JP2014188968A - Writing utensil containing fresh ink - Google Patents

Writing utensil containing fresh ink Download PDF

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JP2014188968A
JP2014188968A JP2013068978A JP2013068978A JP2014188968A JP 2014188968 A JP2014188968 A JP 2014188968A JP 2013068978 A JP2013068978 A JP 2013068978A JP 2013068978 A JP2013068978 A JP 2013068978A JP 2014188968 A JP2014188968 A JP 2014188968A
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ink
fiber structure
occlusion body
dense
pen core
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JP6142621B2 (en
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Takahiro Nishikawa
貴広 西川
Tomohiro Kageyama
伴廣 影山
Musashi Kimura
武佐士 木村
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Shachihata Inc
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Shachihata Inc
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Priority to CN201410286113.2A priority patent/CN104070884B/en
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Abstract

PROBLEM TO BE SOLVED: To provide a writing utensil containing fresh ink capable of accurately preventing ink leakage.SOLUTION: In the writing utensil containing fresh ink, an inner cylindrical body 2, whose rear end is closed and in which an ink occlusion body 3 is stored, is fitted into a cylindrical main body 1 to make a space between both bodies as an ink tank 4, and ink in the ink tank 4 is supplied through an ink supply hole 2b, formed on a wall face of the inner cylindrical body 2, to the ink occlusion body 3 and a pen lead 5 mounted on the apex part of the body 3. In the vicinity of the rear end portion of the pen lead 5 in an axial direction of the pen lead 5 of the ink occlusion body 3 is formed a portion with a dense fiber structure, and in front of the portion with a dense fiber structure is formed a portion with a rough fiber structure. The ink supply hole 2b is opened toward the portion with a dense fiber structure of the ink occlusion body 3.

Description

本発明は、インキの漏れを的確に防止することができる生インキ内蔵筆記具に関するものである。   The present invention relates to a writing instrument with a built-in raw ink that can accurately prevent ink leakage.

従来から、水性、油性の筆記具用インキやジェットプリンタ用インキ等を収容した生インキ内蔵筆記具は広く利用されている。この筆記具の機能としては、吐出量が安定しており、かつ温度や圧力等の使用環境条件に変化が生じたとしても、インキ漏れやボタ落ちがなく吐出が安定していることが要求されている。
なお、本発明でいう筆記具とは、上述の水性、油性の筆記具のみを意味するのでなく、例えば、幅広い部分の塗布が可能なポスター用の塗布具や修正液の塗布具、更には化粧液や薬剤等を塗るための塗布具も包含するものである(以下、筆記具という)。
Conventionally, raw ink-containing writing instruments containing water-based, oil-based ink for writing instruments, ink for jet printers, and the like have been widely used. As a function of this writing instrument, it is required that the discharge amount is stable and that the discharge is stable without ink leakage or dripping even if the usage environment conditions such as temperature and pressure change. Yes.
Note that the writing instrument in the present invention does not mean only the above-mentioned water-based and oil-based writing instruments, but includes, for example, a poster applicator or a correction liquid applicator that can be applied over a wide area, and a cosmetic liquid or It also includes an applicator for applying a medicine or the like (hereinafter referred to as a writing instrument).

このような生インキ内蔵筆記具として、筒状本体内に、後端が閉じられ内部にインキ吸蔵体が収容された内筒体を嵌挿して、両者間をインキタンクとし、このインキタンクのインキを内筒体の壁面に形成したインキ供給孔を通じてインキ吸蔵体、及びその先端側に装着したペン芯に供給するようにしたものが知られている(例えば、特許文献1や特許文献2を参照)。   As such a raw ink built-in writing instrument, an inner cylinder body in which a rear end is closed and an ink occlusion body is accommodated is inserted into a cylindrical body, and an ink tank is formed between the two. An ink occlusion body and a pen core attached to the tip side of the ink occlusion body are known through an ink supply hole formed on the wall surface of the inner cylinder (see, for example, Patent Document 1 and Patent Document 2). .

上記の特許文献1や特許文献2に示されるものでは、インキ吸蔵体を用いるとともに、毛細管作用を調整するための特別な接続孔や空隙部を設けることで吐出量の安定を図っている。しかしながら上記のものでは、インキ吸蔵体の繊維組織が、軸方向にみたとき、密な部分と粗な部分からなり、粗な部分が密な部分の後方側に配置されていて、前方側にインキを分散・吸収する部分がないため、ペン芯からのインキ漏れが生じやすいという問題や、空気流路をインキ吸蔵体の後方側を経由させる必要があって、構造が複雑になるという問題があった。この結果、温度や圧力等の使用環境条件に変化が生じた場合に、オーバーフローしてペン芯からインキ漏れが生じるという問題があった。また、特別な接続孔や空隙部を設ける必要があり、加工及び組み立てが煩雑となって生産コストを高くするという問題もあった。   In the above-described Patent Document 1 and Patent Document 2, an ink occlusion body is used, and a special connection hole and a gap for adjusting the capillary action are provided to stabilize the discharge amount. However, in the above, the fiber structure of the ink occlusion body is composed of a dense portion and a rough portion when viewed in the axial direction, and the rough portion is arranged on the rear side of the dense portion, and the ink is placed on the front side. There is a problem that ink leakage from the pen core is likely to occur because there is no part that disperses and absorbs ink, and there is a problem that the air flow path must pass through the back side of the ink occlusion body, which complicates the structure. It was. As a result, there has been a problem that when the use environment conditions such as temperature and pressure change, the ink overflows and ink leaks from the pen core. In addition, it is necessary to provide special connection holes and gaps, which causes a problem that processing and assembly are complicated and production cost is increased.

特許第3931722号公報Japanese Patent No. 3931722 特公平7−45271号公報Japanese Patent Publication No. 7-45271

本発明は上記のような問題点を解決して、温度や圧力等の使用環境条件に変化が生じた場合にもインキを適度に分散して吸収することでペン芯からのインキ漏れを的確に防止することができ、また、構造的にもシンプルで加工及び組み立て作業を容易に行うことが可能で生産コストを安くすることができる生インキ内蔵筆記具を提供することを目的として完成されたものである。   The present invention solves the above-mentioned problems, and even when changes occur in the use environment conditions such as temperature and pressure, the ink is appropriately dispersed and absorbed to accurately prevent ink leakage from the pen core. It was completed for the purpose of providing a writing instrument with a built-in raw ink that can be prevented, that is simple in structure, can be easily processed and assembled, and can reduce production costs. is there.

上記課題を解決するためになされた本発明の生インキ内蔵筆記具は、筒状本体内に、後端が閉じられ内部にインキ吸蔵体が収容された内筒体を嵌挿して、両者間をインキタンクとし、このインキタンクのインキを内筒体の壁面に形成したインキ供給孔を通じてインキ吸蔵体、及びその先端側に装着したペン芯に供給するようにした生インキ内蔵筆記具であって、前記インキ吸蔵体のペン芯の軸方向でペン芯の後端部近傍に繊維組織が密な部分を形成するとともに、この密な部分の前方側に繊維組織が粗な部分を形成し、前記インキ供給孔をインキ吸蔵体の繊維組織が密な部分に向けて開口させたことを特徴とするものである。   The writing instrument with a built-in raw ink according to the present invention, which has been made to solve the above-mentioned problems, has an inner cylinder body in which a rear end is closed and an ink occlusion body is accommodated in a cylindrical main body, A writing instrument with a built-in raw ink, wherein the ink is supplied to an ink storage body and a pen core attached to the tip end of the ink tank through an ink supply hole formed in the wall surface of the inner cylinder. In the axial direction of the pen core of the occlusion body, a dense part of the fiber structure is formed in the vicinity of the rear end of the pen core, and a rough part of the fiber structure is formed on the front side of the dense part. Is opened toward the dense part of the fiber structure of the ink occlusion body.

前記インキ吸蔵体の繊維組織が密な部分は、内筒体の壁面に設けた凹み部によって圧縮形成されるものであり、この凹み部の底面にはインキ供給孔が形成してあるものが好ましく、これを請求項2に係る発明とする。   The dense portion of the ink occlusion body is formed by compression by a recess provided on the wall surface of the inner cylinder, and preferably has an ink supply hole formed on the bottom surface of the recess. This is the invention according to claim 2.

また、前記凹み部は、内筒体の壁面の円周方向に部分的に形成してあることが好ましく、これを請求項3に係る発明とする。   Moreover, it is preferable that the said recessed part is partially formed in the circumferential direction of the wall surface of an inner cylinder, and let this be the invention which concerns on Claim 3.

前記インキ吸蔵体は、軸方向にみた場合に、先端側から繊維組織が粗な部分、密な部分、粗な部分の順に並んでいることが好ましく、これを請求項4に係る発明とする。   The ink occlusion body, when viewed in the axial direction, preferably has a fiber structure arranged in order of a rough portion, a dense portion, and a rough portion from the tip side, and this is the invention according to claim 4.

あるいは、前記インキ吸蔵体は、軸方向にみた場合に、先端側から繊維組織が粗な部分、密な部分、密な部分の順に並んでいることが好ましく、これを請求項5に係る発明とする。   Alternatively, when viewed in the axial direction, the ink occlusion body preferably has a fiber structure arranged in order of a coarse portion, a dense portion, and a dense portion from the tip side, and this is the invention according to claim 5. To do.

請求項1に係る発明では、筒状本体内に、後端が閉じられ内部にインキ吸蔵体が収容された内筒体を嵌挿して、両者間をインキタンクとし、このインキタンクのインキを内筒体の壁面に形成したインキ供給孔を通じてインキ吸蔵体、及びその先端側に装着したペン芯に供給するようにした生インキ内蔵筆記具であって、前記インキ吸蔵体のペン芯の軸方向でペン芯の後端部近傍に繊維組織が密な部分を形成するとともに、この密な部分の前方側に繊維組織が粗な部分を形成し、インキ供給孔をインキ吸蔵体の繊維組織が密な部分に向けて開口させたので、インキ供給孔より供給されたインキは繊維組織が密な部分において十分に吸収され貯留されることとなる。この結果、ペン芯にインキを安定して供給することが可能となる。一方、温度や圧力等の使用環境条件に変化が生じた場合でも、密な部分の前方側に繊維組織が粗な部分が形成されているので、この粗な部分にインキが分散・吸収されることでペン芯からのインキ漏れが的確に防止されることとなる。また、空気流路は従来のように必ずインキ吸蔵体の後方側を経由させる必要がなく、前方側からも空気を流通させることが可能となり、シンプルな構造とすることができる。   In the invention according to claim 1, an inner cylinder body in which the rear end is closed and an ink storage body is accommodated in the cylindrical main body is inserted, and an ink tank is formed between the two. A raw ink built-in writing instrument that is supplied to an ink occlusion body and a pen core attached to the tip end of the ink occlusion body through an ink supply hole formed in a wall surface of the cylinder, A portion where the fiber structure is dense is formed near the rear end of the core, and a portion where the fiber structure is rough is formed on the front side of the dense portion. The ink supply hole is a portion where the fiber structure of the ink occlusion body is dense. Therefore, the ink supplied from the ink supply hole is sufficiently absorbed and stored in the portion where the fiber structure is dense. As a result, ink can be stably supplied to the pen core. On the other hand, even when the usage environment conditions such as temperature and pressure are changed, a rough portion of the fiber structure is formed on the front side of the dense portion, so that the ink is dispersed and absorbed in the rough portion. As a result, ink leakage from the pen core is accurately prevented. In addition, the air flow path does not necessarily have to pass through the rear side of the ink occlusion body as in the conventional case, and air can be circulated also from the front side, and a simple structure can be achieved.

請求項2に係る発明では、インキ吸蔵体の繊維組織が密な部分は、内筒体の壁面に設けた凹み部によって圧縮形成されるものであり、この凹み部の底面にはインキ供給孔が形成してあるので、インキ吸蔵体を内筒体内へ挿入するだけで繊維組織が密な部分を容易に形成することができる。また、簡単な構造であり、加工及び組み立て作業を容易に行うことが可能である。   In the invention according to claim 2, the dense portion of the ink occlusion body is compressed by a recess provided in the wall surface of the inner cylinder, and the ink supply hole is formed on the bottom surface of the recess. Since it is formed, it is possible to easily form a dense portion of the fiber structure simply by inserting the ink occlusion body into the inner cylinder. In addition, the structure is simple, and processing and assembly operations can be easily performed.

請求項3に係る発明では、凹み部は、内筒体の壁面の円周方向に部分的に形成してあるので、軸方向に垂直な断面でみた場合に、中心部に繊維組織の密な層が形成され、外周部に繊維組織の粗な層が部分的に形成されることとなり、この粗な部分において余剰インキを分散・吸収することでペン芯からのインキ漏れを防止することができる。また、凹み部を部分的に設けると、インキ吸蔵体の外周面と内筒体の内周面の間に間隙が生じるため、別途空気流路を確保する必要がなくなる。   In the invention according to claim 3, since the recess is partially formed in the circumferential direction of the wall surface of the inner cylindrical body, when viewed in a cross section perpendicular to the axial direction, a dense fiber structure is formed in the center. A layer is formed, and a rough layer of the fiber structure is partially formed on the outer peripheral portion, and ink leakage from the pen core can be prevented by dispersing and absorbing excess ink in this rough portion. . In addition, when the recess is partially provided, a gap is generated between the outer peripheral surface of the ink occlusion body and the inner peripheral surface of the inner cylindrical body, so that it is not necessary to separately secure an air flow path.

請求項4に係る発明では、インキ吸蔵体は、軸方向にみた場合に、先端側から繊維組織が粗な部分、密な部分、粗な部分の順に並んでいるので、密な部分でインキ貯留量を超えたとしても、前方側と後方側の繊維組織が粗な部分が溢れたインキ(余剰インキ)を分散・吸収して、ペン芯からインキ漏れが生じるのを防止することとなる。   In the invention according to claim 4, the ink occlusion body, when viewed in the axial direction, the fiber structure is arranged from the front end side in the order of the coarse portion, the dense portion, and the coarse portion, so that the ink storage in the dense portion. Even if the amount is exceeded, the ink (surplus ink) in which the rough portions of the fiber structures on the front side and the back side overflow is dispersed and absorbed, and ink leakage from the pen core is prevented.

一方、請求項5に係る発明では、インキ吸蔵体は、軸方向にみた場合に、先端側から繊維組織が粗な部分、密な部分、密な部分の順に並んでいるので、密な部分におけるインキ貯留量を大幅に増加させることができる。一方、使用環境条件に変化が生じた場合は、密な部分の前方側に繊維組織が粗な部分が形成されているので、この粗な部分がインキを分散・吸収してインキ漏れを的確に防止することとなる。   On the other hand, in the invention according to claim 5, the ink occlusion body is arranged in the order of the coarse portion, the dense portion, and the dense portion from the tip side when viewed in the axial direction. The ink storage amount can be greatly increased. On the other hand, if there is a change in the environmental conditions of use, a rough portion of the fiber structure is formed on the front side of the dense portion, and this rough portion disperses and absorbs the ink to accurately prevent ink leakage. Will be prevented.

本発明の実施の形態を示す断面図である。It is sectional drawing which shows embodiment of this invention. 図1の要部を示す断面図である。It is sectional drawing which shows the principal part of FIG. 図2におけるインキ吸蔵体の状態を示す説明図である。It is explanatory drawing which shows the state of the ink occlusion body in FIG. 内筒体の正面図である。It is a front view of an inner cylinder. (a)は図1におけるA−A断面図、(b)はそのインキ吸蔵体の状態を示す説明図である。(A) is AA sectional drawing in FIG. 1, (b) is explanatory drawing which shows the state of the ink occlusion body. その他の実施の形態を示す断面図である。It is sectional drawing which shows other embodiment. 図6の要部を示す断面図である。It is sectional drawing which shows the principal part of FIG. 図7におけるインキ吸蔵体の状態を示す説明図である。It is explanatory drawing which shows the state of the ink occlusion body in FIG.

以下に、図面を参照しつつ本発明の好ましい実施の形態を示す。
図1は、本発明の実施の形態を示す断面図であり、図において、1は有底の筒状本体、2はこの筒状本体1内に嵌挿される内筒体である。この内筒体2は、後端が栓体2aで閉じられており、内部にポリエステルやアクリル繊維等を集束したいわゆる中綿、あるいはスポンジ等からなるインキ吸蔵体3が収容されている。この筒状本体1と内筒体2の間には一定の空間が形成されてインキタンク4となっており、このインキタンク4内のインキ(液状の生インキ)を、前記内筒体2の壁面に形成したインキ供給孔2bを通じてインキ吸蔵体3、及びその先端側に装着したペン芯5に供給する構造となっている。なお、インキ供給孔2bを設ける位置については、後述する。
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a cross-sectional view showing an embodiment of the present invention. In the figure, 1 is a bottomed cylindrical main body, and 2 is an inner cylindrical body that is fitted into the cylindrical main body 1. The inner cylinder 2 is closed at the rear end by a plug 2a, and accommodates an ink occlusion body 3 made of so-called batting or sponge in which polyester, acrylic fiber or the like is focused. A fixed space is formed between the cylindrical main body 1 and the inner cylindrical body 2 to form an ink tank 4, and the ink (liquid raw ink) in the ink tank 4 is transferred to the inner cylindrical body 2. It has a structure in which it is supplied to the ink occluding body 3 and the pen core 5 attached to the front end side thereof through the ink supply hole 2b formed on the wall surface. The positions where the ink supply holes 2b are provided will be described later.

図中、6は前記ペン芯5を固定するための首座である。この首座6は、ペン芯5の先端部分を外部へ露出させ、一方、後端部分をインキ吸蔵体3内へ押し込んで埋没させるようにペン芯5を保持している。このペン芯5の押し込みにより、ペン芯5の後端部近傍には繊維組織が密(スポンジであれば、密度が密)な部分が形成された構造となっている。
なお、ペン芯5を保持する首座6の内面には、空気流路が形成されている。この空気流路は、インキタンク4内の空気が膨張してインキ供給孔2bよりインキ吸蔵体3にインキが強制的に流入した際、インキ吸蔵体3に流入したインキによって押し出される空気が外気へ排出されるために必要な構成である。
また、ペン芯5の先端部は、キャップ(図示せず)により開閉自在とされている点は従来と同様である。
In the figure, 6 is a neck seat for fixing the pen core 5. The neck 6 holds the pen core 5 so that the front end portion of the pen core 5 is exposed to the outside, and the rear end portion is pushed into the ink occlusion body 3 and buried. Due to the pressing of the pen core 5, a portion in which the fiber structure is dense (in the case of a sponge, the density is high) is formed in the vicinity of the rear end portion of the pen core 5.
An air flow path is formed on the inner surface of the neck 6 that holds the pen core 5. When the air in the ink tank 4 expands and the ink forcibly flows into the ink occlusion body 3 from the ink supply hole 2b, the air flow path causes the air pushed out by the ink flowing into the ink occlusion body 3 to the outside air. This is a configuration necessary for being discharged.
Further, the tip of the pen core 5 is the same as the conventional one in that it can be opened and closed by a cap (not shown).

前記のようにインキ吸蔵体3には、ペン芯5の軸方向でペン芯5の後端部近傍に繊維組織が密な部分が形成されているとともに、この密な部分の前方側に繊維組織が粗な部分が形成された構造となっている。なお、密な部分と粗な部分は相対的な関係を意味するものであり、密な部分は粗な部分に比べると繊維組織が密なため、毛細管力によって、粗な部分より密な部分により多くのインキが集まることになる。   As described above, the ink occlusion body 3 has a dense fiber structure formed in the vicinity of the rear end portion of the pen core 5 in the axial direction of the pen core 5, and a fiber structure on the front side of the dense portion. Has a structure in which a rough portion is formed. The dense part and the rough part mean a relative relationship, and the dense part has a denser fiber structure than the coarse part. A lot of ink will be collected.

図2に示すように、前記内筒体2の壁面には中心点を挟んで一対の凹み部2cが設けられている。この凹み部2cにより、インキ吸蔵体3の対応する位置の部分が中心に向けて圧縮された状態となり、繊維組織の密な部分が形成された構造となっている。
また、凹み部2cの底面には、前記インキ供給孔2bが設けられており、前記インキ吸蔵体3の繊維組織が密な部分に向けて開口させた構造となっている。これにより、インキタンク4内のインキが繊維組織の密な部分に向けて補給され、この密な部分は常にインキが満たされた状態となってペン芯5に安定してインキを供給することとなる。この結果、ペン芯5からは安定したインキの吐出量が確保されることとなる。
As shown in FIG. 2, the wall surface of the inner cylindrical body 2 is provided with a pair of dent portions 2 c across the center point. Due to the recess 2c, the corresponding portion of the ink occlusion body 3 is compressed toward the center, and a dense structure of the fiber structure is formed.
The ink supply hole 2b is provided on the bottom surface of the recess 2c, and the fiber structure of the ink occlusion body 3 is opened toward a dense portion. As a result, the ink in the ink tank 4 is replenished toward a dense portion of the fiber structure, and this dense portion is always filled with ink to supply ink to the pen core 5 stably. Become. As a result, a stable ink discharge amount is secured from the pen core 5.

図4に内筒体2の正面図、図5に図1におけるA−A断面図とインキ吸蔵体の状態の説明図を示す。なお、図示のものでは、凹み部2cは、内筒体2の壁面の円周方向に部分的に形成してある。具体的には、直径方向に一対設けられているが、3個以上設けてもよいことは勿論である。
凹み部2cを全周でなく部分的に設けることで、軸方向に垂直な断面でみた場合に、中心部に繊維組織の密な層が形成され、外周部に繊維組織の粗な層が部分的に形成されるため、この粗な部分においても余剰インキを分散・吸収し、ペン芯からのインキ漏れを防止することができる。
また、「凹み部2cを部分的に設けると、インキ吸蔵体3の外周面と内筒体2の内周面の間に間隙(図5(a)を参照)が生じるため、別途空気流路を確保する必要がなくなる。この空気流路は、インキタンク4内の空気が膨張してインキ供給孔2bよりインキ吸蔵体3にインキが強制的に流入した際、インキ吸蔵体3に流入したインキによって押し出される空気が外気へ排出されるために必要な構成である。また、インキタンク4内だけでなく、内筒体2内またはインキ吸蔵体3内の空気が膨張することによって押し出される空気が外気へ排出されるためにも必要な構成である。
FIG. 4 is a front view of the inner cylinder 2, and FIG. 5 is an AA cross-sectional view in FIG. 1 and an explanatory diagram of the state of the ink occlusion body. In the illustrated example, the recessed portion 2 c is partially formed in the circumferential direction of the wall surface of the inner cylindrical body 2. Specifically, a pair is provided in the diameter direction, but it is needless to say that three or more may be provided.
By providing the recess 2c partially rather than the entire circumference, when viewed in a cross section perpendicular to the axial direction, a dense layer of fiber structure is formed at the center, and a coarse layer of fiber structure is partially formed at the outer periphery. Therefore, the excess ink can be dispersed and absorbed even in this rough portion, and ink leakage from the pen core can be prevented.
In addition, “a part of the recess 2c is provided with a gap (see FIG. 5A) between the outer peripheral surface of the ink occlusion body 3 and the inner peripheral surface of the inner cylindrical body 2, and therefore a separate air flow path. This air flow path allows the ink that has flowed into the ink occlusion body 3 when the air in the ink tank 4 expands and ink forcibly flows into the ink occlusion body 3 from the ink supply holes 2b. This is a configuration necessary for the air pushed out by the air to be discharged to the outside air, and not only the ink tank 4 but also the air pushed out by the expansion of the air in the inner cylinder 2 or the ink storage body 3. This configuration is also necessary for discharging to the outside air.

インキと空気の置換を無理なく円滑に行うことができれば、インキ供給孔2bの形状や大きさや設置数、及び、インキの種類(油性・水性)や粘度や表面張力は、適宜最適な組合わせで採用可能である。   If the replacement of ink and air can be performed smoothly and smoothly, the shape, size and number of ink supply holes 2b, ink type (oil and water), viscosity, and surface tension should be appropriately optimized. It can be adopted.

以下に、空気とインキの流れについて説明する。
本発明では、組立てたときに、インキ供給孔2bからインキ吸蔵体3にインキは流出する。このインキの流出によってインキタンク4にはインキが減少した分の空気がインキ吸蔵体3より同時に流入し、インキタンク4とインキ吸蔵体3の間でインキと空気の置換が行われる。そして、インキタンク4への空気の流入とインキ吸蔵体3へのインキの流出が平衡に達した時点で、インキ供給孔2bを通じたインキ吸蔵体3へのインキの流出は停止する。
そして、インキ吸蔵体3に流出したインキが筆記によって消費されると、前記首座6の内面に設けた空気流路から取り込まれた外気が、インキ吸蔵体3を通ってインキ供給孔2bよりインキタンク4内に流入し、その際、これと入れ替わってインキがインキ供給孔2bを通ってインキ吸蔵体3へ流出し、インキがインキ供給孔2bを閉塞する位置に到達するまで流出すると、空気はもはやインキ供給孔2bを通過することが不可能となり、その結果インキのインキ吸蔵体3への流出は停止する。
このように、インキ供給孔2bはインキおよび空気の流通のバルブ機能を有するもので、インキが過剰にインキ吸蔵体3に供給されることを防止し、常に一定量のインキをインキ吸蔵体3に供給する役目をする。すなわち、空気の流入量分だけインキがインキ吸蔵体3へ流出することになる。
The flow of air and ink will be described below.
In the present invention, the ink flows out from the ink supply hole 2b to the ink occlusion body 3 when assembled. Due to the outflow of ink, the air corresponding to the reduced amount of ink flows into the ink tank 4 from the ink storage body 3 at the same time, and the ink and air are replaced between the ink tank 4 and the ink storage body 3. When the inflow of air into the ink tank 4 and the outflow of ink into the ink storage body 3 reach equilibrium, the outflow of ink into the ink storage body 3 through the ink supply holes 2b is stopped.
When the ink that has flowed out to the ink storage 3 is consumed by writing, the outside air taken in from the air flow path provided on the inner surface of the neck 6 passes through the ink storage 3 and is supplied from the ink supply hole 2b to the ink tank. 4, when the ink is exchanged and flows out through the ink supply hole 2b to the ink occlusion body 3 until the ink reaches a position where the ink supply hole 2b is blocked, the air is no longer present. It becomes impossible to pass through the ink supply hole 2b, and as a result, the outflow of the ink to the ink occlusion body 3 is stopped.
As described above, the ink supply hole 2b has a valve function for the flow of ink and air, and prevents the ink from being excessively supplied to the ink occlusion body 3, and always supplies a certain amount of ink to the ink occlusion body 3. It serves to supply. That is, the ink flows out to the ink occlusion body 3 by the inflow amount of air.

また、インキタンク4内の空気の圧力が大気圧と比べて高い状態となる「高圧時」は、インキ供給孔2bより溢れ出したインキ(余剰インキ)は、インキ吸蔵体3の粗の部分によって速やかに吸収される。
なぜなら、平常時、インキはインキ吸蔵体3の粗の部分に吸収されることが殆どないため、インキ吸蔵体3の粗の部分は常にインキが吸収できるスペースを確保することできるからである。そのため、インキタンク4内の空気が膨張して、インキ供給孔2bよりインキが強制的に溢れ出しても、溢れ出したインキ(余剰インキ)はインキ吸蔵体3の粗の部分が吸収するのでペン芯5よりのインキボタ落ちを防ぐことができる。このとき、インキ吸蔵体3の粗の部分に吸収されたインキによって押し出される内筒体2内の空気は、空気流路を通じて外気に排出され、ペン芯5からのインキボタ落ちを防止できる。
In addition, when the pressure of the air in the ink tank 4 is higher than the atmospheric pressure, the ink overflowing from the ink supply hole 2b (surplus ink) is caused by the rough portion of the ink occlusion body 3. It is absorbed quickly.
This is because the ink is hardly absorbed by the rough portion of the ink occlusion body 3 during normal times, and the rough portion of the ink occlusion body 3 can always secure a space where the ink can be absorbed. Therefore, even if the air in the ink tank 4 expands and the ink forcibly overflows from the ink supply hole 2b, the overflowed ink (surplus ink) is absorbed by the rough portion of the ink occlusion body 3, so that the pen Ink spillage from the core 5 can be prevented. At this time, the air in the inner cylindrical body 2 pushed out by the ink absorbed by the rough portion of the ink occlusion body 3 is discharged to the outside air through the air flow path, and ink drop off from the pen core 5 can be prevented.

一方、再びインキタンク4内の空気が圧縮する場合、インキ吸蔵体3の粗の部分に流入したインキはインキタンク4内の減圧によって吸い戻されるため、インキ吸蔵体3の粗の部分は再びインキを吸収する能力を回復し、インキタンク4内の空気の膨張・圧縮が繰り返されてもインキ漏れを起こすことはない。   On the other hand, when the air in the ink tank 4 is compressed again, the ink that has flowed into the rough portion of the ink occluding body 3 is sucked back by the reduced pressure in the ink tank 4, so that the rough portion of the ink occluding body 3 again becomes the ink. Thus, even if the air in the ink tank 4 is repeatedly expanded and compressed, ink leakage does not occur.

次に、インキ吸蔵体3の繊維組織の粗密の関係を示す。
図3に示されるように、前記インキ吸蔵体3は、ペン芯5がある先端側から筒状本体1の底部がある後端側に向けて、繊維組織が粗な部分、密な部分、粗な部分の順に並んだ構造となっている。
この場合は、常時は繊維組織が密な部分に十分なインキが蓄えられていて、ペン芯5に供給するため、安定した書き味を保証することができる。一方、温度や圧力等の環境条件等の変化により、繊維組織が密な部分でインキ貯留量を超えたとしても、前方側と後方側の繊維組織の粗な部分が溢れたインキ(余剰インキ)を即座に分散・吸収するので、ペン芯5からインキ漏れが生じるのを的確に防止することとなる。
Next, the relationship of the density of the fiber structure of the ink occlusion body 3 is shown.
As shown in FIG. 3, the ink occlusion body 3 includes a portion having a coarse fiber structure, a dense portion, a rough portion from the front end side having the pen core 5 toward the rear end side having the bottom portion of the cylindrical body 1. The structure is arranged in the order of various parts.
In this case, since sufficient ink is always stored in a portion where the fiber structure is dense and is supplied to the pen core 5, stable writing quality can be ensured. On the other hand, even if the fiber structure exceeds the amount of ink stored in dense areas due to changes in environmental conditions such as temperature and pressure, the ink that overflows the rough areas of the front and rear fiber structures (excess ink) Is immediately dispersed and absorbed, so that ink leakage from the pen core 5 can be prevented accurately.

また、ペン芯5の軸方向とインキ供給孔2bを結んだ線の交叉する部分の近傍は、ペン芯5の押し込みによる圧縮と凹み部2cによる圧縮の2方向の圧縮力がかかるため、特に繊維組織が密になり、最密な部分が形成されることとなる。この結果、最密部分に十分なインキが貯留されてより安定したインキの供給が確保される。   In addition, in the vicinity of the crossing portion of the line connecting the axial direction of the pen core 5 and the ink supply hole 2b, a compression force in two directions, that is, compression by pushing the pen core 5 and compression by the recessed portion 2c is applied. The tissue becomes dense and the closest part is formed. As a result, sufficient ink is stored in the closest portion, and more stable ink supply is ensured.

次に、図6に、その他の実施の形態を示す。
図6に示すものでは、前記インキ吸蔵体3を、ペン芯5がある先端側から筒状本体1の底部がある後端側に向けて、繊維組織が粗な部分、密な部分、密な部分の順に並んだ構造とされている。図7にその要部の断面図を示し、図8にインキ吸蔵体の状態の説明図を示す。
Next, FIG. 6 shows another embodiment.
In the structure shown in FIG. 6, the ink occlusion body 3 is moved from the front end side where the pen core 5 is located toward the rear end side where the bottom portion of the cylindrical main body 1 is located. The structure is arranged in the order of the parts. FIG. 7 shows a cross-sectional view of the main part, and FIG. 8 shows an explanatory diagram of the state of the ink occlusion body.

図6に示すものでは、前記内筒体2の壁面に前方部から後端に向けて帯状に続く凹み部2cが設けられており、この凹み部2cによって、対応する位置のインキ吸蔵体3が中心方向へ圧縮された状態となることで、繊維組織の密な部分が形成された構造である。また、凹み部2cの前方部の底面には、インキ供給孔2bが設けられており、前記インキ吸蔵体3の繊維組織が密な部分に向けて開口させた構造となっている。   In the structure shown in FIG. 6, a concave portion 2 c is provided on the wall surface of the inner cylindrical body 2 from the front portion toward the rear end in a band shape, and the ink occlusion body 3 at a corresponding position is provided by the concave portion 2 c. It is a structure in which a dense portion of the fiber structure is formed by being compressed in the central direction. In addition, an ink supply hole 2b is provided on the bottom surface of the front portion of the recess 2c, and the fiber structure of the ink occlusion body 3 is opened toward a dense portion.

この場合は、密な部分は凹み部2cから内筒体2の後端まで続く体積が大きいものであり、インキ貯留量を大幅に増加させることができるので、長期間にわたって安定したインキの吐出量を確保することができる。一方、使用環境条件に変化が生じて、ペン芯5が接する繊維組織が密な部分でインキ貯留量を超えた場合においても、繊維組織が密な部分の前方側に繊維組織が粗な部分が形成されているので、この粗な部分が溢れたインキ(余剰インキ)を分散・吸収して、ペン芯5からのインキ漏れを的確に防止することとなる。
また、ペン芯5の軸方向とインキ供給孔2bを結んだ線の交叉する部分の近傍は、ペン芯5の押し込みによる圧縮と凹み部2cによる圧縮の2方向の圧縮力がかかるため、特に繊維組織が密になり、最密な部分が形成される点は第1の実施例と同じである。
In this case, the dense portion has a large volume that extends from the recessed portion 2c to the rear end of the inner cylinder 2, and the ink storage amount can be greatly increased. Can be secured. On the other hand, even when a change occurs in the use environment condition and the fiber structure that the pen core 5 is in contact with exceeds the amount of ink stored in the dense part, the coarse part of the fiber structure is present on the front side of the dense part of the fiber structure. Since the ink is formed, the ink (surplus ink) overflowing from the rough portion is dispersed and absorbed, and ink leakage from the pen core 5 is accurately prevented.
In addition, in the vicinity of the crossing portion of the line connecting the axial direction of the pen core 5 and the ink supply hole 2b, a compression force in two directions, that is, compression by pushing the pen core 5 and compression by the recessed portion 2c is applied. It is the same as in the first embodiment in that the tissue becomes dense and the closest part is formed.

前述したような繊維組織が粗な部分と密な部分で構成されたインキ吸蔵体3は、均一な繊維組織に成形した柱状の繊維素材を内筒体2に押し込むだけで簡単に形成することができる。
即ち、前記繊維素材を内筒体2に押し込むと、内筒体2の壁面に設けられた凹み部2cによって、対応部分が中心方向へ圧縮された状態となり、また、繊維素材の先端側はペン芯5の押し込みにより圧縮された状態となる。このような圧縮作用によって、インキ吸蔵体3のペン芯5の軸方向でペン芯5の後端部近傍に繊維組織が密な部分を形成するとともに、この密な部分の前方側に繊維組織が粗な部分を形成することができる。
The ink occlusion body 3 composed of a rough portion and a dense portion as described above can be easily formed by simply pushing a columnar fiber material formed into a uniform fiber structure into the inner cylinder 2. it can.
That is, when the fiber material is pushed into the inner cylinder 2, the corresponding portion is compressed in the center direction by the recess 2 c provided on the wall surface of the inner cylinder 2, and the tip side of the fiber material is the pen side. The core 5 is compressed by being pushed in. By such a compressing action, the fiber structure forms a dense portion in the vicinity of the rear end portion of the pen core 5 in the axial direction of the pen core 5 of the ink occlusion body 3, and the fiber structure is formed on the front side of the dense portion. A rough portion can be formed.

以上のように構成されたものは、インキ供給孔より供給されたインキが繊維組織が密な部分において十分に吸収され貯留されることとなり、この結果、ペン芯にインキを安定して供給することが可能であり、また常時は、ペン芯の周囲の繊維組織が粗でインキの貯留量が少ないため、ペン先部からインキ漏れを生じることがない。一方、温度や圧力等の使用環境条件に変化が生じた場合でも、密な部分の前方側に繊維組織が粗な部分が形成されているので、この粗な部分にインキが分散・吸収されることでインキ漏れが的確に防止されることとなる。   In the configuration as described above, the ink supplied from the ink supply hole is sufficiently absorbed and stored in the dense part of the fiber structure, and as a result, the ink is stably supplied to the pen core. In addition, since the fiber structure around the pen core is rough and the amount of ink stored is small, ink leakage does not occur from the pen tip. On the other hand, even when the usage environment conditions such as temperature and pressure are changed, a rough portion of the fiber structure is formed on the front side of the dense portion, so that the ink is dispersed and absorbed in the rough portion. As a result, ink leakage is accurately prevented.

1 筒状本体
2 内筒体
2a 栓体
2b インキ供給孔
2c 凹み部
3 インキ吸蔵体
4 インキタンク
5 ペン芯
6 首座
DESCRIPTION OF SYMBOLS 1 Cylindrical main body 2 Inner cylinder 2a Plug 2b Ink supply hole 2c Recessed part 3 Ink occlusion body 4 Ink tank 5 Pen core 6 Neck seat

Claims (5)

筒状本体内に、後端が閉じられ内部にインキ吸蔵体が収容された内筒体を嵌挿して、両者間をインキタンクとし、このインキタンクのインキを内筒体の壁面に形成したインキ供給孔を通じてインキ吸蔵体、及びその先端側に装着したペン芯に供給するようにした生インキ内蔵筆記具であって、前記インキ吸蔵体のペン芯の後端部近傍に繊維組織が密な部分を形成するとともに、この密な部分の前方側に繊維組織が粗な部分を形成し、前記インキ供給孔をインキ吸蔵体の繊維組織が密な部分に向けて開口させたことを特徴とする生インキ内蔵筆記具。   An ink in which an inner cylinder body in which the rear end is closed and an ink occlusion body is accommodated is inserted into the cylindrical main body, and an ink tank is formed between the two, and the ink of this ink tank is formed on the wall surface of the inner cylindrical body A writing instrument with a raw ink which is supplied to the ink occlusion body and the pen core attached to the tip side thereof through the supply hole, wherein a portion having a dense fiber structure is provided in the vicinity of the rear end of the pen core of the ink occlusion body. A raw ink characterized in that a portion having a coarse fiber structure is formed on the front side of the dense portion, and the ink supply hole is opened toward the dense portion of the fiber structure of the ink occlusion body. Built-in writing instrument. インキ吸蔵体の繊維組織が密な部分は、内筒体の壁面に設けた凹み部によって圧縮形成されるものであり、この凹み部の底面にはインキ供給孔が形成してある請求項1に記載の生インキ内蔵筆記具。   The portion where the fiber structure of the ink occlusion body is dense is formed by compression by a recess provided on the wall surface of the inner cylinder, and an ink supply hole is formed on the bottom surface of the recess. The writing instrument with the raw ink described. 凹み部は、内筒体の壁面の円周方向に部分的に形成してある請求項2に記載の生インキ内蔵筆記具。   The writing part with a built-in raw ink according to claim 2, wherein the dent part is partially formed in a circumferential direction of the wall surface of the inner cylindrical body. インキ吸蔵体は、軸方向にみた場合に、先端側から繊維組織が粗な部分、密な部分、粗な部分の順に並んでいる請求項1〜3のいずれかに記載の生インキ内蔵筆記具。   The raw ink built-in writing instrument according to any one of claims 1 to 3, wherein the ink occlusion body has a fiber structure arranged in order of a coarse portion, a dense portion, and a coarse portion from the tip side when viewed in the axial direction. インキ吸蔵体は、軸方向にみた場合に、先端側から繊維組織が粗な部分、密な部分、密な部分の順に並んでいる請求項1〜3のいずれかに記載の生インキ内蔵筆記具。   The raw ink built-in writing instrument according to any one of claims 1 to 3, wherein the ink occlusion body has a fiber structure arranged in order of a coarse portion, a dense portion, and a dense portion from the tip side when viewed in the axial direction.
JP2013068978A 2013-03-28 2013-03-28 Raw ink built-in writing instrument Active JP6142621B2 (en)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6384996A (en) * 1986-09-30 1988-04-15 ぺんてる株式会社 Raw ink built-in writing utensil
DE3642037A1 (en) * 1986-12-09 1988-06-23 Staedtler Fa J S Capillary reservoir for ink writing instruments
JP2003226091A (en) * 2001-05-31 2003-08-12 Pentel Corp Applicator
JP2008183896A (en) * 2006-03-09 2008-08-14 Pilot Ink Co Ltd Direct liquid type writing utensil

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6384996A (en) * 1986-09-30 1988-04-15 ぺんてる株式会社 Raw ink built-in writing utensil
DE3642037A1 (en) * 1986-12-09 1988-06-23 Staedtler Fa J S Capillary reservoir for ink writing instruments
JP2003226091A (en) * 2001-05-31 2003-08-12 Pentel Corp Applicator
JP2008183896A (en) * 2006-03-09 2008-08-14 Pilot Ink Co Ltd Direct liquid type writing utensil

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