JPS60176797A - Transfer-type thermal recording method - Google Patents
Transfer-type thermal recording methodInfo
- Publication number
- JPS60176797A JPS60176797A JP3176484A JP3176484A JPS60176797A JP S60176797 A JPS60176797 A JP S60176797A JP 3176484 A JP3176484 A JP 3176484A JP 3176484 A JP3176484 A JP 3176484A JP S60176797 A JPS60176797 A JP S60176797A
- Authority
- JP
- Japan
- Prior art keywords
- transfer
- dye
- transfer type
- sensitive recording
- type heat
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M5/00—Duplicating or marking methods; Sheet materials for use therein
- B41M5/26—Thermography ; Marking by high energetic means, e.g. laser otherwise than by burning, and characterised by the material used
- B41M5/382—Contact thermal transfer or sublimation processes
- B41M5/392—Additives, other than colour forming substances, dyes or pigments, e.g. sensitisers, transfer promoting agents
- B41M5/395—Macromolecular additives, e.g. binders
Landscapes
- Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Thermal Transfer Or Thermal Recording In General (AREA)
Abstract
Description
【発明の詳細な説明】
〔発明の技術分野〕
この発明は例えばファクシミリや周辺端末用プリンター
の印字に使用する転写型感熱記録用シートに関するもの
である。DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a transfer type thermal recording sheet used for printing, for example, in a facsimile machine or a peripheral terminal printer.
近年、ノンインパクト方式の記録装置が種々実用化され
ており、特に感熱記録装置は保守などの手間が省け、し
かも無騒音で無公害である上に装置の構造が簡単である
ところから情報処理等の出力装置として需要が拡大して
いる。例えばファクシミリや電算機の周辺端末プリンタ
ーにおいて。In recent years, various types of non-impact recording devices have been put into practical use, and thermal recording devices in particular are useful for information processing, etc. because they require less maintenance, are noiseless, are non-polluting, and have a simple structure. Demand is increasing as an output device. For example, in peripheral terminal printers for facsimiles and computers.
この種の感熱記録装置が出力用の印字手段として多く用
いられるように表ってきている。この感熱方法の主なも
のとして化学発色型と転写型の2方法がある。このうち
、化学発色型は可塑剤、溶剤および接着テープ等で簡単
に消色するものが多く。This type of thermal recording device is increasingly being used as a printing means for output. There are two main heat-sensitive methods: a chemical coloring method and a transfer method. Among these, many of the chemically colored types can be easily erased with plasticizers, solvents, adhesive tapes, etc.
又追加印字が容易で改ざんもできる等の欠点があり、有
価証券、法律文書等には不向きであった。Furthermore, it has disadvantages such as the ease of additional printing and the possibility of falsification, making it unsuitable for securities, legal documents, and the like.
これに対し、転写型は上Cの欠点を克服する方法として
近年特に注目を浴びてきている。On the other hand, the transfer type has attracted particular attention in recent years as a method for overcoming the drawbacks of the above C.
第1し1に示すように、従来の転写型感熱記録用シート
(3)は1例えばセロハンや硫酸紙などの封止J]41
11と数μm厚さの固体インクf!i 121とから成
っており、上記固体インク層(2)は例えば融点が80
〜120℃のカルナバワックスやポリエチレングリコー
ルなどの樹脂を溶媒に溶かし、上記封止膜(1)上に厚
さ4μm程度になるようにワイヤバーなどで塗布し乾燥
させることにより形成される。感熱記録は加熱により上
記固体インク層(2)を溶融させ通常9紙上に転写させ
ることにより行なうのである。As shown in No. 1 and 1, the conventional transfer type heat-sensitive recording sheet (3) is sealed with 1, for example, cellophane or parchment paper.
Solid ink with a thickness of 11 and several μm f! i 121, and the solid ink layer (2) has a melting point of, for example, 80
It is formed by dissolving a resin such as carnauba wax or polyethylene glycol at ~120° C. in a solvent, applying it onto the sealing film (1) to a thickness of about 4 μm using a wire bar, and drying it. Thermosensitive recording is carried out by melting the solid ink layer (2) by heating and transferring it onto paper.
しかし、従来の転写型感熱記録用シートでは。However, with conventional transfer type thermal recording sheets.
一般的に、記録の解像度および感度を良くするため、固
体インク層(2)の厚さは4μm程度の薄いものである
。このため転写は一度きりしか行なえず。Generally, the thickness of the solid ink layer (2) is as thin as about 4 μm in order to improve recording resolution and sensitivity. For this reason, transcription can only be performed once.
例えばA4版1枚の記録に対し、同じA4版1枚の転写
型感熱記録用シートが必要であり、従って多数回繰り返
し使用可能でしかも高解像度の転写型感熱記録用シート
の開発が望まれていた。For example, for recording on one A4 size sheet, one A4 size transfer type heat sensitive recording sheet is required, and therefore there is a desire to develop a high resolution transfer type heat sensitive recording sheet that can be used repeatedly many times. Ta.
上記欠点を克服するために、固体インク層(2)中にカ
ーボンブラックを分散させてインクの溶出用を抑制する
方法が提案されているが、この方法ではカーボンブラッ
ク自身が紙上に転写される恐れがあり、又印字部の反射
濃度が転写回数と共に低下する欠点がある。In order to overcome the above drawbacks, a method has been proposed in which carbon black is dispersed in the solid ink layer (2) to suppress ink elution, but with this method, there is a risk that the carbon black itself will be transferred onto the paper. Another disadvantage is that the reflection density of the printed area decreases with the number of transfers.
そこで上記欠点を改善するものとして、特公昭39−1
8793号公報に記載されている染料転写タイプの転写
型感熱配録用シートがあり、この方法によれば、シート
中の昇華性染料が無くなるまで多数回の転写が可能であ
るが、昇華性染料の昇華温度が高(,150〜200℃
以上であるので。Therefore, in order to improve the above-mentioned drawbacks, the special public
There is a dye transfer type heat-sensitive recording sheet described in Japanese Patent No. 8793. According to this method, it is possible to transfer many times until the sublimable dye in the sheet is used up. The sublimation temperature is high (150~200℃)
So that's it.
感度の悪いものであった。It had poor sensitivity.
又、たん白質を記録に用いたものとしては、たん白質を
コートした紙を用い、印刷インクにより印刷された例は
あるが、インクとしては染料および顔料を例えばアマニ
油などの速乾性の油に分散したものを用いており、熱を
加えて染料などを上記たんばく質層に拡散させることは
なかった。In addition, there are examples of recording using protein using paper coated with protein and printing with printing ink. A dispersed product was used, and dyes and the like were not diffused into the protein layer by applying heat.
この発明は上記従来の欠点を除去するためになされたも
ので、転写型感熱記録用シートとして染料を混合させた
水溶性樹脂材を有するものを用い。This invention was made to eliminate the above-mentioned conventional drawbacks, and uses a transfer-type heat-sensitive recording sheet containing a water-soluble resin material mixed with a dye.
転写型感熱記録媒体としてたんば〈質材を有するものを
用い、熱により転写型感熱記録用シートの染料を転写型
感熱記録媒体のたんばく質材に溶出させて記録すること
により、転写が容易で感度が良く、繰返し転写可能な転
写型感熱記録方法を提供することを目的とする。Transfer type heat-sensitive recording medium is made of a proteinaceous material, and the dye of the transfer type heat-sensitive recording sheet is eluted into the protein material of the transfer type heat-sensitive recording medium by heat for recording, making the transfer easy. It is an object of the present invention to provide a transfer type thermal recording method that has good sensitivity and allows repeated transfer.
第2図はこの発明の一実施例に用いる転写型感熱記録用
シートおよび転写型感熱記録媒体の断面図である。図に
おいて、(4)は転写型感熱記録用シートで、染料(5
)を混合させた水溶性樹脂材(6)と。FIG. 2 is a sectional view of a transfer type heat-sensitive recording sheet and a transfer type heat-sensitive recording medium used in one embodiment of the present invention. In the figure, (4) is a transfer type heat-sensitive recording sheet, and dye (5)
) and a water-soluble resin material (6) mixed with the water-soluble resin material (6).
この水溶性樹脂材(6)の感熱ヘッド対向面に設けられ
、水溶性樹脂材(6)の漏洩を防止する封止膜111よ
り成る。又、(7)は転写型感熱記録媒体で、支持体(
9)にたん白質材(8)を塗布したものより成る。ここ
で、封止膜(1)の上から感熱ヘッドで加熱すると。A sealing film 111 is provided on the surface of the water-soluble resin material (6) facing the thermal head to prevent leakage of the water-soluble resin material (6). In addition, (7) is a transfer type thermosensitive recording medium, and the support (
9) coated with a protein material (8). Here, if the sealing film (1) is heated from above with a thermal head.
水溶性樹脂材(6)中の染料の一部が加熱により溶解し
、水溶性樹脂材中の微細な穴を通り転写型感熱記録媒体
(7)のたん白質材(8)上に溶出し記録され。A part of the dye in the water-soluble resin material (6) is dissolved by heating, passes through minute holes in the water-soluble resin material, and is eluted onto the protein material (8) of the transfer type thermosensitive recording medium (7) for recording. It is.
その後転写型感熱記録用シートと転写型感熱記録媒体を
離して転写型感熱記録媒体を加熱すると。After that, the transfer type heat-sensitive recording sheet and the transfer type heat-sensitive recording medium are separated and the transfer type heat-sensitive recording medium is heated.
たん白質材(8)上に溶出された染料が再び溶けてたん
ばく質材(8)中に拡散し、たん白質と染料が安定な複
合体を作って画像が固定され定着すると考えられる。It is thought that the dye eluted onto the protein material (8) dissolves again and diffuses into the protein material (8), and the protein and dye form a stable complex, thereby fixing and fixing the image.
この発明に用いる封止膜としては1例えばセロハン、ポ
リエチレンテレフタレート(pET)シートなとの高分
子フィルムおよびコンデンサ紙などがある。Examples of the sealing film used in the present invention include cellophane, polymer films such as polyethylene terephthalate (pET) sheets, and capacitor paper.
この発明に用いる染料としては基本的には種類を限定し
ないが、融点が低いもの程度感度が良いことから1例え
ばアントラキノン系およびアゾ系の分散染料が好ましく
用いられる。ここで染料は水溶性樹脂8重歳部に対して
1〜80重段部用いるのが好ましい。1重量部以下では
記録濃度(元学密度以丁ODと略す)が低すぎ、80重
縫部以上では充分な機械強度をもつ転写型感熱記録用シ
ートが得られない。The type of dye to be used in this invention is basically not limited, but because the lower the melting point, the better the sensitivity, for example, anthraquinone-based and azo-based disperse dyes are preferably used. Here, the dye is preferably used in an amount of 1 to 80 parts per 8 parts of the water-soluble resin. If it is less than 1 part by weight, the recording density (abbreviated as OD) is too low, and if it is more than 80 parts by weight, a transfer type heat-sensitive recording sheet with sufficient mechanical strength cannot be obtained.
この発明に用いる水溶性樹脂としては1例えばポリビニ
ルアルコール(PVA)、カゼイン、ゼラチン、変性で
んぷん、アラビアゴム、アルギン酸ソーダ、カゼイン酸
亜鉛、ペクチン、ポリビニルピロリドン、カルボキシメ
チルセルロース、メチルセルロース、ポリアクリル酸ア
ミド、ポリアクリル酸、ポリエチレンオキシド、ポリビ
ニルメチルエーテル、ポリビニルピリジン、ボリスチレ
ンスルホン酸等がある。Examples of water-soluble resins used in this invention include polyvinyl alcohol (PVA), casein, gelatin, modified starch, gum arabic, sodium alginate, zinc caseinate, pectin, polyvinylpyrrolidone, carboxymethylcellulose, methylcellulose, polyacrylic acid amide, and polyvinyl pyrrolidone. Examples include acrylic acid, polyethylene oxide, polyvinyl methyl ether, polyvinyl pyridine, and polystyrene sulfonic acid.
なお、上記水溶性樹脂材が界面活性剤を含有することも
好ましい結果を与える。界面活性剤としては、ノニオン
性界面活性剤例えばソルビタン系のものが挙げられるが
、室温で液体であるソルビタンモノオレエートなどでは
地かぶりが大きく。In addition, it is also preferable that the water-soluble resin material contains a surfactant. Examples of the surfactant include nonionic surfactants such as sorbitan, but sorbitan monooleate, which is liquid at room temperature, causes a large background fog.
融点が50〜60℃のソルビタンモノステアレートおよ
びソルビタンモノパルミテートなどが地かぶりがなく好
ましく用いられる。Sorbitan monostearate, sorbitan monopalmitate, and the like having a melting point of 50 to 60°C are preferably used because they do not cause background fog.
この発明に用いるたん白質としては1例えばカゼイン、
ゼラチンおよび卵白アルブミン等がある。Examples of proteins used in this invention include casein,
Examples include gelatin and ovalbumin.
上記のように、染料とたん白質が安定な複合体を作るの
は、染料とたん白質の構成成分であるアミノ酸特にフェ
ニルアラニン、チロシン、ヒスチジンおよびトリプトフ
ァンの強い相互作用により。As mentioned above, the dye and protein form a stable complex due to the strong interaction between the dye and the amino acids that are the constituents of the protein, particularly phenylalanine, tyrosine, histidine, and tryptophan.
記録濃度も増感すると考えられる。この染料とアミノ酸
の相互作用は下記の刊行物に提案した銅クロロフィリン
とヒスチジンおよびトリプトファンの錯体構造により一
部明らかにされているが、その本質はπ−πスタッキン
グによる相互作用であるとされている(刊行物即ち雑誌
名二日本化学会誌、第131頁1983年発行)。又、
この発明のたん白質材が2表面の平滑性、塗膜の強度増
加等のために例えばクレイ、硫酸バリウム、カオリンな
どの充填剤を、塗膜の強度増加のために例えばでんぷん
等の水溶性高分子を含有しても良い。It is thought that the recording density is also increased. The interaction between this dye and amino acids has been partially clarified by the complex structure of copper chlorophyllin, histidine, and tryptophan proposed in the following publication, but the essence is said to be an interaction based on π-π stacking. (Publication name: Journal of the Chemical Society of Japan, p. 131, published in 1983). or,
The protein material of the present invention contains 2 fillers such as clay, barium sulfate, and kaolin to improve surface smoothness and increase the strength of the coating film, and fillers such as starch and other fillers to increase the strength of the coating film. It may contain molecules.
なお、これらたん白質は水溶性であるため、支持体への
塗布に際しても有機溶剤等が不用であり。Note that since these proteins are water-soluble, no organic solvent or the like is required when coating them on a support.
コストおよび公害上の問題などからも例えば熱可塑性樹
脂等油溶性樹脂に比べ好ましく用いられるものである。In view of cost and pollution problems, they are preferably used compared to oil-soluble resins such as thermoplastic resins.
この発明に用いる支持体としては、一般的には紙が用い
られるが2例えばプラスチックシートや金属箔なども適
宜用いられる。As the support used in this invention, paper is generally used, but for example, plastic sheets, metal foils, etc. can also be used as appropriate.
以下、実施例によりこの発明の詳細な説明するが、これ
によりこの発明を限定するものではない。EXAMPLES Hereinafter, the present invention will be explained in detail with reference to Examples, but the present invention is not limited thereto.
実施例1゜
8重量部のポリビニルアルコールと16重置部のアゾ系
分散染料(保土谷化学製、商品名80T−Blue 7
2 ) e 8重毀部の界面活性剤ソルビタンモノステ
アレートおよび92M酸部の水をボールミルで一昼夜精
練する。この混練物を真空脱泡法により脱泡する。この
ものを厚さ6μmのポリエチレンテレフタレー) (P
ET)シートにワイヤバーで20μmの厚さに塗布・乾
燥し転写型感熱記録用シートとする。一方、カゼイン1
0重量部。Example 1 8 parts by weight of polyvinyl alcohol and 16 parts by weight of an azo disperse dye (manufactured by Hodogaya Chemical, trade name 80T-Blue 7)
2) e 8 parts of surfactant sorbitan monostearate and 92M acid part of water are scoured in a ball mill for one day and night. This kneaded material is defoamed by a vacuum defoaming method. This material is polyethylene terephthalate with a thickness of 6 μm) (P
ET) Coat the sheet with a wire bar to a thickness of 20 μm and dry to obtain a transfer-type heat-sensitive recording sheet. On the other hand, casein 1
0 parts by weight.
カオリン5M量部を水90重量部と共にボールミルで一
昼夜精練する。このものを上質紙に厚さ6μmになるよ
うに塗布・乾燥し、転写型感熱記録媒体とする。上記転
写型感熱記録用シートと転写型感熱記録媒体とを重ね合
せ、これに薄膜型感熱ヘッドで電圧6v、パルス数10
0 Hz 、パルス印加時間3msの条件下で印字する
。印字絞転写型感熱記録用シートと転写型感熱記録媒体
を離し。5M parts of kaolin and 90 parts by weight of water are milled in a ball mill for a day and a night. This material was coated on high-quality paper to a thickness of 6 μm and dried to obtain a transfer type heat-sensitive recording medium. The above-mentioned transfer type heat-sensitive recording sheet and transfer type heat-sensitive recording medium are superimposed, and a thin film type heat-sensitive head is applied to this with a voltage of 6V and a pulse number of 10.
Printing is performed under the conditions of 0 Hz and pulse application time of 3 ms. Separate the print-printing transfer type thermal recording sheet and the transfer type thermal recording medium.
転写型感熱記録媒体を1000で2分間オーブン中で加
熱した。その結果、ODが1.2の画像を得た。The transfer type thermosensitive recording medium was heated in an oven at 1000 for 2 minutes. As a result, an image with an OD of 1.2 was obtained.
実施例2
10重置部のヒドロキシプロピルでんぷん(松谷化学製
、商品名スタコデツクス)と16重量部の昇華性染料(
保土谷化学表、商品名80T−B4ack−6)を水9
0重計部と共にボールミルで一昼夜精練する。このもの
を厚さ6μmのPETシートにワイヤバーで15μmの
厚さになるように塗布・乾燥し転写型感熱記録用シート
とする。一方、上質紙にたん白質をコートしたコート紙
(三菱製紙製、商品名バールコニト)を転写型感熱記録
媒体とする。上記転写型感熱記録用シートと転写型感熱
記録媒体とを重1つ合せ、これに厚膜型感熱ヘッドで電
圧16v、パルス数100 Hz 、パルス印加時間3
msの条件下で印字する。このものは熱定着しなくても
記録画像は安定であり、 OD 1.1であった。第3
図に、上記転写型感熱記録用シートを用いて、繰返し上
記転写型感熱記録媒体に記録した時の転写回数(回)に
よる記録濃度(OD)の変化を示すがこれによると、こ
の発明の一実施例の転写型感熱記録用シートは10回繰
返し使用可能であることかわかる。Example 2 10 parts by weight of hydroxypropyl starch (manufactured by Matsutani Chemical, trade name Stacodex) and 16 parts by weight of sublimable dye (
Hodogaya chemical table, product name 80T-B4ack-6) on water 9
It is refined in a ball mill all day and night together with the zero-weight weighing section. This material was coated onto a 6 μm thick PET sheet using a wire bar to a thickness of 15 μm and dried to obtain a transfer type heat-sensitive recording sheet. On the other hand, coated paper (manufactured by Mitsubishi Paper Industries, trade name: Varconit), which is made by coating high-quality paper with protein, is used as a transfer type heat-sensitive recording medium. The above-mentioned transfer type thermosensitive recording sheet and transfer type thermosensitive recording medium were stacked together, and a thick film type thermal head was used to apply a voltage of 16 V, a pulse number of 100 Hz, and a pulse application time of 3.
Print under ms conditions. The recorded image of this product was stable even without heat fixing, and the OD was 1.1. Third
The figure shows the change in recording density (OD) depending on the number of transfers (times) when the above-mentioned transfer-type heat-sensitive recording sheet is used to repeatedly record on the above-mentioned transfer-type heat-sensitive recording medium. It can be seen that the transfer type heat-sensitive recording sheet of the example can be used repeatedly 10 times.
実施例3゜
8重道部のアラビアゴムと10重量部のアゾ系染料(保
土谷化学製、商品名OHRed ) a li重階部の
界面活性剤ソルビタンモノステアレートおよび92重計
部の水をボールミルで一昼夜精練する。この混練物を真
空脱泡法により脱泡する。このものわ厚さ6μ0のPK
?シートにワイヤバーで25μmになるように塗布・乾
燥し、転写型感熱記録用シートとする。一方、ゼラチン
12重量部を40℃位に加熱、した水J8重計部に溶か
し、この溶液を上質紙に厚さ5μmになるように塗布・
乾燥し、転写型感熱記録媒体とする。上記転写型感熱記
録用シートと転写型感熱記録媒体とを重ね合せ、実施例
2と同じ条件で印字した後、転写型感熱記録用シートと
転写型感熱記録媒体を離し。Example 3 8 parts of gum arabic and 10 parts by weight of azo dye (manufactured by Hodogaya Chemical, trade name: OHRed) ali 8 parts of gum arabic and 92 parts of water as a surfactant sorbitan monostearate Refined in a ball mill all day and night. This kneaded material is defoamed by a vacuum defoaming method. PK with a thickness of 6μ0
? Coat the sheet with a wire bar to a thickness of 25 μm and dry to obtain a transfer type heat-sensitive recording sheet. On the other hand, 12 parts by weight of gelatin was dissolved in 8 parts J of water heated to about 40°C, and this solution was coated on high-quality paper to a thickness of 5 μm.
It is dried and used as a transfer type heat-sensitive recording medium. The transfer type heat-sensitive recording sheet and the transfer type heat-sensitive recording medium were superimposed and printing was performed under the same conditions as in Example 2, and then the transfer type heat-sensitive recording sheet and the transfer type heat-sensitive recording medium were separated.
転写型感熱記録媒体を100℃で1分間アイロンで加熱
した。その結果OD 1.4の記倚を得た。The transfer type thermosensitive recording medium was heated with an iron at 100° C. for 1 minute. As a result, an OD of 1.4 was obtained.
以上説明したとおり、この発明は転写型感熱記録用シー
トとして染料を混合させた水溶性樹脂材を有するものを
用い、転写型感熱記録媒体としてたんばく質材を有する
ものを用い、熱により転写型感熱記録用シートの染料を
転写型感熱記録媒体のたんば〈質材に溶出させて記録す
ることにより。As explained above, the present invention uses a sheet with a water-soluble resin material mixed with a dye as a transfer type heat-sensitive recording sheet, uses a sheet with a proteinaceous material as a transfer type heat-sensitive recording medium, and uses heat to form a transfer type. By dissolving the dye from the heat-sensitive recording sheet into the material of the transfer-type heat-sensitive recording medium and recording.
転写が容易で感度が良く、繰返し転写可能な転写型感熱
記録方法を得ることかできる。It is possible to obtain a transfer-type thermal recording method that allows easy transfer, high sensitivity, and repeatable transfer.
第1図は従来の転写型感熱記録用シートの断面図、第2
図はこの発明の一実施例に用いる転写型感熱記録用シー
トおよび転写型感熱記録媒体の断面図、第3図はこの発
明の一実施例における転写回数(回)による記録濃度(
OD)変化を示す特性図である。
図において、(11は封止膜、(2)は固体インク層。
(3)は転写型感熱記録用シー) 、 (41は転写型
感熱記録用シー) 、 +51は染料、(6)は水溶性
樹脂材、(7)は転写型感熱記録媒体、(8)はたんば
く質を有するもの、(9)は支持体である。
なお1図中同一符号は同−又は相当部分を示す。
代理人 大岩増雄
第1図
第2図
第3図
転写回数(回〕
特許庁長官殿
1.事件の表示 特願昭59−031764号2、発明
の名称 幅厚型感熱記録方法
3、補正をする者
a 補正の対象
明細書の発明の詳細な説明の欄
6 補正の内容
(1)明細書の第6頁第5行の「低いもの程度」を「低
いもの程」に訂正する。
(2) 同第11頁第4行のrl−のものわ」を「〆の
ものを」に訂正する。
以上Figure 1 is a cross-sectional view of a conventional transfer-type heat-sensitive recording sheet;
The figure is a sectional view of a transfer type thermosensitive recording sheet and a transfer type thermosensitive recording medium used in an embodiment of the present invention, and Fig. 3 shows the recording density according to the number of transfers (times) in an embodiment of the present invention.
It is a characteristic diagram showing a change in OD). In the figure, (11 is a sealing film, (2) is a solid ink layer, (3) is a transfer type thermal recording sheet), (41 is a transfer type thermal recording sheet), +51 is a dye, and (6) is a water-soluble layer. (7) is a transfer type thermosensitive recording medium, (8) is a material having protein, and (9) is a support. Note that the same reference numerals in each figure indicate the same or corresponding parts. Agent Masuo Oiwa Figure 1 Figure 2 Figure 3 Number of transcriptions (times) Mr. Commissioner of the Japan Patent Office 1. Indication of the case Japanese Patent Application No. 59-031764 2 Title of the invention Width and thickness type thermal recording method 3 Amendments to be made Person a Column 6 for the detailed description of the invention in the specification subject to amendment Contents of the amendment (1) Correct "lower degree" in line 5 of page 6 of the description to "lower degree". (2) On page 11, line 4, ``rl-monowa'' is corrected to ``〆monowo''.
Claims (1)
せた水溶性樹脂材を有するもの゛を用い、転写型感熱記
録媒体としてたんばく質材を有するものを用い、熱によ
り転写型感熱記録用シートの染料を転写型感熱記録媒体
のたんばく質材に溶出させ記録する転写型感熱記録方法
。 (2)水溶性樹脂が変性でんぷんである特許請求の範囲
第1項記載の転写型感熱記録方法。[Claims] +11 A transfer-type heat-sensitive self-recording sheet containing a water-soluble resin material mixed with a dye is used, a transfer-type heat-sensitive recording medium containing a protein material is used, and a heat-sensitive recording sheet is used. A transfer heat-sensitive recording method in which dyes from a transfer heat-sensitive recording sheet are eluted into a proteinaceous material of a transfer heat-sensitive recording medium for recording. (2) The transfer type thermal recording method according to claim 1, wherein the water-soluble resin is modified starch.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3176484A JPS60176797A (en) | 1984-02-22 | 1984-02-22 | Transfer-type thermal recording method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3176484A JPS60176797A (en) | 1984-02-22 | 1984-02-22 | Transfer-type thermal recording method |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS60176797A true JPS60176797A (en) | 1985-09-10 |
Family
ID=12340099
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3176484A Pending JPS60176797A (en) | 1984-02-22 | 1984-02-22 | Transfer-type thermal recording method |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS60176797A (en) |
-
1984
- 1984-02-22 JP JP3176484A patent/JPS60176797A/en active Pending
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