JP2004130563A - Method and device for eliminating written ink image written in reversible thermal recording medium, and image erasing/recording apparatus with built-in written ink image elimination means - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and a device for eliminating a written ink image, and an image erasing/recording apparatus with a built-in written ink image eliminating means, which prevent the scattering of an eliminated ink substance, and which enable the written ink image to be surely eliminated when peeling and elimination are intended, though a reversible recording medium is made writable and equipped with adhesion such that the written ink image cannot be easily peeled off, so as to be effectively usable as a substitute for paper. <P>SOLUTION: This method for eliminating the written ink image on the surface of the reversible thermal recording medium is used for eliminating the ink image by making an elimination member linearly abut on the surface of the reversible thermal recording medium and relatively sliding them; and the ink image is formed, by using a writing instrument, on the surface of the reversible thermal recording medium whereon the image can be recorded, displayed and erased by virtue of a temperature change caused by heating. The surface of the reversible thermal recording medium has a dynamic receding contact angle of 75-100° with respect to distilled water. The degree of flexibility is 1.2 or more at least in an abutting part of the elimination member, which is composed of a nonwoven fabric including chemical fibers. <P>COPYRIGHT: (C)2004,JPO

Description

３）下記の構造の発色消色制御剤　　　　　　　　　　　　　　　　３部
【００９０】
【化２】

４）アクリルポリオール樹脂（三菱レイヨン社製　ＬＲ５０３）　１５部
５）テトラヒドロフラン（ＴＨＦ）溶液　　　　　　　　　　　１３０部
【００９１】
上記組成物をボールミルを用いて平均粒径約１μｍまで粉砕分散した。得られた分散液に日本ポリウレタン社製コロネートＨＬ（アダクト型ヘキサメチレンジイソシアネート　７５％酢酸エチル溶液）２０部を加え、良く攪拌し記録層塗布液を調製した。
上記組成の記録層塗布液を、大昭和製紙社製しらおいコート紙上にワイヤーバーを用い塗布し、１００℃２分で乾燥した後、６０℃２４時間加熱して、膜厚約９．０μｍの記録層を設けた。
【００９２】
［保護層］
１）アクリルポリオール樹脂（三菱レーヨン社製ＬＲ３２７）　　　１０部
２）シリカ（水澤化学社製Ｐ−８３２）　　　　　　　　　　　　　　４部
３）シリコングラフトポリマー（東亞合成社製ＧＳ１０１５）　　１．２部
４）ＭＥＫ　　　　　　　　　　　　　　　　　　　　　　　　　　５０部
上記組成物を、ボールミルを用いて平均粒径約１．０μｍまで粉砕分散した。得られた分散液に日本ポリウレタン社製コロネートＨＸ　４部を加え、良く攪拌し保護層塗布液を調製した。上記保護層塗布液を、上記記録層上にワイヤーバーを用いて塗工し１００℃２分で乾燥した後、６０℃２４時間加熱して、膜厚約３．０μｍの保護層を設け、Ａ４サイズの本発明の可逆性感熱記録媒体を作製した。
【００９３】
（実施例１〜１４、比較例１〜５）
印字画像を形成しかつマーカーで文字と線が書かれた可逆性感熱記録媒体を準備した。
筆記インク像除去手段（３２）として図８に記載のものが具備された図３の画像消去記録装置に、該記録媒体を通過させて、筆記インク像を除去しかつ印字画像を消去した後に、新たな画像に書き替える操作を行った。
ただし、除去部材には表１に示す不織布を用い、押付け部材には硬度３０度のゴム材を用い、線圧を２Ｋｇとした。また、受けローラには硬度６０度のゴムローラを用いた。
除去部材の種類、除去部材の設置方向、柔軟度、筆記インク像の除去状態、印字画像の消去状態、書換え印字の状態を表１にまとめて示す。
また、この操作を１００回繰り返した後の印字状態、サーマルヘッドの汚れの程度も合わせて示す。サーマルヘッドの汚れは、アルコールをつけた綿棒で５回擦ったときの綿棒への付着物の程度で判断する。
【００９４】
（実施例１５）
筆記インク像除去手段（３２）として図４（ａ）に記載のものが具備された図３の画像消去記録装置に、印字画像が形成されかつマーカーで文字と線が書かれた記録媒体を通過させて、筆記インク像を除去すると共に印字画像を消去した後、別の印字画像に書き替える操作を行なった。
ただし、除去部材として前記不織布Ｂからなるシートを用い、押付け部材には硬度６０度のゴム材を用い、線圧を２Ｋｇとした。また、受けローラには硬度２３度のゴムローラを用いた。
その結果、筆記インク像は完全に除去でき、印字画像は別の画像に書き替えられた。
この一連の操作を１００回繰り返して行なった。ただし、記録媒体は同一のものを使用し、１回ごとにマーカーで文字と線を書き込んだ。印字画像はランダムな文書画像を用いた。
その結果、筆記インク像の除去が確実に行なわれ、また印字画像の消去と印字にも異常のないことが確認できた。
【００９５】
（実施例１６）
筆記インク像除去手段（３２）として図７に記載のものが具備された図３の画像消去記録装置に、印字画像が形成されかつマーカーで文字と線が書かれた記録媒体を通過させ、筆記インク像を除去すると共に印字画像を消去した後、別の画像に書き替える操作を行なった。
ただし、除去部材として前記不織布Ａからなるシートを用い、押付け部材には硬度４０度のゴム材を用い、線圧を２Ｋｇとした。また、受けローラには硬度６０度のゴムローラを用いた。
その結果、筆記インク像は完全に除去でき、印字画像は別の画像に書き替えられた。
この一連の操作を１００回繰り返して行なった。ただし、記録媒体は同一のものを使用し、１回ごとにマーカーで文字と線を加筆した。印字画像はランダムな文書画像を用いた。
その結果、筆記インク像の除去が確実に行なわれ、また印字画像の消去と印字にも異常のないことが確認できた。
【００９６】
【表１−１】

【００９７】
【表１−２】

ただし、表面の動的後退接触角が１００度を越える可逆性記録媒体は、インクがはじくため評価可能な描線を形成できなかった。
【００９８】
表１において設置方向とは、可逆性記録媒体の搬送方向に対する不織布の設置方向であり、搬送方向と平行な方向が不織布のどの方向であるかを示している。したがって、ＣＤのとき不織布の主な繊維方向が搬送方向に対し横になっており、ＭＤのときは平行になっている。
【００９９】
表１に示される不織布の組成
不織布Ａ：　麻６０％、ポリエステル４０％
不織布Ｂ：　麻６０％、パルプ２０％、ポリエステル２０％
不織布Ｃ：　ポリエステル１００％
不織布Ｄ：　レーヨン１００％
不織布Ｅ：　パルプ３０％、レーヨン７０％
不織布Ｆ：　パルプ３０％、レーヨン７０％
不織布Ｇ：　パルプ３０％、レーヨン７０％
【０１００】
評価基準
筆記インク像の状態
Ａ：インク残りなし。　　　Ｂ：わずかにインク残りあり、
Ｃ：少しインク残りあり、　Ｄ：インク残りあり
印字画像の消去状態
：消去残りなし、　△：わずかに消去残りあり、　×：消去残りあり
書換え印字の状態
○：良好、　△：わずかにかすれた部分あり、×：印字かすれあり
１００回後の印字状態
○：良好、　△：わずかにかすれた部分あり、　×：印字かすれあり
サーマルヘッドの汚れ
○：ほとんどなし、　△：少しあり、　×：あり
【０１０１】
評価基準
筆記インク像の状態
Ａ：インク残りなし。　　　Ｂ：わずかにインク残りあり、
Ｃ：少しインク残りあり、　Ｄ：インク残りあり
印字画像の消去状態
：消去残りなし、　△：わずかに消去残りあり、　×：消去残りあり
書換え印字の状態
○：良好、　△：わずかにかすれた部分あり、×：印字かすれあり
１００回後の印字状態
○：良好、　△：わずかにかすれた部分あり、　×：印字かすれあり
サーマルヘッドの汚れ
○：ほとんどなし、　△：少しあり、　×：あり
【０１０２】
【発明の効果】
以上、詳細かつ具体的な説明から明らかなように、本発明によって、可逆性記録媒体上に付着する筆記インク像を確実に除去できる方法と装置、その装置を用いて、繰り返し書き替えた場合にもサーマルヘッドのような加熱手段の機能低下の原因となる付着がなく、印字された画像の消去と新たな画像の印字を確実に実施でき、筆記インク像があっても信頼性の高い書き替えを実現できる可逆性記録媒体用画像消去記録装置を提供できる。
また、本発明の装置を用いることによって、筆記インク像をあらかじめ除去する手間が要らず、装置内で筆記インク像を除去するだけではなく表面に付着した汚れ、手垢、埃などを同時に除去することが可能になる。
その結果、印字画像の消去部およびサーマルヘッドへの汚れの付着が防止され、繰り返し使用によっても印字画像品質の低下がなく、信頼性の高い書き替えが実現できる。
したがって、書き替え可能な文書用の記録媒体に求められている筆記とそのインク物質の除去という課題が解決でき、オフィス作業の能率を維持したまま紙の使用量の削減を実現し、環境、資源、エネルギー問題の軽減に貢献できる。
【図面の簡単な説明】
【図１】本発明で用いる可逆性感熱記録媒体の一つの例について説明する構成図である。
【図２】本発明で用いる可逆性感熱記録媒体の一つの例について発色／消色のプロセスを示す図である。
【図３】本発明の筆記インク像除去手段を有する画像消去記録装置の基本的な構成を示す図である。
【図４】本発明の画像消去記録装置における筆記インク像除去手段の基本的な例を示す図である。
【図５】本発明の画像消去記録装置における筆記インク像除去手段の基本的な動作を説明する図である。
【図６】本発明における除去部材の繊維質シートの柔軟度を測定する方法を説明する図である。
【図７】本発明の画像消去記録装置における筆記インク像除去手段の一つの例を示す図である。
【図８】本発明の画像消去記録装置における筆記インク像除去手段の別の例を示す図である。
【符号の説明】
１１　支持体
１２　可逆性感熱記録層
１３　保護層
１５　バックコート層
３１　画像消去記録装置
３２　給紙部
３３　筆記インク像除去手段
３４　画像の消去部
３５　印字部
３６　ガイド部
３７　ローラ
３８　記録媒体
４１　押付け部材
４３　加圧機構
４４　受けローラ
４５　シート状除去部材[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention has a thermosensitive recording layer capable of reversibly forming a color-developed state and a decolored state, and a method for removing a written ink image written on a reversible thermosensitive recording medium capable of repeatedly rewriting and erasing printing. The present invention relates to an image erasing and recording apparatus incorporating a writing ink image removing unit.
[0002]
[Prior art]
In conventional hard copy, an image is formed by attaching and fixing a colorant such as ink or toner from outside to a recording medium such as paper, or a recording layer is provided on a base material such as paper such as heat-sensitive recording paper. However, a permanent image is formed by applying energy thereto to form a visible image. However, due to the spread of copiers and facsimile machines and the output of information from computers, the consumption of recording media mainly composed of paper has rapidly increased, causing social problems such as destruction of nature, energy consumption, and waste disposal.
[0003]
In order to solve these problems, a recording medium capable of erasing a once-recorded visible image and forming an image repeatedly has attracted attention. For example, a reversible thermosensitive recording medium (light scattering type reversible thermosensitive recording) capable of reversibly forming two states, transparent and cloudy, by utilizing the light scattering property change of a polymer film in which organic low molecular crystal particles such as fatty acids are dispersed. (For example, refer to Patent Document 1).
This recording medium has already been put to practical use as a content display section of a magnetic card. However, since the displayed image is printed in white on a black or blue colored background or a light-reflective background such as an aluminum vapor-deposited film, there is a problem that a normal hard copy has a great sense of discomfort.
[0004]
To solve this problem, a reversible thermosensitive recording layer containing a leuco dye as an electron-donating compound and a color-reducing agent as main components in a resin base material is provided on a support, and coloring and decoloring are performed. And a reversible thermosensitive recording medium (referred to as a leuco reversible thermosensitive recording medium) capable of forming a color-printed image reversibly on a white background has been proposed, and has been put to practical use in recent years (for example, see Patent Document 1). 2 and 3.).
The coloring and decoloring of the reversible thermosensitive recording medium is controlled by a difference in heating temperature and / or cooling rate. A reversible thermosensitive recording medium using this type of leuco dye and a specific color developer can be repeatedly printed / erased and does not require disposable paper, so it is extremely effective for resource saving or energy saving purposes. Means.
[0005]
More specifically, this reversible thermosensitive recording material repeats coloring and decoloring by utilizing the difference in the reaction rate between an acid and a base. A reversible thermosensitive recording material containing a leuco dye and an electron-accepting compound having a long-chain alkyl group as a color developer in a resin base material is disclosed. In particular, when the color developer has a long-chain alkyl structure, it has a high cohesive force and is effective in repeating color development and decoloration because it comes into contact with or separates from the leuco dye. (For example, see Patent Documents 4 and 5.)
[0006]
However, as a problem of such a reversible thermosensitive recording medium, when used repeatedly, foreign substances adhere to or accumulate on the surface such as hand marks and dust, which may reduce the function of the image forming unit or the image erasing unit. .
To solve these problems that occur when a reversible thermosensitive recording medium is used in the form of a sheet, there is a proposal in which an image forming apparatus is provided with a cleaning member such as a cleaning roll or a blade (for example, Patent Documents 6 and 7). reference.).
[0007]
In the office, on the other hand, information on the computer display is temporarily output to paper or the like as a hard copy using an output device such as a laser printer, and the contents are checked, and written or modified with a pencil or pen. It is frequently performed to mark such portions with a solvent-based writing instrument such as a marker pen, highlighter pen, or felt pen.
However, if the reversible thermosensitive recording medium is utilized as in the case of such general paper, it becomes possible to directly write or mark a comment or the like on image information recorded and displayed on the surface of the reversible thermosensitive recording medium. Combined with the feature of "reversibility", it is thought that convenience is high.
However, when the display image on the reversible thermosensitive recording medium becomes useless and is to be rewritten, the writing ink adhering to the recording medium surface adheres or burns to the erasing heater or the thermal head of the printing unit. As a result, the residue of the retouched ink remarkably lowers the erasing quality and printing quality of the reversible thermosensitive recording medium, leaving erasing and blurring of the printing, and eventually making it impossible to rewrite.
[0008]
In order to solve this problem, there is a method of writing by writing the reversible recording layer with a hot pen with a heating element, but this method can only add the same color as the color of the reversible thermosensitive recording layer. For example, it is impossible to write a deficit as usual, and a hot pen may cause burns when it comes into contact with the skin, which is not preferable from the viewpoint of safety, and furthermore, handwriting is not easy. And the expected convenience is greatly restricted.
[0009]
Therefore, it is conceivable to remove the writing ink image by using a cleaning member proposed in Patent Document 6 or 7, but it is difficult because the characteristics of the writing ink are completely different from hand marks and dust.
There are techniques already proposed for removing an ink image formed by a writing instrument on the surface of a reversible thermosensitive recording medium.
First, there is a proposal to use a reversible thermosensitive recording medium for an electronic blackboard, clean writing ink before rewriting of printing by a cleaning unit, and specifically use an elastic blade as a cleaning unit (for example, see Patent Document 1). 8).
[0010]
In addition, there is a proposal in which ink can be written on a reversible thermosensitive recording sheet and the written ink image is softened by heating, transferred to a roll, and scraped (for example, see Patent Document 9).
[0011]
Further, a mechanism for supplying a sheet-like removing member for removing a substance attached to the surface of the leuco-type reversible thermosensitive recording medium is provided, and the recording medium and the removing member are opposed while pressing the removing member against the surface with a pressure roller. There is a technology related to a device that removes an attached substance by moving the device in a direction (for example, see Patent Document 10).
[0012]
In order for the reversible thermosensitive recording medium to be truly highly convenient in an office as described above, (1) an ink image can be written on a surface of the recording medium by a writing instrument, and (2) The written ink image is formed on the recording medium with an adhesive force that cannot be easily removed by hand contact or paper contact during normal handling, and (3) erased when rewriting the recorded display image Before heating the recording medium by the heating means and / or the heating means of the thermal head, both the material and the device such as the reversible thermosensitive recording medium are examined so that the writing ink image can be completely removed from the surface, These three requirements must be met.
Considering the technology proposed in Patent Document 10 from such a viewpoint, the proposal does not consider (1) and (2) at all, but examines the requirement (3) only from the aspect of the device. It is still insufficient for the purpose of high convenience.
[0013]
The required adhesive force and the required completeness of removal also vary greatly depending on the surface properties of the material.For example, the conditions applied to whiteboard marker writing and wiping and erasing can be reversible. It does not apply to thermal recording media.
[0014]
It is clear that none of the above-mentioned known techniques takes the above three points into consideration.
According to the study results of the present inventors, it is possible to write on the surface with a writing instrument, and to have a degree of adhesion that a written ink image is not easily removed, and to completely remove the writing ink image when necessary. In addition to the three conditions, it has been recognized that the removed ink material must not fly into the apparatus and degrade the function of the component.
However, none of the conventional reversible thermosensitive recording media and the technologies proposed therefor satisfy these requirements, and it is considered that the demand for such reversible thermosensitive recording technology will increase in the future. This is a new problem that has never existed before.
[0015]
[Patent Document 1]
JP-A-55-154198
[Patent Document 2]
JP-A-2-188293
[Patent Document 3]
JP-A-2-188294
[Patent Document 4]
JP-A-5-124360
[Patent Document 5]
JP-A-6-210954
[Patent Document 6]
JP-A-06-008585
[Patent Document 7]
JP 06-047989 A
[Patent Document 8]
JP-A-6-32095
[Patent Document 9]
JP-A-7-70502
[Patent Document 10]
JP-A-2002-52748
[0016]
[Problems to be solved by the invention]
The object of the present invention has been made in view of the above-mentioned circumstances, and aims to enable a reversible recording medium to be effectively used as a substitute for paper used in office equipment, and to provide a writing instrument. It can be written and has an adhesive property so that the written ink image does not easily peel off, but if it is to be peeled off, it can be reliably removed to a level that does not pose a practical problem, and the removed ink substance is An object of the present invention is to provide a method and an apparatus for removing a writing ink image written on a reversible thermosensitive recording medium which does not scatter, and an image erasing recording apparatus incorporating a writing ink image removing means.
[0017]
[Means for Solving the Problems]
In order to solve the above problems, the present inventors have found that ink constituting a solvent-based writing instrument such as a marker pen, a highlighter pen, or a felt pen easily adheres to a nonwoven fabric containing flexible chemical fibers, and once adhered. It was found that the ink was hard to fall off.
The present inventors examined the surface properties of the reversible thermosensitive recording medium, and confirmed that, under certain conditions, writing with a writing instrument, a writing ink image was effective for adhesion and removal of the writing ink image. did.
In addition, the present inventors particularly use a sheet-like nonwoven fabric, adhere the nonwoven fabric to the reversible thermosensitive recording medium, and press and slide the nonwoven fabric to such an extent that the conveyance of the reversible thermosensitive recording medium is not impaired. It has been newly confirmed from many experiments that it is particularly preferable for the removal of.
Further, the present inventors need to use a non-woven fabric serving as a removing member that is thin and has a certain level of flexibility or more, and the direction of the fibers of the non-woven fabric has a certain relationship with the recording medium transport direction. Was found to be particularly preferable for further increasing the certainty of removing an ink image, and the present invention was created.
[0018]
The object of the present invention is to provide (1) an ink image formed by a writing instrument (referred to as a writing ink image) on a surface of a reversible thermosensitive recording medium capable of recording and displaying an image and erasing the image by a temperature change due to heating; A method in which a removing member is linearly abutted on the surface of the reversible thermosensitive recording medium, and the reversible thermosensitive recording medium and the removing member slide relative to each other to remove the reversible thermosensitive recording medium. Has a dynamic receding contact angle with respect to distilled water of 75 degrees or more and 100 degrees or less, and at least the contact portion of the removing member has a softness of 1.2 or more made of a nonwoven fabric containing chemical fibers. A method for removing a writing ink image on the surface of a reversible thermosensitive recording medium ", (2)" when the removing member is a sheet-like material, and the removal member contacts the reversible thermosensitive recording medium with the surface. Push from behind the removal member (3) "The pressing member has an edge portion, and presses the edge portion of the pressing member." The method for removing a writing ink image according to the above item (2) ", (4)" A direction perpendicular to the MD of a nonwoven fabric fiber which transports a reversible thermosensitive recording medium in a certain direction and constitutes a removing member. Wherein the reversible thermosensitive recording medium is at least a Leuco ink medium, wherein the method is adapted to the conveying direction. The removal of the writing ink image according to any one of the above items (1) to (4), wherein the recording material is a sheet-like material provided with a recording layer containing a dye and a developer on a support. Method ”, (6)“ Ink Constituting Writing Instruments ” Colorant, resin, and characterized in that surfactants and containing a solvent, is achieved by the paragraph (1), second (5) a method for removing the writing ink image according to any one of Items ".
[0019]
The object of the present invention is to provide a method for heating a reversible thermosensitive recording medium having an image recorded and displayed and having a writing ink image removed by the method according to any one of claims 1 to 6. And a method of erasing a display image ".
[0020]
Also, the above object is achieved by (8) heating the reversible thermosensitive recording medium, from which the display image has been erased by the method described in (7) above, at a temperature higher than the erasing temperature. And (9) heating the reversible thermosensitive recording medium from which the writing ink image has been removed by the method according to any one of the above items (1) to (6), and Method of forming ".
[0021]
Further, the object of the present invention is to transport a reversible thermosensitive recording medium capable of recording and erasing information by a temperature change due to heating in a certain direction, and form an ink image on a surface of the reversible thermosensitive recording medium formed by a writing instrument. An apparatus used for a method of removing a writing ink image by pressing a removing member against the surface of the reversible thermosensitive recording medium and pressing the removing member by sliding the reversible thermosensitive recording medium and the removing member relative to each other. There is used a reversible thermosensitive recording medium having a dynamic receding contact angle with respect to distilled water having a surface of 75 degrees or more and 100 degrees or less, and at least the abutting portion contains a chemical fiber and is made of a nonwoven fabric having a flexibility of 1.2 or more. A removing member, a pressing member for pressing the removing member against the surface of the reversible thermosensitive recording medium, and supporting the opposite surface of the surface of the reversible thermosensitive recording medium to the removing member and the reversible thermosensitive recording medium. A writing ink image removing device comprising at least a conveying member for holding the thermosensitive recording medium together with the pressing member, "(11)" a part of at least the pressing member which contacts and presses the reversible thermosensitive recording medium. (10) The writing ink image removing device according to (10), wherein the removing member is a sheet-like long object. (13) The reversible thermosensitive recording medium transport direction at a position where the removing member is pressed by the pressing member as a boundary. (12) wherein the upstream end of the writing ink image is fixed, and (14) "the pressing member and the transporting member are the removing member and the reversible thermosensitive device." Between the recording medium (10) to (13), wherein when the reversible thermosensitive recording medium is not conveyed to the position where the reversible thermosensitive recording medium is conveyed, the removing member and the convey member do not come into pressure contact with each other or do not come into contact with each other. (15) The apparatus for removing a writing ink image according to any one of (1) to (4), further comprising means for isolating the removing member when the removing member is not in sliding contact with the reversible thermosensitive recording medium. (10) The apparatus for removing a writing ink image according to any one of (14) to (14), (16) "having a removing member supply means for transporting the removing member to a position where the pressing member and the transport member face each other. The apparatus for removing a writing ink image according to any one of the above items (10) to (15), "(17)" removal member recovery for recovering the removal member after removing the writing ink image " Characterized by having means (18) The removing member for discharging the removing member after removing the writing ink image to the outside of the apparatus. (19) The apparatus for removing a writing ink image according to any one of the above items (10) to (17), wherein the removing member has a weight of 5 g or more. The apparatus for removing a writing ink image according to any one of the above items (10) to (18), which weighs less than 30 grams, (20) "the nonwoven fabric forming the removing member contains cellulose fibers." The apparatus for removing a writing ink image according to any one of (10) to (19), wherein the nonwoven fabric forming the removing member is rayon fiber and / or polyester fiber. (10) Item 22. The apparatus for removing a writing ink image according to any one of Items 20 to 20, wherein the direction perpendicular to the MD of the nonwoven fibers constituting the removing member is set to the transport direction of the reversible thermosensitive recording medium. The apparatus for removing a writing ink image according to any one of the above items (10) to (21). "
[0022]
In addition, the above object is achieved in (23) of the present invention, wherein the removing device according to any one of the above (10) to (22) is formed as a writing ink image removing unit on a reversible thermosensitive recording medium. The image erasing apparatus is provided with a heating unit for erasing a recorded display image. "
[0023]
Also, the above object is achieved by providing (24) the removal display device according to any one of the above (10) to (22) as a writing ink image removal means, and recording and displaying an image on a reversible thermosensitive recording medium. The image recording apparatus is provided with a heating means for forming the image recording apparatus.
[0024]
In addition, the object is to form a reversible thermosensitive recording medium using the removal device according to any one of the above items (10) to (22) as a writing ink image removing means. An image erasing and recording apparatus comprising a heating means for erasing a recorded and displayed image and a heating means for forming a recorded and displayed image on a reversible thermosensitive recording medium. "
[0025]
The object of the present invention is also to provide (26) a method of forming an ink image on a surface of a reversible thermosensitive recording medium capable of recording and displaying an image and erasing the image by a temperature change by heating with a writing instrument according to the present invention; The surface of the thermosensitive recording medium has a dynamic receding contact angle with respect to distilled water of 75 degrees or more and 100 degrees or less, and the ink constituting the writing instrument contains a colorant, a resin, a surfactant and a solvent. To form a writing ink image on the surface of a reversible thermosensitive recording medium.
[0026]
That is, the present invention is a method of removing an ink image (referred to as a writing ink image) formed on a reversible thermosensitive recording medium by a writing instrument by contacting a removing member with the recording medium and sliding the recording medium. At least the abutting portion of the member is made of a nonwoven fabric containing a chemical fiber having a flexibility of 1.2 or more, and has a dynamic receding contact angle with respect to distilled water having a surface of 75 to 100 degrees as a reversible thermosensitive recording medium. And a writing ink image removing method.
The method for removing a writing ink image according to the present invention having such characteristics is capable of (1) forming a writing ink image on the surface of a reversible thermosensitive recording medium, and (2) contacting the writing ink image with hand in normal handling. (3) When writing a display image formed on the recording medium, it is necessary to completely replace the writing ink image from the surface of the recording medium when necessary. And (4) it does not disperse the removed ink substance and therefore does not degrade the function of the components in a device for rewriting a recorded and displayed image (referred to as an image erasure recording device). The recording medium is highly convenient and can be easily used in an office.
Note that the writing implement in the present invention means a so-called solvent-based ink in which the constituent ink is at least a colorant, a resin, a surfactant and a solvent, for example, a marker pen, a felt-tip pen, a highlighter pen, a felt pen, or the like is used. .
[0027]
The outline of the characteristic portion of the present invention will be described below, but the details will be described later.
In the removing member used in the present invention, at least a portion in contact with the reversible thermosensitive recording medium is made of a nonwoven fabric containing a chemical fiber. It is sufficient that the contact portion is made of a non-woven fabric. For example, a non-woven fabric fixed to one end of a plate made of a relatively hard material such as a blade is applicable. However, it is particularly effective to press the sheet-like nonwoven fabric against the reversible thermosensitive recording medium from behind with a pressing member without fixing the nonwoven fabric.
In this case, it is more effective if the reversible thermosensitive recording medium is conveyed in a fixed direction and the CD direction of the fibers constituting the nonwoven fabric of the removing member is arranged in the conveying direction with respect to the conveying direction.
[0028]
This nonwoven fabric needs to have a flexibility of 1.2 or more in order to remove a writing ink image at a level that achieves the object of the present invention. The degree of flexibility is a value calculated by measuring the nonwoven fabric into a sheet shape by a predetermined method.
The nonwoven fabric used for the removing member is particularly preferably used when the basis weight is 5 g or more and less than 30 g.
[0029]
In addition, the properties of the surface of the reversible thermosensitive recording medium are important factors in order to sufficiently attach the writing ink image and to reliably remove the writing ink image.
As a result of the study by the present inventors, it has been confirmed that the dynamic receding contact angle to distilled water is required to be in the range of 75 to 100 degrees as the surface property of the recording medium. This dynamic receding contact angle is a value measured and calculated by a known method.
[0030]
In addition, in order to press the removing member against the reversible thermosensitive recording medium from behind, it is particularly effective to use a pressing member provided in the apparatus in which a portion pressed against the removing member is an edge-shaped elastic body. In this case, it is preferable that the linear edge-shaped portion is installed so as to be perpendicular to the transport direction of the reversible thermosensitive recording medium. The portion to be pressed as the removing member is not limited to the edge-shaped portion, and a roller-shaped elastic body can be used.
When the writing ink image removing apparatus of the present invention includes a pressing member, at least at a position pressed by the pressing member, the reversible thermosensitive recording medium to be conveyed and the removing member are pressed so that the pressing member and the conveying member sandwich the removing member. The member, the removing member, and the conveying member are arranged.
[0031]
Further, the present invention relates to an image recording and erasing apparatus having a writing ink image removing apparatus as one of the means, and a heating means (erasing means) for erasing a display recording image formed on a reversible thermosensitive recording medium. An image recording and erasing apparatus having both a heating means for forming a display recording image on a reversible thermosensitive recording medium (hereinafter referred to as a heating means for recording) and a writing ink image removing means, a heating means for erasing and a writing ink Included are an image erasing device having an image removing device, and an image recording device having a recording heating device and a writing ink image removing device (hereinafter, it is necessary to distinguish between the image erasing device and the image recording device. If there is no such device, it is collectively referred to as an image recording / erasing device).
[0032]
The reversible thermosensitive recording medium applied to the writing ink image removing method and the apparatus and the image recording / erasing apparatus of the present invention reversibly forms a visible image by utilizing energy such as heat, light, electricity, and magnetism. The rewriting, that is, the erasing and forming of the image, may be performed by using only one kind of energy or may be performed by combining two or more kinds of energy.
[0033]
The reversible thermosensitive recording medium applicable to the present invention is not particularly limited. Hereinafter, a typical example will be described.
First, a typical example of a reversible thermosensitive recording medium in which a display recorded image is rewritten using heat is one that uses reversible coloring of a leuco dye. This is the most suitable for a document in an office because a black color image with high contrast can be formed. This recording medium will be described later in detail.
As another method of rewriting using heat, for example, a recording layer in which crystal particles of an organic low-molecular compound are dispersed in a polymer is provided, and a recording medium using the reversible change in light scattering property is provided. Alternatively, a recording medium provided with a polymer liquid crystal layer and utilizing the reversible change in the light scattering property can be used.
The former is usually a process in which the recording layer is turbid to form a recorded display image by heating to a temperature equal to or higher than the melting point of the low-molecular compound, and is heated back to a temperature lower than the turbidity temperature to return to transparent and erase. Used.
The latter is used in a process of heating above the isotropic point and quenching to make the recording layer transparent to form a recorded and displayed image, and then to make the recording layer opaque by heating and then gradually cooling to erase the image.
In addition, there is a recording medium that uses a liquid crystal material or a polymer material alone or in combination and performs recording and erasing according to a difference in a heating temperature or a cooling rate after heating.
[0034]
Further, there is a recording medium having a memory property that can electrically form an image and does not require electric power to hold the image.
Among them, a recording medium that can be printed / erased by an electric field is effective in that power consumption can be reduced.
As an example of such a recording medium, there is one using a liquid crystal material. For example, a device using a ferroelectric polymer liquid crystal is preferable in that it has stable memory properties.
In addition, a smectic liquid crystal or a cholesteric liquid crystal material having a memory property can be used. These liquid crystal materials can form an image utilizing the change in the polarization characteristics of the recording layer, but can also form a reversible colored image by adding a dichroic dye.
These recording layers generally form an image reversibly by an electric field. However, it is possible to rewrite an image not only by an electric field but also by a combination with other energy such as heat, or to improve an image holding characteristic. There are ways to improve.
[0035]
Further, as a recording medium that can be electrically rewritten and recorded, a recording medium using an electrophoretic material can be used.
In this method, for example, white fine particles such as titanium oxide are dispersed in a colored solvent, and the particles are moved by an electric field to form a reversible image.
In particular, a recording layer in which the electrophoretic material is encapsulated in microcapsules and fixed on a support such as a polymer film with a resin is suitable as a rewritable reversible recording medium for documents.
Furthermore, spherical particles, half of the spheres are colored, and the other half are white particles confined in a microcapsule together with a medium, the microcapsules are held on a support, and the sphere is rotated by an electric field. A recording medium that reversibly forms an image is also applicable to the method of the present invention.
[0036]
When an image is formed by an electric field using such a recording medium, an electrostatic stylus, writing using a head in which these are arranged in a line, writing using an ion flow, or forming an electrostatic latent image using an electrophotographic photoreceptor are used. A known writing method such as a method of transferring data onto a recording medium can be used.
[0037]
Of these, a reversible thermosensitive recording medium (referred to as a leuco recording medium) using a material that reversibly develops / decolors by heat using a leuco dye can form a high-contrast image on a white background and can be used in office. Is considered to have more practical rewriting characteristics than the other recording media described above, and is most preferable for application to the method of the present invention.
This leuco type recording medium also includes a recording medium that develops and decolors depending on the difference in heating temperature and / or cooling rate after heating.
Such a leuco type recording medium is described in detail in, for example, JP-A-10-58724, JP-A-5-124360, JP-A-11-268419, and JP-A-11-1927373.
[0038]
According to the present invention, writing is performed on a reversible thermosensitive recording medium with ink, and the ink image formed by writing has a level of adhesion that does not cause a problem in use. By contacting, the ink is basically captured on the nonwoven fabric and removed from the recording medium, but in order to reliably achieve these, it is important to control the physical properties of the surface of the recording medium. In the present invention, it is specified that the physical receding contact angle with respect to distilled water is in the range of 75 to 100 degrees.
This dynamic contact angle can be measured by a generally known method. For example, it can be easily measured by using a dynamic contact angle measuring device DCA-2 type manufactured by Orientec. When the value of the dynamic receding contact angle obtained by this measurement falls within the range of 75 degrees to 100 degrees, an ink image can be formed by writing on a recording medium with a writing instrument, and the recording of the writing ink image can be performed. The fixing property to the medium and the removability of the writing ink image required at the time of rewriting the recorded display image can be compatible.
If the dynamic receding contact angle is smaller than 75 degrees, the removability of the written ink image becomes insufficient, and the remaining ink causes stains to adhere to the rewriting means of the recorded and displayed image, thereby causing image defects. It becomes. On the other hand, when the angle exceeds 100 degrees, the ink repels and it becomes difficult to write on a recording medium.
As will be described later, the reversible thermosensitive recording medium used in the present invention includes a recording layer provided with a protective layer on the recording layer, regardless of the formation of the protective layer. The physical properties of the surface layer of the medium need to have the dynamic receding contact angle.
[0039]
Further, in order to improve the adhesion of the writing ink image to the reversible thermosensitive recording medium, it is more effective to control the ink composition constituting the writing implement.
As described above, the writing implement used in the present invention is one in which the ink constituting the writing implement comprises at least a coloring material, a resin, a surfactant, and a solvent.
The coloring agent may be a dye or a pigment, but when the surface layer constituting the reversible thermosensitive recording medium contains an inorganic filler or a resin, the dyeing property to them and a light color easily remain after the writing ink image is removed. In view of the above, pigments are preferred over dyes.
In addition, a lower alcohol such as ethyl alcohol is preferable as the solvent in terms of ease of writing, repellency, and drying speed.
[0040]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a schematic cross-sectional view showing one example of a reversible thermosensitive recording medium (hereinafter also referred to as a recording medium) used in the method of the present invention.
As a typical example of the recording medium, as shown in FIG. 1A, a reversible thermosensitive recording layer (12) and a protective layer (13) are sequentially laminated on the upper surface of a support (11).
Further, as another typical example, as shown in FIG. 1B, a reversible recording layer (12) and a protective layer (13) are laminated on the upper surface of the support (11), and further, on the lower surface of the support. The back coat layer (15) is provided.
[0041]
Paper, synthetic paper, plastic film or the like is used as the support (11).
As the paper used as the support, a coated paper to which a filler is applied in advance together with a binder in order to enhance smoothness and whiteness is preferably used.
As the plastic film, a polyethylene terephthalate (PET) film or the like is used.
The film may be transparent or may have a filler dispersed therein to make it white.
If necessary, image information may be printed on the surface of the support.
[0042]
The thickness of the support (11) affects the thickness of the reversible thermosensitive recording medium, and the reversible thermosensitive recording medium used in the method of the present invention may be used in the same manner as general paper in offices. It is preferable that the sheet can be formed, and therefore a sheet having a small thickness is desirable.
Accordingly, the thickness of the support (11) is preferably about 0.05 mm to 0.5 mm, which is more practical than other recording media. However, when it is used for documents, it is generally used in terms of ease of handling. It is preferably from 0.05 mm to 0.25 mm, which is about the same as that of paper.
[0043]
The reversible thermosensitive recording layer (12) is a material whose optical properties such as absorption, transmission, reflection, and scattering with respect to visible light change depending on heat application conditions, and includes a material that can be reversibly fixed to two states at room temperature. Layer.
In particular, a reversible thermosensitive recording layer containing a leuco dye is preferable in that high contrast is obtained and visibility is excellent.
As the leuco dye, for example, a phthalide compound, an azaphthalide compound, a fluoran compound, a phenothiazine compound, a leuco auramine compound, or the like is used.
As a developer for reversibly developing a leuco dye, a compound in which an acidic group such as a phenolic hydroxyl group, a carboxylic acid group, or a phosphonic acid group is linked to a long-chain hydrocarbon group that controls intermolecular cohesion is used. A divalent group containing a hetero atom may be present between the linking group and the long-chain hydrocarbon group of these developers.
Specifically, a leuco recording medium as described in JP-A-5-124360 can be used.
The reversible thermosensitive recording layer is formed at least by these leuco dye, which is a reversible color-forming material, a color developer and a resin, and the resin is preferably a curable type that is resistant to thermal and mechanical stress accompanying rewriting repeatedly. .
The thickness of the reversible thermosensitive recording layer is about 3 μm to 15 μm.
[0044]
Although it is not always necessary to provide the protective layer (13) on the reversible thermosensitive recording layer, the recording layer is protected from thermal and mechanical stress by a thermal head or the like as a heating means, and the surface of the recording layer is protected. Very effective and preferred to prevent damage.
Further, in order to prevent the decomposition of the leuco dye due to ultraviolet rays, it is preferable to have a function of absorbing ultraviolet rays. It is also possible to provide the protective layer with two or more layers by separating the functions of the ultraviolet absorbing property and the thermal and mechanical strength in separate layers. In any case, it is preferable to use a curable resin from the viewpoint of strength.
In order to form a recorded display image, it is also important to use a heating means, for example, sliding with a thermal head. In some cases, a filler is added to make the surface of the recording medium uneven to some extent.
Further, for use as a document, it is required that the surface gloss be low to some extent, but this can also be achieved by adding a filler.
The protective layer may further contain a coloring agent. Especially for documents, when mixed with ordinary paper, the reversible recording medium may be colored so that it can be easily distinguished. The thickness of the protective layer is about 1 μm to 10 μm.
[0045]
The back coat layer (14) is particularly important when paper is used as the support, and can suppress curling of the reversible recording medium even if the paper absorbs moisture and expands and contracts. It is preferable to use a curable resin as the material of the back coat layer.
[0046]
It is necessary to select the hardness and thickness of the material according to the balance between the support, the recording layer and the protective layer described above.
In the reversible recording medium used in the present invention, an undercoat layer, a heat insulating layer, and the like can be further provided on the support, if necessary.
Further, a recording layer and a protective layer may be provided on both sides of the support so that printing can be performed on both sides.
The support (11) may have an information recording unit such as a magnetic, optical memory, magneto-optical, or IC memory. Further, various kinds of information such as image information, document identification information, and coordinate information may be coded and held by a barcode, a two-dimensional code, or the like. In particular, coordinate information can be detected by a pen or the like, and a visible image can be handwritten on a recording medium, and at the same time, can be captured and used as digital information.
[0047]
As described above, as the reversible thermosensitive recording medium used in the present invention, the writing ink image is securely adhered, and the writing ink image is surely removed by the removing member. Is required to have a dynamic receding contact angle of 75 ° to 100 ° with respect to distilled water on the surface.
[0048]
The manner in which the surface of the reversible thermosensitive recording medium has a dynamic receding contact angle in such a range will be described.
First, regarding the resin constituting the surface layer, it is preferable to use a silicone-based resin or a fluorine-based resin, and it is particularly preferable to use a silicone-modified polymer for controlling such surface properties.
As the silicone-modified polymer, a silicone graft polymer, a silicone block polymer, a silicone-modified acrylic polymer, a silicone-modified polyvinyl alcohol, and the like are preferable, and a silicone graft polymer is particularly preferable. As the silicone graft polymer, a silicone graft acrylic polymer, a silicone graft modified polyvinyl alcohol, and the like are preferable. Among them, a polymer that can be cross-linked by heat, ultraviolet rays, electron beams, or the like is suitable for durability of repetitive printing and erasing of a reversible thermosensitive recording medium. Particularly preferred from the point of view.
[0049]
For the surface layer, these silicone-modified polymers can be used alone or in combination with other resins. Polymers to be mixed include known thermoplastic resins such as polyester, acrylic, polystyrene, and polyurethane, as well as thermosetting resins, ultraviolet curable resins, and electron beam curable resins from the viewpoint of repetitive durability of printing and erasing as a reversible recording medium. And the like are preferred.
[0050]
In addition, as a method of obtaining a surface layer having the dynamic receding contact angle range, it is preferable that a filler is simultaneously contained in the resin component.
As the filler, conventionally known inorganic or organic fillers are used alone or in combination.
Examples of the organic filler include particles such as silicone resin, fluorine resin acrylic resin, and epoxy resin, hollow particles of thermosetting resin, polyethylene wax, shellac, wood powder, and cork powder.
Examples of the inorganic filler include silica, alumina, zinc oxide, antimony oxide, barium oxide, calcium oxide, magnesium oxide, iron ferrite, nickel ferrite, barium titanate, potassium titanate, calcium carbonate, magnesium carbonate, hydrous silicic acid, and hydrous silicic acid. Aluminum, hydrous calcium silicate, aluminum hydroxide, iron hydroxide, zinc sulfide, barium sulfate, titanium carbide, silicon carbide, molybdenum carbide, tungsten carbide, aluminum nitride, silicon nitride, boron nitride, zirconium nitride, vanadium nitride, titanium nitride, Examples include talc, kaolin, and clay.
Particularly preferred are calcium-coated silica particles.
[0051]
The filler is used by being dispersed in the resin described above. In particular, by controlling the particle size, the uneven shape of the surface changes, and the dynamic receding contact angle can be controlled.
That is, if the particle diameter is too small, it will not appear on the surface unevenness, so that the effect is small, and if it is too large, the brush ink is difficult to remove, so that the filler particle diameter is 0.2 to 2 μm, especially 0.4 to 1 μm. Are preferably used.
[0052]
FIG. 2 shows a basic color forming / decoloring process of a leuco type reversible thermosensitive recording medium.
FIGS. 2A and 2B show two typical examples of the coloring and decoloring processes depending on the material. Both are heated from the decolored state, and the temperature T at which the reversible coloring component melts. ₁ Once heated and rapidly cooled, the leuco dye is fixed in a colored state, and T ₁ The decolorization temperature range (T ₂ ~ T ₁ Heating to (1) will cause the leuco dye to decolorize and return to its original state.
Image printing is usually performed using a thermal head, but recording with laser light is also possible.
On the other hand, for erasing, a ceramic heater substrate having a belt-like heating element on a substrate and a protective layer formed of glass or the like, or a heat roller is practically used.
[0053]
The image erasure recording device used for the leuco-type reversible thermosensitive recording medium basically has an image printing unit and an erasing unit for erasing a printed image, and such an image erasure recording device is already known, for example, The details are described in JP-A-5-124360, JP-A-10-58724, JP-A-11-192779 and the like.
The image erasure recording apparatus of the present invention is obtained by further providing a writing ink image removing unit in addition to such a known apparatus.
The reversible thermosensitive recording medium needs to be writable with a writing instrument in order to enhance the convenience in use.
When the ink of the writing ink image is present on the surface, if the reversible thermosensitive recording medium is used repeatedly, the ink adheres to the erasing head (erasing heating means) and the print head (recording heating means), and the image quality is reduced. The erasure and printing process should be as inexpensive as possible, as it will cause degradation.
The image erasure recording apparatus of the present invention is provided with a means for removing a writing ink image to solve this problem.
[0054]
As an apparatus of the present invention, a writing ink image removing apparatus, a heating means for erasing a display recording image formed on a reversible thermosensitive recording medium (referred to as an erasing heating means), and a reversible thermosensitive recording medium as described above. Image recording and erasing apparatus having both heating means (hereinafter referred to as recording heating means) for forming a display recording image and a writing ink image removing means, and an image erasing apparatus having heating means for erasing and writing ink image removing means And an image recording apparatus including a recording heating unit and a writing ink image removing unit.
[0055]
Hereinafter, the present invention will be described in detail with reference to the drawings.
FIG. 3 shows a schematic configuration of an example of a typical image erasing and recording apparatus of the present invention, which includes an erasing heating unit, a recording heating unit, and a writing ink image removing unit.
In FIG. 3, (31) is an image erasure recording device, (32) is a paper feeding unit, (33) is a writing ink image removing unit, and (34) is an erasing unit (erasing heating) of an image recorded on the reversible recording layer. And (35) a printing unit (recording heating unit) for forming a color image (display recording image) on the reversible recording layer.
The apparatus further includes a guide section (36) for guiding the recording medium, a roller (37) for conveying the recording medium, and the like.
Further, although not shown, a power supply, a driving unit, a control unit, and the like are arranged.
After the recording medium (38) is conveyed to the removing means (33) by the conveying roller to remove the writing ink image, the recording medium (38) is sent to the erasing section (34), where the color image formed on the recording layer is erased and further printed. A new color image is printed in the section (35).
In the case where printing only needs to be performed using a new recording medium, the writing ink image removing means can be passed without functioning, or can be directly sent to the printing unit (35) by another route. Further, even when the writing ink image does not exist, the recording medium can be directly sent to the erasing unit (34).
In such a case, the detection may be performed by a sensor or the like, and the selection may be made automatically, or the user may determine and select.
In order to switch such an operation mode, means for this may be provided in the present apparatus itself, or may be performed from the connected computer side.
[0056]
The writing ink image removing means, which is a feature of the image recording apparatus of the present invention, will be described in more detail.
FIG. 4A shows the most basic structure of the writing ink image removing unit.
In FIG. 4, reference numeral (41) denotes a roller-shaped pressing member made of an elastic body.
The pressing member (41) is configured to apply pressure by a spring provided in the pressing mechanism (43). A receiving roller (44) is provided at a position facing the pressing member with respect to the recording medium conveyance surface.
The receiving roller (44) may be a roller having a conveying force by transmission from the drive unit, or may be a roller which simply rotates with the movement of the recording medium.
(45) is a removing member to be brought into contact with the recording medium surface, and is a fibrous sheet-like nonwoven fabric.
[0057]
FIG. 4B shows another example of the writing ink image removing unit.
In this example, the pressing member used is an elastic body having an edge portion extending in a direction inclined with respect to the moving direction of the recording medium, and this edge portion presses the removing member against the surface of the recording medium by the pressing mechanism (43). It is characterized by the following.
As will be described later, a pressing member having this edge portion is much more effective in removing the writing ink image than the roller-shaped pressing member.
[0058]
The receiving roller (44) has a strength to sandwich the recording medium by receiving the pressure from the pressing member, and has an action of bringing the removing member (45) and the recording medium into close contact with the pressing member.
The receiving roller itself is preferably made of an elastic material such as rubber so that the pressing member can uniformly apply pressure to the recording medium.
In FIG. 4, the pressing mechanism (43) is provided on the pressing member side. However, the pressing mechanism (43) is provided on the receiving roller (44) side, and the recording medium is sandwiched between the pressing mechanism and the removing member. May be applied.
An important point of the writing ink image removing means of the present apparatus is that the removing member is linearly adhered to the surface of the recording medium, and the recording medium is conveyed while maintaining the state. Due to the linear contact, a state is obtained in which the writing ink image is strongly adhered to the removing member while being peeled off, and the peeled writing ink is accumulated only in the linear portion of the removing member.
[0059]
Next, FIG. 5 is a schematic view of a writing ink image removing unit using an elastic body having an edge portion as a pressing member, similarly to FIG. 4B, and FIG. 5 shows the writing ink image removing unit of the present invention. The basic operation will be described (each number is the same as that shown in FIG. 4).
The recording medium (38) on which the writing ink image has been formed is conveyed to the writing ink image removing means (33) as shown in FIG. Between the pressing member (41) and the receiving roller (44), the recording medium (38) and the removing member (45) come into contact with each other while maintaining a linearly contacted state, and as shown in FIG. Is peeled off and secured and adhered to the fibers of the removing member (45).
The writing ink image on the recording medium (38) accumulates at the linear portion of the pressed removal member (45) at the edge of the pressing member (41), but the removal member is sufficiently adhered to the recording medium surface. In this case, no ink remains in the portion where the recording medium has passed.
In this way, the recording medium is conveyed while sliding on the removing member, and the writing ink image on the recording medium is completely removed as shown in FIG.
Since the removed member is made of fine fibrous material, the stripped ink substance is bitten and held in its eyes, and is kept in a state where it is hardly dropped.
[0060]
Although the removal method of the present invention basically physically removes a writing ink image on a recording medium, it only needs to pass through the removing means once, particularly to a level at which there is substantially no problem on the recording medium. Thus, the removed ink substance can be reliably held on the removing member so that the removed ink substance does not adhere to another recording medium again or stain a portion in contact with the recording medium such as a transport roller of the apparatus.
The method uses a nonwoven fabric containing a chemical fiber which has fine irregularities and is flexible as a removing member and which can be in close contact with the recording medium and slidably contact the recording medium surface, particularly a sheet-like nonwoven fabric. In order to make sliding contact with the recording medium, the removing member is pressed against the surface of the recording medium using a pressing member made of an elastic body.
The recording medium moves relatively to the pressing member, and the writing ink image on the recording medium is pressed by the pressing member, peeled off, and adhered and held to the irregularities of the erasing member fibers.
Due to the eyes of the fibers, the ink substance adheres strongly and does not fall off, so that it is possible to reliably secure the rewriting ink on the pressed-down removing member. In particular, when a member provided with an edge portion is used as the pressing member, such a result can be obtained remarkably.
[0061]
The feature of the present invention resides in the removing member, and the removing member (45) is basically made of a nonwoven fabric containing chemical fibers, and is particularly effective when a sheet-like material is used.
Similar to paper, the nonwoven fabric has fibers oriented to some extent in the MD direction, which is the winding direction at the time of production. When the ink adhering to the recording medium is scraped off by the fibers of the nonwoven fabric, the fibers are more likely to be scraped off by extending and extending laterally in the transport direction due to the unevenness of the fibers.
Moreover, since the entire fiber uniformly hits the surface of the recording medium, the ink can be reliably removed. Further, the scraped ink easily enters deep between the fibers, and the ink is reliably captured by the nonwoven fabric.
Therefore, it is preferable that the installation direction of the nonwoven fabric is perpendicular to the MD direction with respect to the transport direction of the reversible recording medium, that is, parallel to the CD direction.
[0062]
As a result of experiments using various nonwoven fabrics to remove the writing ink image by the removing means of the present invention, it was found that the nonwoven fabric was a sheet-like nonwoven fabric, and its flexibility was particularly important for enhancing the reliability of the removal. Was.
This degree of flexibility (referred to as flexibility in this case) can be quantified in the following manner. As shown in FIG. 6 (a), first, a fibrous sheet-like nonwoven fabric to be evaluated was cut into an isosceles triangle having a base of 60 mm and a height of 200 mm to obtain a test piece.
Next, a test table as shown in FIG. 6B was prepared on a horizontal table. The test table had a horizontal portion with a height of 20 cm and a slope with an angle of 45 degrees.
As shown in FIG. 6 (c), the triangular test piece is placed on a horizontal portion, and the vertex A of the test piece is set from the horizontal portion while the edge DE of the test table and the base BC of the test piece are kept parallel. Extrude slowly.
The tip of the test piece is bent downward by its own weight as shown in FIGS. 6D and 6E, and when pushed out to a certain point, the vertex A comes into contact with the slope. At this time, as shown in FIG. 6 (f), the length of the test piece extruded from the side BC of the edge of the test table is defined as (L).
Here, the value obtained by the following equation from the measured (L) is used as the flexibility of the fibrous sheet.
The degree of flexibility can be measured for both MD and CD of the fiber.
[0063]
(Equation 1)
Flexibility = (1 / L) × 100
[0064]
Paper made of various pulp fibers, non-woven fabrics in which pulp fibers and synthetic fibers are mixed, non-woven fabrics of synthetic fibers, the results of the above-described measurement of the degree of softness and the evaluation of the removability of a writing ink image using the above-described handwriting eraser. It was found that the removability was good when the softness was 1.2 or more.
When a fibrous sheet having a flexibility of 1.2 or more is used, the writing ink image is almost completely attached to the fibers of the sheet and removed from the recording medium, and the subsequent erasing of the printed image on the recording medium and printing of a new image are performed. Even if it is repeated, a good recorded display image can be stably formed on the recording medium. This effect is particularly remarkable when a nonwoven fabric containing chemical fibers is used.
However, when a fibrous sheet having a flexibility of less than 1.2 is used as the removing member, a part of the writing ink image on the recording medium often remains as it is, and the image of the recording medium remains in this state. When the erasure and new printing are repeated, the substance forming the remaining writing ink image is transferred to the print head and adheres to the print image, causing a blurred printed image.
[0065]
Further, a particularly preferable fibrous sheet as the removing member in the present invention is paper or nonwoven fabric having a square meter basis weight of 5 to 20 g.
In a fibrous sheet having a square meter basis weight larger than this, a part of the writing ink image may remain, and is transferred to the print head and fixed, and the contact in printing on the recording medium becomes insufficient, and the print image quality is reduced. Lower.
If the square meter basis weight is less than this, the writing ink image may be damaged when it is pressed by the pressing member and slides on the recording medium. Thus, maintenance such as replacement and cleaning of the removing member is troublesome.
[0066]
Further, as the removing member used in the present invention, it is necessary that the portion in contact with the recording medium is a nonwoven fabric containing at least synthetic fibers and has high flexibility of at least 1.2. It is preferable that the entire removal member, not the contact portion, be in a sheet shape.
As the material of the nonwoven fabric, for example, rayon fiber, polyester fiber, acrylic fiber, a material containing one or more kinds of synthetic fibers such as nylon fibers is used, and if necessary, wood pulp, such as cellulose fibers obtained from plants such as hemp. A mixture of natural fibers can be used.
By using these fibrous and highly flexible sheets, the writing ink image on the recording medium can be reliably removed.
Further, the removing member may contain a small amount of water or a solvent for the purpose of increasing the flexibility of the fibrous material to increase the adhesiveness or weakening the adhesive force between the recording medium surface and the ink image.
[0067]
As shown in FIG. 4, in the method of the present invention, this is an important factor in pressing the removing member against the recording medium surface by an elastic pressing member to increase the adhesion of the removing member to the recording medium surface.
When the pressing member has a flat shape of the elastic body, it may be difficult to make close contact with the pressing member. It is necessary that the removing member and the recording medium have a shape such that they contact and adhere to each other as linearly as possible. .
In the present invention, the linear contact between the removing member and the recording medium includes “linear” and a case where there is a certain width (nip width) therefrom. When a hard rubber is used as the pressing member, the nip width becomes substantially linear. When the pressing member becomes soft, the nip width becomes 1 mm. When a roller-shaped member described below is used, the nip width becomes about 2 to 3 mm. Usually, a narrow nip width is effective.
One roller as a pressing member, as shown in FIG. 4A, can concentrate the pressure on the nip portion where the pressure is narrow even if the recording medium surface has slight irregularities. It is preferable that the roller-shaped pressing member is fixed so as not to rotate when the writing ink image is removed.
[0068]
However, there is a pressing member having an edge portion as shown in FIG. 4B, and the method of bringing the removing member into close contact with the recording medium at this edge portion to make sliding contact with the recording medium more reliably erases the ink. This is much more effective than a roller-shaped pressing member.
The reason is that, according to the method using the pressing member having the edge portion, the pressure concentrates linearly, and the removing member can be brought into close contact with the recording medium surface even when the pressing force is relatively low. Conceivable.
In other words, if the recording medium is slid on a wide surface and pressed with high pressure, the frictional force with the recording medium increases, and the recording medium is braked, which may make it impossible to convey. , The paper can be conveyed even if it is pressurized at a level at which a sufficient effect of removing the writing ink image can be obtained.
[0069]
FIG. 7 shows a writing ink image removing means similar to that of FIG. 4, but further uses a fibrous sheet as a removing member, and fixes the end of the sheet to the upstream side in the recording medium transport direction.
When the removing member is fixed in this way, it is possible to prevent the removing member from being pulled from the edge portion of the pressing member by being pulled in the transport direction of the recording medium due to friction with the surface of the recording medium.
If the removal member is displaced, the writing ink image cannot be completely peeled off, and part of the writing ink image remains on the recording medium surface and adheres to the printing portion of the heating means for erasing and / or recording the image, thereby rewriting the image. Will be hindered.
However, according to the apparatus shown in FIG. 7, the writing ink image is reliably peeled off, transferred to the removing member and held, and no problem occurs due to the remaining ink material.
Further, as shown in FIG. 8, the pressing member of the elastic body has a plurality of edges, and the writing member can be more reliably removed by bringing the removing member into close contact with the recording medium at a plurality of locations and making sliding contact.
[0070]
The writing ink image removing means in the present invention is to physically remove the writing ink image on the recording medium by pressing the removing member against the surface of the recording medium with a pressing member. In order to bring the recording medium into close contact, not only the shape and hardness of the pressing member as described above, but also the properties of a conveying member such as a receiving roller or a belt that sandwiches the recording medium via the pressing member and the removing member are important.
If the conveying force of the recording medium is not sufficient as the conveying member, the recording medium cannot overcome the frictional force with the removing member and cannot be reliably conveyed.
In order to bring the recording medium and the removing member into close contact with each other and to obtain a sufficient conveying force, the conveying member is preferably an elastic receiving roller or belt.
If the receiving roller is a rigid body, the recording medium and the removing member may be partially insufficiently brought into close contact with each other, causing ink to remain.
[0071]
In addition, it is preferable for reliable ink removal that the receiving roller or the belt, which is a conveying member constituting the writing ink image removing unit, is an elastic body, and is an elastic body having a hardness lower than the hardness of the opposing pressing member. .
With such a hardness relationship, the edge portion of the pressing member slightly bites into the conveying member side with the removing member and the recording medium interposed therebetween, and at this time, the removing member and the recording medium can be uniformly adhered to each other. The sliding contact in this state makes it easier to reliably remove the writing ink image.
The receiving roller generally has a structure in which an elastic body such as rubber is coated on a metal core. In this state, the hardness and the rubber thickness are adjusted to create an appropriate biting state.
However, if the biting amount is too large, it becomes difficult to convey, so this point needs to be adjusted in relation to the hardness of the pressing member.
Also, when receiving with an elastic belt, it is preferable that the pressing member, the removing member, and the recording medium are sandwiched at a portion where the belt is wound around a rigid roller such as a metal, and the bite amount is adjusted in the same manner as when a rubber roller is used. I do.
[0072]
As described above, the writing ink image removing unit according to the present invention sandwiches the removing member and the recording medium between the pressurized pressing member and the conveying member such as the receiving roller, and slides the removing member and the recording medium surface. Things.
The recording medium is sent from the paper supply unit to the writing ink image removing unit. However, in a state where pressure is applied between the pressing member and the receiving roller, the recording medium hardly enters the gap and cannot be conveyed. .
For this reason, it is preferable to control the pressure unit so that the pressure of the pressing member is applied after the leading end of the recording medium passes through the pressing member, for example, the edge. By doing so, the recording medium is conveyed in a state of being in close contact with the removing member, and is slid in contact therewith to remove the ink image.
Further, if such control is performed, even if the receiving roller of the conveying member is rotating until the recording medium reaches the pressing member, the surface of the removing member in contact with the receiving roller is deteriorated by friction with the receiving roller. It is possible to prevent the ink from being damaged or damaged, and to constantly exhibit stable ink removal properties.
[0073]
In order to reliably convey the recording medium as described above and to maintain stable removal of ink by the removing member, the pressing member is previously placed at a position away from the receiving roller, and the edge of the pressing member is removed. It is also effective to move the removing member and the recording medium to a position where a predetermined pressure is applied after the leading end of the recording medium passes through the position.
At this time, it is preferable that the removing member also moves together with the pressing member. However, even if only the pressing member moves and the removing member is in contact with the recording medium, a sufficient effect can be obtained as long as the pressure is not substantially applied.
Also, instead of moving the pressing member, it is possible to adopt a method of moving the receiving roller side to facilitate the insertion of the recording medium into the position of the pressing member, and the same effect can be obtained.
[0074]
By taking the same method for the state after the recording medium has passed through the writing ink image removing unit, the removing member can be prevented from being deteriorated or damaged, and can exhibit stable ink removing properties.
That is, a method of releasing the pressure applied to the pressing member and the receiving roller before or when the rear end of the recording medium passes through the position of the edge portion of the pressing member is effective. This is made possible by controlling the pressure section.
[0075]
Similarly, before the rear end portion of the recording medium passes, or when passing, the pressing member is moved so that the recording medium does not come into contact with the removing member, or at least deterioration of the removing member by preventing pressure contact, Damage can be prevented, and stable ink removal properties can be exhibited. Further, instead of moving the pressing member, a method of moving the receiving roller to release the pressure contact is also possible, and the same effect can be obtained.
[0076]
The writing ink image removing means in the present invention is a state in which the fibrous sheet-like removing member is uniformly in close contact and pressure contact with the recording medium surface on which the writing ink image is formed, by moving the recording medium and slidingly contacting the surface, The writing ink image on the recording medium can be peeled off and transferred to the removing member.
Since the removing member is pressed at the edge of the pressing member, the ink is linearly attached to and held by the removing member. If a large number of retouched recording media are allowed to pass through in this state, the amount of ink attached to the removing member increases. If the amount of ink increases excessively, the ink cannot be completely removed from the recording medium.
In addition, a large amount of the adhered ink drops off and stains other parts of the apparatus, and adheres to the back surface of the recording medium, or adheres to the printed image erasing section or the printed section, thereby deteriorating the burn-in image quality. Sometimes.
In order to prevent this, the removal member may be moved by a fixed amount at a time when it has adhered to some extent, and the new portion may be brought into close contact with the recording medium by the pressing member so as to make sliding contact.
Therefore, it is desirable that the writing ink image removing means in the present invention is provided with a feed mechanism for moving the removing member by a fixed amount.
[0077]
The timing of supplying a new portion of the removing member to the press contact portion by such a removing member feeding mechanism may be determined by the user himself based on the amount of ink attached to the removing member, or the amount of attachment may be detected. Then, the feed may be controlled.
However, for the sake of simplicity, for example, it is preferable to perform control such that a single recording medium is moved by a fixed amount after passing. When the movement of the removing member is controlled by the number of passing sheets, the number of passing sheets needs to be set mainly by the ink holding ability of the removing member. Even if there is a large amount of the ink substance that has been peeled off, it is important to set a level that can be sufficiently retained with some allowance, based on experimental prediction.
[0078]
When the new portion is brought into pressure contact with the recording medium by the movement of the removing member as described above, the direction in which the removing member is moved is preferably the direction opposite to the direction in which the recording medium is conveyed.
If the ink is moved in the same direction, if the ink drops from the removing member, there is a risk that the writing ink image may be attached again on the removed recording medium. Can be avoided.
[0079]
When a new portion is supplied by moving the removal member to which ink has adhered in a linear manner, the amount of movement must be such that the ink on the removal member does not reliably contact the next transported recording medium. is necessary.
When the recording medium is brought into sliding contact with the recording medium, even if the removal member is fixed upstream, the removal member itself may be stretched, and thus may be pulled in the transport direction by friction with the recording medium. It is important to make the movement amount larger than the required minimum amount in order to surely prevent the attached ink including such portions from coming into contact again.
However, if the amount of movement for each time is too large, the number of processed sheets from which the writing ink image can be removed by one removing member decreases, and therefore the amount of movement is excessively increased after satisfying the above conditions. It is also preferable from a practical point of view not to do so.
A structure in which the removing member is wound in a roll shape and is sent out by a predetermined amount when necessary is effective for reducing the frequency of replacement of the removing member. Further, in this case, it is more preferable to use a structure in which the used part is wound up, since the replacement of the removing member becomes easy.
[0080]
As described above, it is preferable that the removing member is used while being moved little by little so that the amount of ink adhering to at least one location does not become too large. The removing member is a fibrous sheet. If the removing member is used while being shifted little by little, there is no longer a portion that can be newly used, and it is necessary to replace it.
Therefore, it is preferable that the writing ink image removing unit is provided with a unit that supplies a sheet of a new removing member.
Similarly, it is preferable to provide a discharging means for discharging the removing member from the writing ink image removing means at the end of use. Since ink has adhered to the removal member after use, the hand may become dirty when it is pulled out by hand, or the inside of the device may be soiled. Processing becomes easy.
[0081]
It is preferable that the replacement of the removal member sheet is provided with a removal member replacement time instruction means for detecting the remaining amount of the removal member so that the user can know the time of replacement and notifying the user. Alternatively, it is more effective if a means for automatically supplying and exchanging a plurality of stocked sheet-shaped removing members is provided.
When the remaining amount of the removing member is exhausted, it is important to replace the removing member in order to realize stable erasure of the handwritten object. If the ink is kept in sliding contact with the recording medium at the same position, the ink cannot be adhered and held or cannot be peeled off from the recording medium.
This causes ink sticking to the image erasing section or the printing section, which may degrade image quality. Therefore, it is practically required that the apparatus is provided with a rewriting stop means for preventing the rewriting operation from being performed until the replacement is completed when the remaining amount is exhausted.
[0082]
As can be understood from the above description, the ink image removing means of the present invention basically applies the interposed pressure between the removing member and the recording medium between the pressing member and the receiving roller to bring the recording medium into sliding contact. Sufficient means must be provided for reliable transport.
Therefore, the receiving roller itself may be provided with a conveying force. However, it is also preferable to provide a conveying roller for pushing the recording medium upstream of the removal. Such a conveying roller may be a roller that is fed in contact with a part of the recording medium, but it is preferable that the roller is uniformly fed in contact with the whole. In this case, the conveyance stability is obtained, and the recording medium is hardly deformed.
[0083]
As described above, it is also preferable to provide a transport unit downstream of the ink image removing unit for the purpose of achieving stable transport. This may be used as an image erasing section for erasing a print image on the recording layer, or as a pressurizing conveyance roller (platen roller) for a printing section for writing on the recording layer. It is.
[0084]
The reversible thermosensitive recording medium used in the image recording and erasing apparatus of the present invention is preferably provided with a reversible thermosensitive recording layer which develops / decolors by heat on a support. In this method, both erasing and printing of a printed image are performed by heat, and rewriting can be achieved by a device having a relatively simple structure using a conventional heater or thermal head.
Although the basic configuration of the image recording and erasing apparatus is as shown in FIG. 3, the arrangement of each part is made vertical and the transport path is bent in consideration of the installation area of the apparatus and the size of the recording medium. It is also possible to increase convenience.
Such flexibility on the device is particularly excellent in the case of a reversible thermosensitive recording medium, and the size of the device itself is easier to realize than other methods.
In a reversible thermosensitive recording medium, an erasing heating means including an erasing heater such as a heat roller or a ceramic heater substrate for erasing a printed image on a recording layer, and a thermal heating means for forming a recorded notation image on the recording layer. What is necessary is just to install at least the heating means for image formation like a head.
[0085]
The present invention enables rewriting even when a writing ink image is formed on a reversible thermosensitive recording medium, but excludes a means for forming a recording image on a recording layer, an image that executes only erasing. An erasing device is also possible. In this case, both the print image and the writing ink image formed on the recording medium can be erased, and the recording medium can be easily returned to the initial state without the image.
[0086]
For the purpose of rewriting recording for documents, a recording medium having a reversible recording layer utilizing the coloring / decoloring of leuco dye among reversible thermosensitive recording media can easily obtain a black-colored image with high contrast. It is advantageous from this. As described above, this recording medium achieves reversibility by using, for example, a developer having a long-chain structure, and printing and erasing can be stably repeated by heating temperature or cooling rate. This allows the image to be changed easily by the above-described image erasure recording apparatus.
Furthermore, according to the present apparatus, since the writing ink image removing means is provided, it is possible to automatically erase important confidential writing ink images for documents automatically, and to stably repeat rewriting of print images. it can.
[0087]
【Example】
The embodiments of the present invention have been specifically described above, and more specific examples will be described below.
In this example, the following reversible thermosensitive recording medium was used as an example. In addition, "Peace" made by Mitsubishi Pencil, which is an alcohol-based marker, was used as a writing instrument.
[0088]
Production example of recording medium
[Recording layer]
1) 2-anilino-3-methyl-6-dibutylaminofluorane 2 parts
2) 8 parts of a developer having the following structure
[0089]
Embedded image

3) Color-decoloring control agent having the following structure: 3 parts
[0090]
Embedded image

4) 15 parts of acrylic polyol resin (LR503, manufactured by Mitsubishi Rayon Co., Ltd.)
5) 130 parts of tetrahydrofuran (THF) solution
[0091]
The composition was pulverized and dispersed to an average particle size of about 1 μm using a ball mill. To the obtained dispersion, 20 parts of Coronate HL (adduct type hexamethylene diisocyanate 75% ethyl acetate solution) manufactured by Nippon Polyurethane Co., Ltd. was added and stirred well to prepare a recording layer coating liquid.
The coating solution for the recording layer having the above composition was applied on a Shirai coat paper manufactured by Daishowa Paper Co., Ltd. using a wire bar, dried at 100 ° C. for 2 minutes, and then heated at 60 ° C. for 24 hours to obtain a film having a thickness of about 9.0 μm. A recording layer was provided.
[0092]
[Protective layer]
1) Acrylic polyol resin (LR327 manufactured by Mitsubishi Rayon) 10 parts
2) Silica (P-832 manufactured by Mizusawa Chemical Co., Ltd.) 4 parts
3) 1.2 parts of silicon graft polymer (GS1015 manufactured by Toagosei Co., Ltd.)
4) MEK 50 parts
The composition was pulverized and dispersed using a ball mill to an average particle size of about 1.0 μm. To the resulting dispersion was added 4 parts of Coronate HX manufactured by Nippon Polyurethane Co., Ltd., and the mixture was stirred well to prepare a protective layer coating solution. The protective layer coating solution was coated on the recording layer using a wire bar, dried at 100 ° C. for 2 minutes, and then heated at 60 ° C. for 24 hours to form a protective layer having a thickness of about 3.0 μm. A reversible thermosensitive recording medium of the present invention having a size was prepared.
[0093]
(Examples 1 to 14, Comparative Examples 1 to 5)
A reversible thermosensitive recording medium on which a printed image was formed and characters and lines were written with a marker was prepared.
After the recording ink is passed through the recording medium to remove the writing ink image and erase the print image in the image erasure recording device of FIG. 3 provided with the writing ink image removing means (32) shown in FIG. An operation to rewrite a new image was performed.
However, the nonwoven fabric shown in Table 1 was used for the removing member, a rubber material having a hardness of 30 degrees was used for the pressing member, and the linear pressure was 2 kg. A rubber roller having a hardness of 60 degrees was used as the receiving roller.
Table 1 shows the type of the removing member, the installation direction of the removing member, the degree of flexibility, the removed state of the writing ink image, the erased state of the printed image, and the state of rewriting printing.
The printing state after repeating this operation 100 times and the degree of contamination of the thermal head are also shown. The stain on the thermal head is determined by the degree of adhesion to the cotton swab when rubbed five times with a cotton swab moistened with alcohol.
[0094]
(Example 15)
4 is provided as the writing ink image removing means (32) shown in FIG. 4 (a), and passes through a recording medium on which a printed image is formed and characters and lines are written with a marker. Then, after the writing ink image was removed and the printed image was erased, an operation of rewriting to another printed image was performed.
However, a sheet made of the nonwoven fabric B was used as the removing member, a rubber material having a hardness of 60 degrees was used as the pressing member, and the linear pressure was 2 kg. A rubber roller having a hardness of 23 degrees was used as the receiving roller.
As a result, the writing ink image was completely removed, and the printed image was replaced with another image.
This series of operations was repeated 100 times. However, the same recording medium was used, and characters and lines were written with a marker each time. The printed image was a random document image.
As a result, it was confirmed that the writing ink image was reliably removed, and that there was no abnormality in erasing and printing of the printed image.
[0095]
(Example 16)
3 is provided with the writing ink image removing means (32) shown in FIG. 7 through a recording medium on which a print image is formed and characters and lines are written with a marker. After removing the ink image and erasing the printed image, an operation of rewriting to another image was performed.
However, a sheet made of the nonwoven fabric A was used as the removing member, a rubber material having a hardness of 40 degrees was used as the pressing member, and the linear pressure was 2 kg. A rubber roller having a hardness of 60 degrees was used as the receiving roller.
As a result, the writing ink image was completely removed, and the printed image was replaced with another image.
This series of operations was repeated 100 times. However, the same recording medium was used, and characters and lines were added each time with a marker. The printed image was a random document image.
As a result, it was confirmed that the writing ink image was reliably removed, and that there was no abnormality in erasing and printing of the printed image.
[0096]
[Table 1-1]

[0097]
[Table 1-2]

However, a reversible recording medium having a surface with a dynamic receding contact angle of more than 100 degrees could not form an evaluable drawing line because the ink was repelled.
[0098]
In Table 1, the installation direction is the installation direction of the nonwoven fabric relative to the transport direction of the reversible recording medium, and indicates which direction of the nonwoven fabric is parallel to the transport direction. Therefore, in the case of CD, the main fiber direction of the nonwoven fabric is transverse to the transport direction, and in the case of MD, it is parallel.
[0099]
Composition of nonwoven fabric shown in Table 1
Non-woven fabric A: hemp 60%, polyester 40%
Non-woven fabric B: hemp 60%, pulp 20%, polyester 20%
Non-woven fabric C: 100% polyester
Non-woven fabric D: 100% rayon
Non-woven fabric E: pulp 30%, rayon 70%
Non-woven fabric F: Pulp 30%, rayon 70%
Non-woven fabric G: 30% pulp, 70% rayon
[0100]
Evaluation criteria
State of writing ink image
A: No ink remaining. B: Slight ink remaining,
C: Ink remains slightly D: Ink remains
Erase status of print image
: No erasure left △: Slight erasure left ×: Erasure left
Rewriting status
：: good, △: slightly blurred, ×: blurred print
Printing status after 100 times
：: good, △: slightly faint, ×: faint printing
Thermal head dirt
○: almost none, △: slightly, ×: available
[0101]
Evaluation criteria
State of writing ink image
A: No ink remaining. B: Slight ink remaining,
C: Ink remains slightly D: Ink remains
Erase status of print image
: No erasure left △: Slight erasure left ×: Erasure left
Rewriting status
：: good, △: slightly blurred, ×: blurred print
Printing status after 100 times
：: good, △: slightly faint, ×: faint printing
Thermal head dirt
○: almost none, △: slightly, ×: available
[0102]
【The invention's effect】
As described above, as apparent from the detailed and specific description, according to the present invention, a method and an apparatus capable of reliably removing a writing ink image adhering on a reversible recording medium, using the apparatus, when repeatedly rewritten There is no adhesion that causes the deterioration of the function of the heating means such as the thermal head, and the erase of the printed image and the printing of the new image can be performed reliably. Can be provided.
Further, by using the apparatus of the present invention, it is not necessary to remove the writing ink image in advance, and it is possible to not only remove the writing ink image in the apparatus but also simultaneously remove dirt, hand stains, dust, etc. attached to the surface. Becomes possible.
As a result, the adhesion of stains to the erased portion of the printed image and the thermal head is prevented, and the quality of the printed image is not degraded by repeated use, and highly reliable rewriting can be realized.
Therefore, it is possible to solve the problem of writing and removing ink material required for a rewritable document recording medium, and to reduce the amount of paper used while maintaining office work efficiency. And contribute to the reduction of energy problems.
[Brief description of the drawings]
FIG. 1 is a configuration diagram illustrating one example of a reversible thermosensitive recording medium used in the present invention.
FIG. 2 is a diagram illustrating a color development / decoloration process for one example of a reversible thermosensitive recording medium used in the present invention.
FIG. 3 is a diagram showing a basic configuration of an image erasing and recording apparatus having a writing ink image removing unit of the present invention.
FIG. 4 is a diagram showing a basic example of a writing ink image removing unit in the image erasure recording apparatus of the present invention.
FIG. 5 is a diagram illustrating a basic operation of a writing ink image removing unit in the image erasure recording apparatus of the present invention.
FIG. 6 is a diagram illustrating a method for measuring the flexibility of a fibrous sheet of a removing member according to the present invention.
FIG. 7 is a diagram showing one example of a writing ink image removing unit in the image erasure recording apparatus of the present invention.
FIG. 8 is a diagram showing another example of a writing ink image removing unit in the image erasure recording apparatus of the present invention.
[Explanation of symbols]
11 Support
12 Reversible thermosensitive recording layer
13 Protective layer
15 Back coat layer
31 Image deletion recording device
32 Paper feed unit
33 Writing ink image removing means
34 Image deletion section
35 Printing section
36 Guide part
37 rollers
38 Recording medium
41 Pressing member
43 Pressing mechanism
44 Receiving roller
45 sheet removal member

Claims (26)

An ink image formed by a writing instrument (referred to as a writing ink image) is formed on a surface of a reversible thermosensitive recording medium capable of recording and displaying an image and erasing the image by a temperature change due to heating. A linear contact between the reversible thermosensitive recording medium and the removing member by sliding relative to each other, wherein the surface of the reversible thermosensitive recording medium has a surface of 75 to 100 degrees with respect to distilled water. The surface of the reversible thermosensitive recording medium, which has a dynamic receding contact angle, and wherein at least the abutting portion of the removing member has a softness of at least 1.2 made of a nonwoven fabric containing a chemical fiber. How to remove the writing ink image. 2. The removing member according to claim 1, wherein the removing member is a sheet-like material, and the contact of the reversible thermosensitive recording medium with the surface by the removing member is performed by pressing the removing member from behind the removing member. How to remove the writing ink image. The method for removing a writing ink image according to claim 2, wherein the pressing member has an edge portion, and presses the edge portion of the pressing member. 4. The writing ink image according to claim 2, wherein the reversible thermosensitive recording medium is conveyed in a certain direction, and a direction perpendicular to the MD of the nonwoven fabric constituting the removing member is adjusted to the conveying direction. Removal method. The writing ink image according to any one of claims 1 to 4, wherein the reversible thermosensitive recording medium is a sheet having a recording layer containing at least a leuco dye and a color developer provided on a support. Removal method. The method for removing a writing ink image according to any one of claims 1 to 5, wherein the ink constituting the writing implement includes a coloring agent, a resin, a surfactant, and a solvent. A method for heating a reversible thermosensitive recording medium having a recorded and displayed image and from which a writing ink image has been removed by the method according to any one of claims 1 to 6, thereby erasing the displayed image. A method for forming a display image by heating the reversible thermosensitive recording medium from which a display image has been erased by the method according to claim 7 at a temperature higher than the erasing temperature. A method for forming a display image by heating the reversible thermosensitive recording medium from which the writing ink image has been removed by the method according to claim 1. A reversible thermosensitive recording medium capable of recording and erasing information due to a temperature change due to heating is conveyed in a certain direction, and an ink image formed on a surface of the reversible thermosensitive recording medium formed by a writing instrument (referred to as a writing ink image) is reversibly changed. An apparatus used for a method in which a removing member is pressed against and brought into contact with the surface of the thermosensitive recording medium to remove the reversible thermosensitive recording medium and the removing member by sliding relative to each other. Using a reversible thermosensitive recording medium having a dynamic receding contact angle with respect to distilled water of less than or equal to a degree, and at least the abutting portion contains a chemical fiber and is made of a nonwoven fabric having a flexibility of 1.2 or more. Pressing member against the surface of the thermosensitive recording medium, supporting the surface opposite to the surface of the reversible thermosensitive recording medium, and pressing the removing member and the reversible thermosensitive recording medium with each other. Removing device of the writing ink image, characterized in that at least and a conveying member for sandwiching the member both. The apparatus for removing a writing ink image according to claim 10, wherein at least a portion of the pressing member that contacts and presses the reversible thermosensitive recording medium is an elastic body and has an edge shape. The apparatus for removing a writing ink image according to claim 10, wherein the removing member is a sheet-like long object. The apparatus for removing a writing ink image according to claim 12, wherein the removing member has an upstream end in a direction in which the reversible thermosensitive recording medium is conveyed fixed with respect to a portion pressed by the pressing member. When the pressing member and the conveying member sandwich the removing member and the reversible thermosensitive recording medium, and when the reversible thermosensitive recording medium is not conveyed, the removing member and the conveying member are not in pressure contact or are in a position where they do not contact. The apparatus for removing a writing ink image according to any one of claims 10 to 13, wherein: 15. The apparatus for removing a writing ink image according to claim 10, further comprising means for isolating the removing member when the removing member is not in sliding contact with the reversible thermosensitive recording medium. 16. The writing ink image removing apparatus according to claim 10, further comprising a removing member supply unit configured to transport the removing member to a position where the pressing member and the transport member face each other. 17. The apparatus for removing a writing ink image according to claim 10, further comprising a removing member recovering means for recovering the removing member after removing the writing ink image. 18. The apparatus for removing a writing ink image according to claim 10, further comprising a removing member discharging means for discharging the removing member after removing the writing ink image to the outside of the apparatus. 19. The apparatus for removing a writing ink image according to claim 10, wherein the weight of the removing member is not less than 5 grams and less than 30 grams. 20. The apparatus for removing a writing ink image according to claim 10, wherein the nonwoven fabric constituting the removing member contains cellulose fibers. 21. The apparatus for removing a writing ink image according to claim 10, wherein the nonwoven fabric forming the removing member includes rayon fibers and / or polyester fibers. 22. The apparatus for removing a writing ink image according to claim 10, wherein the direction perpendicular to the MD of the nonwoven fabric constituting the removing member is set in accordance with the transport direction of the reversible thermosensitive recording medium. 23. An image erasing device comprising the removing device according to claim 10 as a writing ink image removing device together with a heating device for erasing a recorded display image formed on a reversible thermosensitive recording medium. apparatus. An image recording apparatus comprising the removal device according to any one of claims 10 to 22 as a writing ink image removal unit, together with a heating unit for forming a recorded display image on a reversible thermosensitive recording medium. 23. The removing device according to claim 10 as a writing ink image removing unit, a heating unit for erasing a recorded display image formed on the reversible thermosensitive recording medium, and a recorded display image on the reversible thermosensitive recording medium. An image erasing and recording apparatus, which is provided with a heating means for forming the image. A method for forming an ink image with a writing instrument on a surface of a reversible thermosensitive recording medium capable of recording and displaying an image and erasing the image by a temperature change due to heating, wherein the surface of the reversible thermosensitive recording medium has a surface of 75 to 100 degrees. Has a dynamic receding contact angle with respect to distilled water, and the ink constituting the writing instrument has a colorant, a resin, a surfactant and a solvent. Forming method.

Images