical Industry), which uses rhodamine 6G as a basic dye, An anionic activator is an acidic component. Another example of such a salt forming body is Aizen Spilon Blue C-GH (trade name, Hodogaya Chemical Co., Ltd.), which uses CI Basic Blue 26 as a basic dye and an anionic activator as an acid. As an ingredient.
[0012]
In the present invention, as described in (3) above, the dye salt-form can be a salt of an acid dye and a basic dye.
An example of a salt salt formed from an acid dye and a basic dye is Aizen Spilon Violet 540 (trade name, Hodogaya Chemical Co., Ltd.), which uses CI Acid Yellow 36 as an acid dye and CI Basic Violet 3 as a base. It is a sex dye. Another example of such a salt forming body is Aizen Spilon SPTRed-533 (trade name, Hodogaya Chemical Industry), which uses CIAcid Orange 6 as an acid dye and rhodamine 6CGN as a basic dye. .
[0013]
【Example】
Examples of the present invention will be described as follows in comparison with comparative examples.
(1) Structure of writing instrument The ink liquid 16 and the colorant liquid according to each of the examples and comparative examples of the present invention were stored in the writing instrument shown in FIGS. 1 to 3 and used. FIG. 1 is a front sectional view of the entire writing instrument of this embodiment. FIG. 2 is a front sectional view of the main part of the writing instrument. 3 is a cross-sectional view taken along line AA in FIG. Here, in the following description, when used as a writing instrument, the side closer to the writing tip is referred to as `` tip side '' or `` tip direction '', and the one far from the paper surface is referred to as `` rear end side '' or `` rear end direction ''. And
[0014]
As shown in FIGS. 1 and 2, the writing instrument of the present embodiment includes a cylindrical shaft tube 1, and a liquid storage portion for storing ink liquid 16 at a rear end portion inside the shaft tube 1. 1a is provided. Further, a collector 5 for preventing leakage of the ink liquid 16 from the writing tip due to a pressure change in the liquid storage portion 1a is fixed to the tip portion inside the shaft tube 1.
[0015]
The shaft cylinder 1 is made of polypropylene as a whole and is colorless and transparent, so that the inside of the shaft cylinder 1 can be visually recognized from the outside.
The collector 5 described above is made of colorless and transparent as a whole using ABS as a material. Further, as shown in FIG. 1 to FIG. 3, an ink groove 7 formed on the outer periphery of the collector 5 from the rear end of the collector 5 toward the front end, and from the front end of the collector 5 toward the rear application side. A formed ventilation groove 8 (which communicates with the outside through the air holes 4) and a large number of liquid retaining grooves 6 formed so as to intersect both the ink groove 7 and the ventilation groove 8 are provided. It has been. These grooves buffer the pressure change in the liquid storage portion 1a.
[0016]
In addition, a through-hole having a circular cross section that penetrates from the rear end to the front end is provided at the axial center of the collector 5. A restricting portion 9 having a reduced inner diameter is provided at a substantially intermediate portion in the axial direction of the through hole. A colorant-added core 13 is inserted into the front end side of the restricting portion 9. The colorant-added core 13 is formed in a cylindrical rod shape by a fiber bundle obtained by solidifying polyester fibers with a polyurethane resin. The colorant-added core 13 is impregnated with the colorant shown in each of Examples and Comparative Examples described later. Then, it is inserted into the collector 5 as described above in a sufficiently dried state after impregnation.
[0017]
On the other hand, a colorant adsorbing core 14 is inserted from the rear to the rear end side of the restricting portion 9, and a collector core 15 is inserted and fixed to the rear end of the collector 5 while the colorant adsorbing core 14 is fixed. Yes. This colorant adsorption core 14 is made of activated carbon, fiber, and binder, and is formed into a cylindrical rod shape as a molded body in which activated carbon is held by the fiber, and has a function of capturing and adsorbing the colorant during diffusion. Have. Further, the collector core 15 is formed from a fiber bundle obtained by solidifying polyester fibers with polyurethane resin, and fixes the colorant adsorbing core 14, and its rear end portion is located in the liquid storage portion 1a. Thus, the ink liquid 16 is guided from the liquid storage portion 1a to the colorant adsorption core 14.
[0018]
The colorant-added core 13 and the colorant-adsorbing core 14 are in contact with each other at the restriction portion 9.
On the other hand, the tip 2 is fixed to the tip of the joint 3 constituting the tip of the writing instrument, and the ball-point pen tip 10 is fixed to the tip 2. Further, from the rear end of the joint 3, an ink guide core having an outer diameter substantially the same as the inner diameter of the ballpoint pen tip 10 made of stainless steel, which is formed by a fiber bundle obtained by solidifying polyester fibers with polyurethane resin. 12 is inserted to the vicinity of the tip ball 11 made of cemented carbide. The joint 3 is fixed to the tip of the shaft tube 1, whereby the rear end of the ink guide core 12 comes into contact with the tip of the colorant addition core.
[0019]
Further, a tail plug 18 is attached to the rear end portion of the shaft tube 1, and a cap 17 formed separately is put on the tip portion. That is, the ink liquid 16 is a liquid. The housing 1a is colorless and transparent. Then, the ink liquid 16 penetrates in order from the liquid storage portion 1a to the collector core 15 and the colorant adsorption core 14 and is guided in the distal direction. Further, the impregnated colorant is transferred to the ink liquid 16 when guided to the colorant-added core 13, and the ink liquid 16 is colored to a writable concentration. The colored ink liquid 16 penetrates the ink guide core 12 and further advances to the tip, and is applied to the paper surface via the tip ball 11.
[0020]
(2) Example (2-1) Example 1
In Example 1, an ink liquid 16 (pH = 8.0) having the composition shown in Table 1 below was used.
[0021]
[Table 1]

[0022]
In Example 1, Aizen Spilon Red C-GH (trade name, Hodogaya Chemical Co., Ltd.), which is a salt of rhodamine 6G as a basic dye and an anionic active agent as an acidic component, in 80% by weight of ethanol. What was contained 20 weight% as a dye salt-form body was used as a colorant liquid.
(2-2) Example 2
In Example 2, the same ink liquid 16 used in Example 1 was used.
[0023]
In Example 2, Aizen Spilon SBN Yellow510 (trade name, which is a salt of CIAcid Yellow42 as an acid dye and an amine as a basic component in a mixture of 80% by weight of methanol and 10% by weight of purified water. A material containing 10% by weight of Hodogaya Chemical Co., Ltd.) as a dye salt-form was used as a colorant solution.
(2-3) Example 3
In Example 3, the same ink liquid 16 used in Example 1 was used.
[0024]
In Example 3, Aizen Spilon Violet 540 (trade name, Hodogaya, which is a salt of CIAcid Yellow 36 as an acid dye and CIBasic Violet 3 as a basic dye in a mixture of 20% by weight of toluene and 60% by weight of ethanol. Chemical Industry) containing 20% by weight as a dye salt-form was used as a colorant solution.
(2-4) Example 4
In Example 4, ink liquid 16 (pH = 4.0) having the composition shown in Table 2 below was used.
[0025]
[Table 2]

[0026]
In Example 4, Aizen Spilon SPTRed-533 (trade name) which is a salt of CIAcid Orange 6 as an acidic dye and rhodamine 6CGN as a basic dye in a mixture of 20% by weight methanol and 60% by weight ethanol. , Hodogaya Kagaku Kogyo Co., Ltd.) was used as a colorant solution.
(3) Comparative Example (3-1) Comparative Example 1
In Comparative Example 1, the same ink liquid 16 used in Example 4 was used.
[0027]
In Comparative Example 1, 20% by weight of Aizen Victoria Pure Blue BOH (trade name, Hodogaya Chemical Co., Ltd.), which is a basic dye, is contained in a mixture of 70% by weight ethanol and 10% by weight purified water. Was used as a colorant solution.
(3-2) Comparative Example 2
In Comparative Example 2, the same ink liquid 16 used in Example 1 was used.
[0028]
In Comparative Example 2, a solution containing 20% by weight of water blue 9 (trade name, Orient Chemical Co., Ltd.), which is an acid dye, in 80% by weight of ethanol was used as a colorant solution.
(4) Test Items The following three items were tested for each of the above examples and comparative examples.
[0029]
(4-1) Writable distance The writable distance of the above-mentioned writing instrument was determined as follows. That is, the writing instrument described above was attached to a writing tester compliant with ISO standard 14145-1, and writing was performed under the conditions of a writing speed of 4.5 m / min, a writing angle of 60 °, and a writing load of 0.98 N (100 g weight). And the distance which the drawn line continued in the state which can fully recognize the color of each coloring agent was made into the writable distance.
[0030]
(4-2) Stability over time (25 ° C)
The above-mentioned writing instrument was left for 6 months in a thermo-hygrostat (SE-14CRAL, Kato Co., Ltd.) kept at 25 ° C. and “DRY”. Then, it was determined whether or not actual writing was possible after this period.
(4-3) Stability over time (50 ° C)
The above-mentioned writing instrument was left for 6 months in a thermo-hygrostat (SE-14CRAL, Kato Co., Ltd.) kept at 50 ° C. and “DRY”. Then, it was determined whether or not actual writing was possible after this period.
[0031]
(5) Test results Table 3 below shows the results of the above test items for each of the above Examples and Comparative Examples.
[0032]
[Table 3]

[0033]
As shown in Table 3 above, Examples 1 to 4 using a dye salt-form as a colorant were compared with Comparative Example 1 using a basic dye as a colorant, and a writable distance and 25 ° C. Excellent results were shown in each item of stability over time at 50 ° C. Moreover, Example 1 to Example 4 which used the dye salt-form body as a coloring agent showed the result excellent in all in the item of the writable distance with respect to the comparative example 2 which used acidic dye as a coloring agent. It was.
[0034]
As the above results show, the ink liquid 16 and the colorant for coloring the ink liquid 16 are separated and stored, and the colorant is in the middle of being guided to the writing tip. It is apparent that the dye salt-form is more suitable than the acid dye and the basic dye as the colorant used in the writing instrument formed to be added to the ink liquid 16.
[0035]
【The invention's effect】
Since this invention is comprised as mentioned above, there exists an effect described below.
That is, the ink liquid and the colorant for coloring the ink liquid are separately stored, and the colorant is added to the ink liquid while the ink liquid is guided to the writing tip. In a writing instrument formed in such a manner, by containing a colorant having a moderate solubility in the ink liquid, writing can be performed with a colorless or almost colorless ink liquid when such a writing instrument is used. It is possible to reliably exhibit the unexpectedness of becoming.
[Brief description of the drawings]
FIG. 1 is a front sectional view of an entire writing instrument according to an embodiment of the present invention.
FIG. 2 is a front sectional view showing a main part of a writing instrument according to an embodiment of the present invention.
FIG. 3 is a cross-sectional view of the writing instrument shown in FIG. 2 along the line AA.
[Explanation of symbols]
1 Shaft cylinder 1a Liquid storage
2 Mouth 3 Joint
4 Air hole 5 Collector
6 Liquid retaining groove 7 Ink groove
8 Ventilation groove 9 Restriction part
10 Ballpoint pen tip 11 Tip ball
12 Ink guide core 13 Colorant-added core
14 Colorant adsorption core 15 Collector core
16 Liquid for ink 17 Cap
18 Tail plug

Claims (4)

The ink liquid and the colorant for coloring the ink liquid are stored separately,
A writing instrument formed such that the colorant is added to the ink liquid while the ink liquid is guided to the writing tip,
A writing instrument using a dye salt-form as the colorant. The writing instrument according to claim 1, wherein the dye salt-form is a salt of an acidic dye and a basic component. The writing instrument according to claim 1, wherein the dye salt-form is a salt of a basic dye and an acidic component. The writing instrument according to claim 1, wherein the dye salt-form is a salt of an acid dye and a basic dye.

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