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JPS5933197A - Improved heat-sensitive stencil paper - Google Patents

Improved heat-sensitive stencil paper

Info

Publication number
JPS5933197A
JPS5933197A JP14343582A JP14343582A JPS5933197A JP S5933197 A JPS5933197 A JP S5933197A JP 14343582 A JP14343582 A JP 14343582A JP 14343582 A JP14343582 A JP 14343582A JP S5933197 A JPS5933197 A JP S5933197A
Authority
JP
Japan
Prior art keywords
paper
fibers
base
heat
denier
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
Application number
JP14343582A
Other languages
Japanese (ja)
Inventor
Satoshi Ogino
敏 荻野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kohjin Holdings Co Ltd
Kojin Co Ltd
Original Assignee
Kohjin Holdings Co Ltd
Kojin Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Kohjin Holdings Co Ltd, Kojin Co Ltd filed Critical Kohjin Holdings Co Ltd
Priority to JP14343582A priority Critical patent/JPS5933197A/en
Publication of JPS5933197A publication Critical patent/JPS5933197A/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41NPRINTING PLATES OR FOILS; MATERIALS FOR SURFACES USED IN PRINTING MACHINES FOR PRINTING, INKING, DAMPING, OR THE LIKE; PREPARING SUCH SURFACES FOR USE AND CONSERVING THEM
    • B41N1/00Printing plates or foils; Materials therefor
    • B41N1/24Stencils; Stencil materials; Carriers therefor
    • B41N1/242Backing sheets; Top sheets; Intercalated sheets, e.g. cushion sheets; Release layers or coatings; Means to obtain a contrasting image, e.g. with a carbon sheet or coating

Landscapes

  • Printing Plates And Materials Therefor (AREA)

Abstract

PURPOSE:To provide the titled stencil paper for flash stencil-making process which is excellent in perforatability and resolution of printed matter, by a method wherein a porous tissue paper comprised mainly of thermoplastic synthetic fibers having a specified melt-cutting temperature is used as a base, and a thermoplastic film is adhered thereto. CONSTITUTION:Not less than 80% of thermoplastic synthetic fibers (preferably polyester base fibers) having a single yawn finness of not larger than 3 denier, preferably 0.5-1.5 denior, a length of 1-5mm. and a melt-cutting temperature of 125-260 deg.C are formed into a paper, together with natural cellulosic fibers if required, and the paper is heated for several seconds by heating rolls of preferably rolls of preferably 80-180 deg.C to obtain a porous tissue paper, which is used as a base. The thermoplastic film (e.g., a vinylidene chloride resin, PVC, PS) is adhered to the base by heat or an adhesive to obtain the objective stencil paper. EFFECT:Excellent in tensile strength and durability in printing.

Description

【発明の詳細な説明】 本発明.は、感熱孔版印.刷用.原紙の改良に関するも
のであり、詳しくは多孔性薄葉紙を支・持体とし・,こ
れに熱可塑性プラスチッ.クフ.イルムを貼合せた構成
の感熱孔版印刷用原紙の穿孔性及び・印刷物・の解像性
の改良KpAす.るものである。..・1従来、感熱孔
版印刷用原紙どして・・は、フィルムの穿孔温度では変
化せず、印刷イ.ン・クを..良《.透過する多孔性薄
葉紙を支持体とし、これKボリ塩化ビニリデンとポリ塩
化ビニルの共重合体よ1)成るプラスチッ?クフィルム
を熱文は接着剤によj)貼合せたものが知られている。
[Detailed Description of the Invention] The present invention. is a heat-sensitive stencil. For printing. This is related to the improvement of base paper, and in detail, porous thin paper is used as a support and support, and thermoplastic plastic is applied to this. Khufu. Improving the perforation of thermal stencil printing base paper with a laminated film and the resolution of printed matter KpA. It is something that .. ..・1 Conventionally, the base paper for thermal stencil printing does not change with the perforation temperature of the film, and the printing temperature. N.K. .. good". A permeable porous thin paper is used as a support, and this is a plastic made of a copolymer of K-polyvinylidene chloride and polyvinyl chloride. It is known that the film is laminated with a thermal adhesive.

第1図を参照して以下説明する。プラズチックフィルム
1の側に、台絨4が容易に剥離できるように密着・積層
され曵いて、フィルムと台紙の間に原稿2を挾んで製版
機にかげるようになっている。′ 感熱式製版機としては、?棒状赤外線ランプ又ば?クセ
ノン閃光管を用いたものがJ=般VIL==されてお・
り、極く短時間で高?強度の光ヱネルギ」誉照射する後
?者の閃光照射方:銚の方が、良好な製虚結果?・が?
得ら?れる。?・・?・? 原紙の穿孔原・埋とし【は、該原1・紙のフギルム面?
1・?・を原稿2に密着?さ?せJ?多孔性薄1紙3の
側から光線を照射すると原紙を透過した光線が、原?稿
の”?黒色の画・像.部に?1吸収されで、.・その部
分の′m8c′が急上・昇し、密.着してい?るフィ?
ル友に熱が伝導?されて、そ・の対応:部分が熱:収縮
を:起しJ軟化、溶?融し?て穿孔されるものと考えら
れる。
This will be explained below with reference to FIG. A base carpet 4 is closely attached and laminated to the side of the plastic film 1 so that it can be easily peeled off, and the original 2 is sandwiched between the film and the base and passed to a plate-making machine. ′ What about a thermal plate making machine? A rod-shaped infrared lamp? The one using a xenon flash tube is J=general VIL==.
Is it high in a very short time? After irradiating “Intense Light Energy” Homare? How to use the flash of light: Is the method of irradiation better? ·but?
Got it? It will be done. ? ...?・? The perforation and filling of the original paper [is the original 1 and the fugilum side of the paper?
1.?・Close to manuscript 2? difference? Se J? When a light beam is irradiated from the side of the porous thin paper 3, the light beam that has passed through the base paper is ?1 is absorbed by the black image/image area of the manuscript, and ``m8c'' in that area suddenly rises and rises, making it appear that it is in close contact with the image.
Is heat conducted to your friend? What to do if the part is heated: shrinks: softens, melts? Melt? It is thought that the hole is drilled by

従来の感?熱孔版“印刷?用・:原紙の支持体としての
多孔性薄葉.・紙は、こう:・ぞ、:みつまた、マニラ
麻、木・材バルプなどの.天然方..ル.・−スせんい
を主.原料.伴しており?上記:め原1に?よ?り、フ
ィルム虎”il””n”一製版される際に熱によって変
化しない多孔性薄葉紙のせんいに収縮したフィノーム.
が竺みつくので,穿孔が不均一となり易く、古の原:紙
を使用して印刷した場合に、印刷物の文字が切れたりし
て、画像が不鮮晶になるという欠点がある。
Traditional feeling? For hot stencil printing: Porous thin paper as a support for base paper.Paper is made of natural materials such as honeysuckle, Manila hemp, wood and wood pulp. Main raw materials: Accompanied by the above: In Mehara 1, film ``il''``n'' is made of finome that shrinks into a porous tissue paper that does not change due to heat during plate making.
The paper tends to smudge, making the perforations more likely to be uneven, and when printing on old paper, the characters on the printed matter may be cut off, resulting in an unsharpened image.

これを解.決するために支持体と.して合成せんいやレ
ーヨンなどの化学せんいを混抄したポーラスな多孔性薄
葉紙又は、シルク、ナイロン、ポリ.エステルなどのサ
んいよ.り成る40〜300メッシュ(好ましくは80
〜120メッシュ)のスクリーンを使用するととも試み
られているが、熱収縮したフィルムの絡みつきを少なく
すること、インクの透過性を改良することに対しては、
有効であっても、本質的に耐熱性の支持体を使用してい
るために、支持体を構成しているせんいは、熱による製
版の際、穿孔されない。
Solve this. with a support to determine. Porous tissue paper mixed with synthetic fibers or chemical fibers such as rayon, silk, nylon, polyester, etc. I like Esther and others. 40 to 300 mesh (preferably 80
Attempts have been made to use a screen of ~120 mesh), but this method has not been successful in reducing entanglement of heat-shrinkable films and improving ink permeability.
Even if effective, due to the use of an inherently heat resistant support, the fibers making up the support are not perforated during thermal plate making.

したがって、フィルムが原稿に忠実に穿孔され?.て・
も、支持体を構成しているせんいが、インクの:..透
.!を一テ.的に妨げるので・印刷の鮮明度を大巾?に
?向上させることはできなかった。
So the film is perforated faithfully to the original? .. hand·
Also, the fibers that make up the support are ink. .. Tooru. ! One step. Because it interferes with the print clarity? To? I couldn't improve it.

?更に、スクO≠ジを使用した場谷には、著しい?・ス
トアップにζり、孔版品刷の低・冫トのメリットが減殺
され、用途が限定される。
? In addition, there is a significant difference in Batani using Sukuo≠ji.・As stores increase, the low cost and cost advantages of stencil printing are diminished, and its uses are limited.

本発明は、このような問題点に着目し、感熱孔版印刷用
原紙の支持体として、製版時Vr7.4に対する寸法安
定性を保.持し?.つ、.熱可塑性プラスチックフイル
ムの収縮による穿孔と同時に、構成せんいが溶融・切断
されるような・多孔性薄葉紙を使用することによっ【、
穿孔性及び印刷物の解像性のすぐれた原紙を提供する:
ものである6L即ち、本発明の感熱孔版印刷用原紙は単
糸繊度3.0デニール以下、溶融切断温度125〜26
0゜0の熱可塑性合成せんい80チ以上より成り、必要
に応じて、天然セルロースせんいと混合し【抄造した多
孔性薄葉紙を支持体とし、これに必要に応じて延伸され
た熱可塑性プラスチックフイルムを、熱又は接着剤Kよ
って貼合せて成ることな特徴とするちのである。
The present invention has focused on these problems, and has developed a material that maintains dimensional stability against Vr7.4 during plate making as a support for heat-sensitive stencil printing base paper. Do you have it? .. One... By using porous thin paper, the constituent fibers are melted and cut at the same time as the perforation due to shrinkage of the thermoplastic film.
To provide base paper with excellent perforation and print resolution:
6L, that is, the base paper for thermal stencil printing of the present invention has a single yarn fineness of 3.0 denier or less and a melt cutting temperature of 125 to 26
It consists of 80 or more pieces of thermoplastic synthetic fiber of 0°0, and if necessary, it is mixed with natural cellulose fiber. It is characterized by being laminated by heat or adhesive.

本発明に於ける多孔性薄葉紙の抄造に適した原料合成せ
んいとしては、ポリオレフィン系せんい、ギリ塩化ビニ
ル系せんい、ポリ塩化ビニリデン系せんい、ポリアクリ
ル系せんい、ポリビニルアルコ:−ル系せんい、ポリ.
ウレタン系せんい、ボリアミド系せんい、ポリエステル
系せんい等の熱可塑性合成せんいの中から選択して単.
独又は混合して使用することができる。.・ 此の中で、製版時に熱に対する・寸法、・・安定性・を
保持し?つ、せんいの溶融・切断..にょる穿.孔性の
改良を実現し、印刷時にも、伸びが少な<、.解像炸.
のすぐれた印刷物を得る点で、ポリエステル系せ.んい
を主体にした場合に、最も.良好な結・果が得られる。
Examples of raw material synthetic fibers suitable for making porous thin paper in the present invention include polyolefin fibers, divinyl chloride fibers, polyvinylidene chloride fibers, polyacrylic fibers, polyvinylalcohol fibers, and polyvinyl chloride fibers.
Simply select from thermoplastic synthetic fibers such as urethane fibers, polyamide fibers, and polyester fibers.
Can be used alone or in combination. ..・Among these, does it maintain its dimensions and stability against heat during plate making? Melting and cutting of fibers. .. Nyoru trousers. Improved porosity and less elongation during printing. Resolution burst.
In terms of obtaining excellent printed matter, polyester is preferred. The most important thing is when you focus on Good results can be obtained.

・...、・ 、.本発明に使用する合成せ.んいの単糸織・度は、3
.0デニール以下、好ましくは,,0.5〜1.5デニ
ー?ルで1あり、長さは20+m以下、好ま.シ<は1
〜5問である◇ .このように、細く短い合成せん.いを.使用す・・る
埋由は、せんいが太く長い場合には、抄紙時に、均質な
紙層形成が得られにくく、又感熱式製臘機により製版す
る際k.l?結合せら?れている熱可塑性プラスチック
フィルムの穿孔と同一に、溶融・切断され未くいため?
に、原紙としての穿孔が不均一となり、・印刷物の解像
性を改?善するという目的が達せら?れない“か.らで
ある。″? 本発明の多孔性薄1紙は、前記の熱?可塑性合成せんい
80%以上を含?みJ必要に応じ曵こうぞ、?みつまた
、マニ)麻、?木材1バルプなどの天然セル一一スせん
いと混合して、通常の抄紙一により、せんい状又は、粉
末状バイジダ?一を?使用?することによ:うて抄造?
・ざれ?る。抄1時にJバ?・イン?グーを有効に融着
させる?だめに、シリノダ?一・ドライヤーにて、加:
熱するごどは当然であるが、抄?造後に、必要に.応・
じて、80?〜18σ?゛0?の熱ロールにより?数秒
間加熱するごとによ?り、熱k”対?する:寸法?安定
?性及び紙力が更に?強化゛・ざれ?る。″?前記の多
・?孔性薄1紙に於いて、′マニラ:′麻、木材パ?ル
ブなどの天然セル一−スせん?いの混?抄?率が2oチ
を超える場合には、製版時に,熱による合成せんいの済
融・切断が部分的に阻否される.ために、孔版印刷用原
紙としての穿孔が不均一となり、したがって、印刷物の
解像性が低下する。
・.. .. .. ,・ ,. Synthesis used in the present invention. Nin's single thread weave/degree is 3
.. 0 denier or less, preferably 0.5 to 1.5 denier? The length is 20+m or less, preferably. C< is 1
~5 questions◇. In this way, it is a thin and short synthetic fiber. Ino. If the fibers used are thick and long, it will be difficult to form a homogeneous paper layer during paper making, and if the fibers are thick and long, it will be difficult to form a homogeneous paper layer. l? Combine? Is it because it is the same as the perforation of thermoplastic film that is melted and cut?
However, the perforation of the base paper becomes uneven, and the resolution of printed matter is improved. Have you achieved your goal of doing good? Is it “from”? The porous thin paper of the present invention has the above-mentioned heat resistance. Contains over 80% plastic synthetic fiber? I'll take a ride if necessary, okay? Mitsumata, Mani) Hemp,? By mixing wood with natural cells such as bulp and using normal paper making, it can be made into fiber-like or powdered binder. One? use? By doing: Ute Shozo?
・Zare? Ru. Jba at 1 o'clock? ·in? Can you effectively fuse goo? No way, Shirinoda? 1. In the hairdryer, add:
It's natural to feel excited, but Sho? After construction, as necessary. Response·
So, 80? ~18σ?゛0? By the heat roll? Every few seconds of heating? and heat resistance: dimensional stability and paper strength are further strengthened. Many of the above? In porous thin paper, 'Manila:' linen, wood paper? Do you use natural cellulose such as Lube? Ino mix? Sho? If the ratio exceeds 2°, melting and cutting of the synthetic fiber by heat is partially inhibited during plate making. Therefore, the perforation of the stencil printing base paper becomes non-uniform, and the resolution of the printed matter is therefore reduced.

本発明K於いて、.勢可塑性ブラスチッ:クフィ・ルム
としては、塩化ビニリデン・塩化ビール共重合体樹脂フ
イルム、プロピレン・エチレン.共.X合体樹脂フイル
ム、エチレン酢酸ビニル共重合体樹脂フイルム、ポリプ
pビレン樹脂フイルム、ポリ塩化ヒニル樹脂フィルム、
ボリスチレン樹脂フィルムなど、従来提案され【いる種
々のものを使用することができる。
In the present invention K. Plastic plastics: Kufi lume includes vinylidene chloride/beer chloride copolymer resin film, propylene/ethylene. Both. X-coupled resin film, ethylene vinyl acetate copolymer resin film, polypropylene resin film, polyhinyl chloride resin film,
Various conventionally proposed materials can be used, such as a polystyrene resin film.

本発明に於いて、多孔性薄葉紙と熱可塑性プラスチック
フイルムとの貼合せは、熱圧着又は、酢酸ビ二ル系、ア
クリル系、塩化ビニル系などの接着剤を使用することに
よって行われる。
In the present invention, the porous thin paper and the thermoplastic film are bonded together by thermocompression bonding or by using a vinyl acetate-based, acrylic-based, vinyl chloride-based adhesive, or the like.

本発明による感熱孔版印刷用原紙は、熱によって溶融・
切断する性質を有する合成せんい80%以上より成る均
質な多孔性薄葉紙を支持体としているために、製版の際
、熱可塑性プラスチックフィルムが穿孔されるだけでな
く、支持体としての多孔性薄葉紙が、熱に対する原紙の
寸法安定性を保持する役割を果しつつも、それを構成す
る熱可塑性合成せんいが熱によって溶融・切断されるた
めに、せんいに妨げられることなく、均一に穿孔される
。・. したがって、輪転謄写機によって印刷する際に、インク
の透過が円滑に行われ、印刷物の文字が切れたりするこ
となく、解像性が著しく改善される。
The base paper for thermal stencil printing according to the present invention can be melted by heat.
Since the support is homogeneous porous tissue paper made of 80% or more of synthetic fiber that has the property of cutting, not only the thermoplastic film is perforated during plate making, but the porous tissue paper as the support is While it plays the role of maintaining the dimensional stability of the base paper against heat, the thermoplastic synthetic fibers that make up the paper are melted and cut by the heat, allowing for uniform perforation without being hindered by the fibers.・.. Therefore, when printing with a rotary copying machine, the ink passes through smoothly, the characters on the printed matter are not cut off, and the resolution is significantly improved.

又、本発明による孔版印刷用原紙は、熱可塑性合成せん
いが、バインダーの熱融着作用によって、強固に結合さ
れているので、印刷時の引・張りに対する抵抗力が強く
、・したかっ【耐刷性も向上する。
In addition, in the stencil printing base paper of the present invention, the thermoplastic synthetic fibers are firmly bonded by the heat-sealing action of the binder, so it has strong resistance to tension and tension during printing, and is highly resistant. Printability is also improved.

以下、本発明を実施例によって説明する〇〔実施例l〕 針葉樹漂久ラフトパルプ? (N=−BKP)を.叩解度30’SRに処理したもの
15%に対して、抄紙用ポリエステルせん.い85チな
・混合して、円網抄紙機.により:、半坪10.5f’
/ゴにて抄.造した・0 ポリエステルせんいは、.0.5デニールで長さ5簡の
もの70部に対して、1.0デ二−ルで長さ5簡のバイ
ンダーせんい15部の比率で使用した〇このようにして
得られた多孔性薄葉紙に8μの塩化ビニリデン・塩化ビ
ニル共重合体フイルムを酢酸ビニル系接着剤によって貼
合わせて,感熱孔版印刷用原紙を・製造した。此の・原
?紙を理想科学工業■製閃光照射式製版機(商品名:ゼ
ノファッ?クス)により製版した結果、、均一・に穿孔
され鮮明な記録が得られた。此の原紙を市販の輪転謄写
印刷機(ゲステットナ−460)Kかげて印刷したとこ
ろ、1,500枚印刷毛・ても彼れを生ずることなく、
安定した美麗な印刷物が得られた◇〔実施例2〕 マニラ麻を叩解度30”lllHに処理したもの15チ
に対して抄紙用ポリエステルせんい85%を混合して、
円網抄紙機により、半坪10.5f/7n″にて抄造し
た◇ポリエステルせんいは、0.3デニールで長さ3簡
のもの70部K対して、1.0デニールで長さ5瓢のバ
インダーせんい15部の比率で使用した。
The present invention will be described below with reference to Examples.〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇〇 [Example 1] Coniferous wood drifting raft pulp? (N=-BKP). Compared to 15% of those treated to a freeness of 30'SR, polyester for paper making. 85 pieces of mixed paper machine. By:, half tsubo 10.5f'
/Excerpt from Go. The manufactured 0 polyester fiber is... Porous thin paper thus obtained A base paper for heat-sensitive stencil printing was manufactured by laminating an 8 μm vinylidene chloride/vinyl chloride copolymer film to the paper using a vinyl acetate adhesive. This Hara? When the paper was made into plates using a flashlight irradiation plate making machine manufactured by Riso Kagaku Kogyo ■ (trade name: Xenofax), uniform perforations and clear records were obtained. When this paper was printed on a commercially available rotary mimeograph machine (Gestettner 460), it printed 1,500 sheets without any curling.
Stable and beautiful printed matter was obtained ◇ [Example 2] 85% polyester fiber for paper making was mixed with 15 pieces of Manila hemp treated to a degree of beatability of 30''llH.
◇The polyester fiber was made using a cylinder paper machine with a half tsubo of 10.5f/7n". ◇The polyester fiber is 70 parts K of 0.3 denier and 3 strips long, while the polyester fiber is 1.0 denier and 5 tsubos long. The binder fiber was used at a ratio of 15 parts.

このよ5KLて得られた多孔性薄葉紙を支持体として、
実施例1と同様にして製造した感熱孔版印刷用原紙を実
施例lと同じ条件で、製版及び印刷した結果、均一に穿
孔され、1,500枚印刷しても破れることなく、安定
した美麗な印刷物が得られた。
Using the porous thin paper obtained by this 5KL process as a support,
The base paper for thermal stencil printing produced in the same manner as in Example 1 was plate-made and printed under the same conditions as in Example 1. As a result, the perforations were uniform, and even after printing 1,500 sheets, there was no tearing, resulting in a stable and beautiful paper. A print was obtained.

〔実施例3〕 0.5デ二−ルで長さ5鱈のポリエステルせんい85部
と1デニールで長さ5fmのポリエステルバインダーせ
ん(・15部を混合し【、円網抄紙機により、半坪LQ
.5f/711”にて、抄造した。
[Example 3] 85 parts of a 0.5 denier polyester fiber with a length of 5 mm and 15 parts of a 1 denier polyester binder fiber with a length of 5 fm were mixed and made into a half tsubo by a cylinder paper machine. LQ
.. The paper was made at 5f/711".

このようにして得られた多孔性薄葉紙を支持体として、
実施例1と同様にして製造した感熱孔版印刷用原紙を実
施例1と同じ条件で製版、印刷した結果、均一に製版さ
れ、!,500枚印刷しても破れることなく、安定した
美麗な印刷物が得られたO 〔比較例1〕 N−BKPを叩解度30”SRに処理したもの30′1
.1■ %に対し【、ボリエスヶルせんい(太さ、長さ及び混合
比率は実施例lと同じ)70襲を混合して、半坪10.
5f/ゴにて抄造した6これkt持体として、実施例1
と同様にして製造した感熱孔版印刷用原紙は、製版時に
パルプせんいの部分が溶融・切断されないためK,穿孔
が不均一となり、印刷物の画像は、文字が切れたりして
不鮮明であったO 〔比較例2〕? マニラ麻を叩解度30@SRK処朋したもの15チとポ
リエステルせんい85%を混合して、1o.5f/71
1″にて抄造した。ポリエステルせんいは、6デニール
で、長さ1ormのもの70部と、1デニールで長さ5
mmのバインダーせんい15部を混合して使用した。
Using the porous thin paper obtained in this way as a support,
The base paper for thermal stencil printing produced in the same manner as in Example 1 was plate-made and printed under the same conditions as in Example 1. As a result, the plate was made uniformly! , Stable and beautiful printed matter was obtained without tearing even after printing 500 sheets. [Comparative Example 1] N-BKP treated to a beating degree of 30"SR 30'1
.. For 1.1%, 70 pieces of Borieskalu fiber (thickness, length and mixing ratio are the same as in Example 1) were mixed, and half a tsubo of 10.
Example 1 As a 6-kt holding body made at 5 f/go
The base paper for heat-sensitive stencil printing produced in the same manner as above was not melted or cut during plate making, so the perforations were uneven, and the images on the printed matter were unclear due to cut-off characters. Comparative example 2]? Mix 15 pieces of Manila hemp treated with 30% SRK and 85% polyester fiber to make 1 o. 5f/71
1".The polyester fibers were made with 70 parts of 6 denier and 1 orm length, and 70 parts of 1 denier and 1 orm length.
A mixture of 15 parts of binder fibers of 5 mm in diameter was used.

このようにして得られた多孔性薄葉紙を支持体として、
実施例1と同様にして製造した感熱孔版印刷用原紙は、
熱可塑性合成せんいが、85チ含まれているにも拘らず
、太いせんいが大部分を占めるために、フィルムの穿孔
時に、溶融・切断しKく《、?しだがって、1穿孔が均
二k行われた・かった0?その結来、酊刷・物は、比較
例1の場?合と大差なくJ画像の文字bz切れたり?し
て不鮮明であった。
Using the porous thin paper obtained in this way as a support,
The base paper for thermal stencil printing produced in the same manner as in Example 1 was
Although it contains 85 pieces of thermoplastic synthetic fiber, most of the fibers are thick and are difficult to melt and cut when punching the film. Therefore, 1 perforation was performed evenly and 0? As a result, is the intoxication/object the place of comparative example 1? Is the letter bz in the J image cut off, with no big difference from the case? It was unclear.

4.図面の・簡単な説1明1・”l1.,,”’””,
i第1図は、感熱孔版印刷用原紙の構成と孝孔製版時め
原稿の位置を示す略図である◇ 紀号の説明 ?1・一・・i・プラスチッ?クフィノレム2・・・・
・・原稿 3・・・・・・?多孔性薄葉紙 4・・・・・・台?紙 特許出願人株式会社県人 手続補正魯 昭和57年11月1’7F+ 特許庁長官若・杉和夫殿 ■.事件の表示.. 昭和57年・?特許願第1.48.4’85号.1?2
.発明の名称?.・・ ・改良され.た感熱孔版印刷用原紙. .8補旧をする者.・ 事件との関係特許出願人 住所東京.都港区や1橋一丁目1番・1刊氏名.株式会
社興?・人 n(′・ 管財人菊池義1.16后へ,; 4補正の対象.・・ゝ″ .・明卸{書の「発明の祥細な説明」の瀾5,.袖止の
内容 明細岩の記載を次のとおり訂正します。..(])第2
頁糖8行目[・・・・啼状・・・・−1とあるの.を「
・・.・・棒状・・・・」と訂正します。′(2)第5
貞第1(}行目「・・・・寸法、安定性・・・」とある
のを「・・・・寸法安定性・・・・」ど訂正し捷す。
4.・Brief explanation of the drawings 1.
i Figure 1 is a schematic diagram showing the composition of the base paper for thermal stencil printing and the position of Takakou's manuscript during platemaking. ◇ Explanation of the Era? 1.1.i.plasti? Kuffinolem 2...
...Manuscript 3...? Porous tissue paper 4...stand? Paper Patent Applicant Co., Ltd. Kenjin Procedural Amendments November 1981 1'7F+ Mr. Waka Kazuo Sugi, Commissioner of the Patent Office ■. Display of the incident. .. 1981? Patent Application No. 1.48.4'85. 1?2
.. The name of the invention? ..・・Improved. Base paper for thermal stencil printing. .. 8. Persons who make updates.・ Address of patent applicant related to the case: Tokyo. Miyakominato-ku and 1-1 Bridge 1-chome, 1st edition name. Ko? Co., Ltd.?・Person n(′・ To Yoshi Kikuchi, Trustee, after 1.16; 4. Subject of amendment... ゝ'' . 5. Contents of the cuffs of the "Detailed Description of the Invention" in the Meikashi book) The description of Seiwa Rock is corrected as follows...(])Second
Page sugar line 8 [... it says 啼形...-1. of"
・・・. ...Stick-shaped..." I corrected it. '(2) Fifth
Tei No. 1 (line }: ``...Dimensions, stability...'' is corrected to ``...Dimensional stability...'').

(3)第8頁下から第5行目「・・・・漂・・」とある
のを「・・・・晒・・・・」と訂正し1す。
(3) In the 5th line from the bottom of page 8, ``...drifting...'' is corrected to ``...bleaching...''.

(4)第8真下から@2行目、第9頁下から第4,行目
、第10頁第12行目及び第1]貞第8行目に「半呼」
とあるのを「米坪」と訂止(,7甘す。
(4) @2nd line from the bottom of page 8, 4th line from the bottom of page 9, line 12 and 1 of page 10] “Hankyo” in the 8th line of Sada
The text has been corrected as ``Yonetsubo'' (,7 is correct.

Claims (1)

【特許請求の範囲】[Claims] 多孔性薄葉紙を支持体とし、これに熱可胆性プラスチッ
クフイルム奪熱又.は接着剤により貼合せて成る感熱孔
版印刷用原紙K於いて、該多孔性薄葉紙が単糸織度3.
0デニール以下、溶融・切断温度125〜260’0の
熱可塑性合成せんい8o%以上より成る.ことを特徴と
する閃光照射K・より製版される感.熱孔版印型用原紙
。・
A porous thin paper is used as a support, and a thermoplastic plastic film is attached to the support. In the heat-sensitive stencil printing base paper K which is pasted together with an adhesive, the porous thin paper has a single yarn weave of 3.
Consists of 80% or more thermoplastic synthetic fiber with a denier of 0 denier or less and a melting/cutting temperature of 125-260'0. It is characterized by flash irradiation K and a feeling of being made more easily. Base paper for hot stencil printing.・
JP14343582A 1982-08-20 1982-08-20 Improved heat-sensitive stencil paper Pending JPS5933197A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP14343582A JPS5933197A (en) 1982-08-20 1982-08-20 Improved heat-sensitive stencil paper

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP14343582A JPS5933197A (en) 1982-08-20 1982-08-20 Improved heat-sensitive stencil paper

Publications (1)

Publication Number Publication Date
JPS5933197A true JPS5933197A (en) 1984-02-22

Family

ID=15338638

Family Applications (1)

Application Number Title Priority Date Filing Date
JP14343582A Pending JPS5933197A (en) 1982-08-20 1982-08-20 Improved heat-sensitive stencil paper

Country Status (1)

Country Link
JP (1) JPS5933197A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS61116595A (en) * 1984-11-12 1986-06-04 Riso Kagaku Corp Thermal stencil paper
JPS6311570U (en) * 1986-07-04 1988-01-26
JPS6456899A (en) * 1987-08-28 1989-03-03 Yoshida Kogyo Kk Method and apparatus for treating surface by suspension system
JPH02122987A (en) * 1988-11-01 1990-05-10 Kohjin Co Ltd Porous thin paper for thermal stencil paper
US5245932A (en) * 1991-01-23 1993-09-21 Riso Kagaku Corporation Heat-sensitive stencil master sheet
US5622109A (en) * 1992-10-09 1997-04-22 Riso Kagaku Corporation Process for producing a heat sensitive stencil sheet
US5875711A (en) * 1995-07-28 1999-03-02 Ricoh Company, Ltd. Heat sensitive stencil having a porous substrate with tightly bound fibers

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS61116595A (en) * 1984-11-12 1986-06-04 Riso Kagaku Corp Thermal stencil paper
JPH0527556B2 (en) * 1984-11-12 1993-04-21 Riso Kagaku Corp
JPS6311570U (en) * 1986-07-04 1988-01-26
JPH0435416Y2 (en) * 1986-07-04 1992-08-21
JPS6456899A (en) * 1987-08-28 1989-03-03 Yoshida Kogyo Kk Method and apparatus for treating surface by suspension system
JPH0433879B2 (en) * 1987-08-28 1992-06-04 Yoshida Kogyo Kk
JPH02122987A (en) * 1988-11-01 1990-05-10 Kohjin Co Ltd Porous thin paper for thermal stencil paper
US5245932A (en) * 1991-01-23 1993-09-21 Riso Kagaku Corporation Heat-sensitive stencil master sheet
US5622109A (en) * 1992-10-09 1997-04-22 Riso Kagaku Corporation Process for producing a heat sensitive stencil sheet
US5875711A (en) * 1995-07-28 1999-03-02 Ricoh Company, Ltd. Heat sensitive stencil having a porous substrate with tightly bound fibers

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