JP3812609B2 - Releasable pressure-sensitive postcard recording paper - Google Patents

Description

【００５１】
実施例２
接着剤として天然ゴム系エマルジョン（レヂテックス社製：商品名「レヂテックスＨＳＸ−１０１」）を１００重量部、スチレン・アクリル系エマルジョン（ジョンソンポリマー社製：商品名「ジョンクリルＳＣＸ６３１」）を１６重量部、顔料として合成シリカ（水沢化学工業社製：商品名「ミズカシルＰ−７８Ａ」）を７８重量部、ブロッキング防止剤として小麦澱粉（ローヌプーラン社製：商品名「アクティサイズＧ３０２Ｚ」）を７８重量部、耐水化剤としてポリアミド・エピクロロヒドリン樹脂（昭和高分子社製：商品名「ポリフィックス３０１Ａ」）を６２重量部、天然ゴム系エマルジョンの酸化、光劣化防止剤としてサイクロデキストリン（日本食品加工社製：商品名「セルデックスＳＨ−２０」）を１６重量部、アニオン系の天然ゴムエマルジョンのカチオンショック緩衝剤として非イオン系界面活性剤（花王株式会社製：商品名「エマルゲン４２０」）を５重量部を混合して水を加えて濃度を２８％に調成し、接着剤塗布液とした。この接着剤塗布液をフォーム用紙（坪量１２７．９ｇ／ｍ² ）の片面に、乾燥塗布量が１０ｇ／ｍ² となるようにエアーナイフコーターにて塗布、乾燥し、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５２】
実施例３
実施例２の原紙をフォーム用紙からコート紙（坪量１２７．９ｇ／ｍ² ）に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５３】
実施例４
実施例２の非イオン系界面活性剤（花王株式会社製：商品名「エマルゲン４２０」）を２重量部に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５４】
実施例５
実施例２のポリアミド・エピクロロヒドリン樹脂（昭和高分子社製：商品名「ポリフィックス３０１Ａ」）の６２重量部を水溶性変性ポリアミン系樹脂（日本ＰＭＣ社製：商品名「Ｓ−ＲＤ−１１５」）６２重量部に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５５】
比較例８
実施例２の非イオン系界面活性剤（花王株式会社製：商品名「エマルゲン４２０」）を１重量部に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５６】
比較例９
実施例２の非イオン系界面活性剤（花王株式会社製：商品名「エマルゲン４２０」）を１６重量部に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５７】
比較例１０
実施例２のポリアミド・エピクロロヒドリン樹脂（昭和高分子社製：商品名「ポリフィックス３０１Ａ」）の６２重量部をカチオン性４級アンモニウム塩ポリマー（日本油脂社製：商品名「ブレンマーＰＱＷＴ−４０Ｈ」）６２重量部に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５８】
比較例１１
実施例２の天然ゴム系エマルジョン（レヂテックス社製：商品名「レヂテックスＨＳＸ−１０１」）１００重量部を天然ゴム系エマルジョン（サイデン化学社製：商品名「加圧接着剤Ｋ」）６０重量部に、スチレン・アクリル系エマルジョン（ジョンソンポリマー社製：商品名「ジョンクリルＳＣＸ６３１」）１６重量部をスチレン・アクリル系エマルジョン（ジョンソンポリマー社製：商品名「ジョンクリルＪ−７９０」）１６重量部に、ポリアミド・エピクロロヒドリン樹脂（昭和高分子社製：商品名「ポリフィックス３０１Ａ」）６２重量部を０重量部に、非イオン系界面活性剤（花王株式会社製：商品名「エマルゲン４２０」）５重量部を０重量部に変更した以外は、実施例２と同様にして、再剥離性圧着葉書用記録紙の圧着面側となるオフセット印刷可能なインクジェット用インク受理層を形成した。
【００５９】
上記各実施例及び各比較例に従って製作した再剥離性圧着葉書用記録紙について、塗布液の調成、塗布液の操業安定性、インクの印字品位、圧着後の剥離強度、耐水性、インクの転写、オフセット印刷適性の各性能試験を行なった。表２に各実施例及び各比較例の処方、及び各性能試験の結果を示す。以下各性能試験の方法とその評価の仕方を示す。
（１）塗布液の調成
実機の塗工調成設備での混合の容易さを評価する。容易な順に◎、○、△、×とした。
（２）塗布液の操業安定性
実機の塗工設備でのロングラン適性を評価する。順調な順に◎、○、△、×とした。
（３）インクの印字品位
インクジェットプリンター（ヒューレットパッカード社製ＨＰ ＤｅｓｋＪｅｔ５６０Ｊ）のインクタンクにサイテックス１００７黒インクを注射器で注入し、接着面にテスト印字パターン（文字、線、ベタ）を印字し、視感で評価した。良い順に◎、○、△、×とした。
（４）剥離強度
塗布液を原紙にコートした面（以下、単に接着面と称する）を内側に折り込み、葉書の大きさにカットし、ロール加圧により接着し、その接着力を測定する。ロール加圧には、スウィングシーラーＳＰ−４０１（日本通信紙株式会社製）を使用した。ロール加圧は、幅１０ｃｍの試料をロールシーラーの目盛り３（約１５０μｍ）の条件でローラー処理を行う。各実施例及び各比較例の再剥離性圧着葉書用記録紙は上記の条件でロール圧着を行う。本作業は迅速に行い、試料はポリ袋に密封保存するため、試料は実機製造時の水分を維持しているものとする。次に２０℃、６５％ＲＨの環境下でストログラフＭ−１型（東洋精機製作製）で速度３００ｍｍ／分、剥離角９０°（Ｔ型剥離）で剥離し、その抵抗値を測定する。試料は幅１０ｃｍを４等分して測定し、数値を平均して接着力ｇ／２５ｍｍを求める。剥離可能な接着力とは、望ましくは６０〜１２０ｇ／２５ｍｍである。
（５）耐水性
インクジェットプリンター（ヒューレットパッカード社製ＨＰ ＤｅｓｋＪｅｔ５６０Ｊ）のインクタンクにサイテックス１００７黒インクを注射器で注入し、接着面にベタ印字を行う。次に東洋濾紙５Ａを水に漬けた後、余分な水分を別の紙に取らせ、この濾紙を印字面に当てて丸型プレス機で２ｋｇ／ｃｍ² を５秒間かけた後、濾紙に転写されたインク濃度を視感で評価した。インク濃度の薄い順に◎、○、△、×とした。
（６）再剥離後のインクの転写
インクジェットプリンター（ヒューレットパッカード社製ＨＰ ＤｅｓｋＪｅｔ５６０Ｊ）のインクタンクにサイテックス１００７黒インクを注射器で注入し、接着面にテスト印字パターン（文字、線、ベタ）を試料の左半面に印字する。接着面を内側に折り込み、剥離強度の測定と同様にロール加圧を行い、手で再剥離させ、接着面の右半面に転写したインクの濃度を視感で評価した。インク濃度の薄い順に◎、○、△、×とした。
（７）オフセット印刷適性
ＲＩ−３型印刷適性試験機（明製作所製）を使用して印刷の上がり、耐刷力を評価した。インクはＵＶインク（Ｔ＆Ｋ社製、ベストキュアーＲＮＣ、藍、ＰＳ、Ｔ−４）を０．４ｃｃ、印刷速度：６０ｒｐｍ、印圧：８．５ｍｍ、４回刷り。
視感で評価し、良い順に◎、○、△、×とした。
【００６０】
【表２】

【００６１】
表２から明らかのように、比較例の８〜１１の再剥離性圧着葉書用記録紙は塗布液の調成、ロングラン適性、ＩＪ用再剥離性圧着葉書用記録紙としての物性がバランスのとれたものとなっていない。比較例８は非イオン系界面活性剤が少ないため、カチオン性薬品とアニオン性薬品の混合が難しく、調成時にややショックを発生する。また剥離強度も高くなり、剥離時にインクの転写を起こしてしまう。一方、比較例９は非イオン系界面活性剤が多すぎるため、塗布液の調成は容易だが、泡の発生や剥離強度の急激な低下などが起こる。比較例１０は耐水化剤としてポリアミド・エピクロロヒドリン樹脂ではなく、カチオン性４級アンモニウム塩ポリマーを使用した例であるが、調成は不可能であった。比較例１１は非イオン系界面活性剤を使用せずに調成した全く別の系の塗布液である。そのため塗布液は非常に不安定であり、シェアーにより実機の調成設備や塗工機の各所で凝集物を発生させた。また、カチオン性耐水化剤の添加ができず、耐水性が全くないものとなった。これに対して、本発明の実施例２〜５は、塗布液の調成も容易であり、実機塗工設備でのロングラン適性にも優れている。またＩＪ用再剥離性圧着葉書用記録紙としても印字品位、耐水性、剥離強度、ＵＶインキによるオフセット印刷適性とバランスのとれたものとなっている。
【００６２】
【発明の効果】
上記結果から明かな様に、本発明の再剥離性圧着葉書用記録紙は各種情報を親展面にインクジェットプリンターで印字後、親展面を圧着しても、印字の転写が起こることがなく、耐水性に優れ、高速インクジェットの水溶性インクに対する印字適性に最適なものである。
また本発明は、再剥離性圧着葉書用記録紙の表裏両面におけるインクジェット用インクの受理性が向上し、印字適性及び耐水性が改良され、プロセスインキ、ＵＶインキなどによるオフセット印刷適性が向上し、併せてカールの発生及び紙の表面が接着する、いわゆるブロッキング現象を抑制できる。
更に本発明は、再剥離性圧着葉書用記録紙の圧着面用接着剤塗布液において、カチオン性薬品とアニオン性薬品の混合が難しく、調成時にショックを発生し易く、シェアーにより実機の調成設備や塗工機の各所で凝集物を発生し易い現象を抑制することができる。[0001]
BACKGROUND OF THE INVENTION
The releasable pressure-sensitive postcard recording paper of the present invention can be used for ink-jet recording, recording, printing and writing of other pen plotters using water-based ink, and writing using pencils, ballpoint pens, etc. In addition, offset printing with process ink, UV ink, etc. is possible. Furthermore, these various methods can be used for printing and printing, and the confidentiality of information printed and printed. It is related with the recording paper for postcards which has the removability which can protect.
[0002]
[Prior art]
Traditionally, usage notices, billing notices, receipt notices from banks, life insurance companies, social insurance agencies, national tax agencies, water bureaus, and public and semi-public organizations such as NTT, electric power and gas companies, There are many mailing of documents related to personal privacy, such as usage amount guidance from financial institutions such as securities companies, balance notifications, reminders, and notifications of results from school, etc. It was mailed in either a sealed letter or a postcard at the discretion of the person. However, recently, the number of cases in which sealed documents are used for the mailing of such privacy-related documents from the viewpoint of protecting the privacy and in conjunction with the enforcement of the “Privacy Protection Law”.
[0003]
Compared with postcards, it is possible to conceal information and transmit a large amount of information, but the postage is 50 yen for a postcard and 80 yen for a postcard (both shipping costs for one time), so much privacy. There was a problem that a large amount of postage cost was required for public and quasi-public institutions, financial institutions, and school corporations that handle documents. Various postcard papers have been proposed that allow the postal charge of the problem to be made in the form of a postcard and that allows the information to be concealed. For example, the adhesive half-fold adhesive postcard (for example, Japanese Patent Laid-Open No. 64-16691) through a transparent film or the entire or part of the edge portion of the joint has a larger peeling force than the non-edge portion. And a releasable pressure-sensitive adhesive postcard (JP-A-2-289393). Including these, conventional re-peelable adhesive postcards are applied only on one side of the support with an adhesive function with a re-peel ratio. Occurs, and there is a problem that hinders the efficiency of workability in printing processing and form processing.
[0004]
In addition, some postcard papers are coated with a removable adhesive function on both sides of the paper to prevent curling. However, when rolled up under excessive temperature or humidity conditions, There is a problem in that blocking occurs in which the front and back surfaces adhere.
[0005]
On the other hand, in recent years, the development of information systems has been remarkable, and various recording methods suitable for each information system have been developed accordingly. In addition to increasing the speed of copying and printing, high image quality represented by colorization has progressed, and in order to contribute greatly to the realization of these, electrophotographic recording methods, ink jet recording methods, and thermal recording media, which are copying and printing methods, have been developed. The thermal head recording method used is widely adopted.
[0006]
The transfer paper used in the electrophotographic system is required to have toner transferability and fixability, and traveling properties such as paper feed and paper discharge. In this case, in order to improve the runnability, it is necessary to improve the dimensional stability of the paper. For this purpose, a method for increasing the freeness of pulp is generally known. However, it is known that when pulp having a high freeness is used, the paper strength is lowered, particularly the surface strength is lowered and the generation of paper dust is increased. Further, since the pigment coating layer is not formed, there is a problem that the image is not clear when offset printing is performed. Further, the electrophotographic system has a problem that the printing speed is slow and the cost of consumables such as selenium drum and toner is high.
[0007]
Moreover, in general, ink jet dedicated paper is provided with a coating layer containing a pigment in order to ensure color developability and ink absorbability. Further, in order to obtain better resolution and gradation, a recording paper having excellent ink absorbability while suppressing ink spread is required. Further, in the case of a color ink jet, color developability, water resistance, light resistance and the like are also required. In order to satisfy these performances, it is necessary to rapidly absorb and fix a large amount of ink, so that the coating layer containing the pigment must be thickened. As a result, there are problems such as poor writing property, easy generation of paper dust, a large manufacturing burden, and high cost.
[0008]
Furthermore, the conventional ink jet recording paper is used in combination with a cationic dye fixing agent and a water-proofing agent in order to improve the water resistance of the ink-jet ink received on the address side at the time of mail delivery in the rain. As an example of this, a printing sheet in which a pressure-sensitive adhesive is contained in an image receiving layer for forming a recorded image and a cationic resin is overcoated on this coating layer (Japanese Patent Laid-Open No. 9-119094). There is. However, a cationic resin that has only been overcoated does not provide much fixability on the surface, and it is eluted into acidic dampening water during offset printing with process ink, UV ink, etc. There is a problem in printability that the printed image is stained and the printed image is soiled.
[0009]
The thermal head method is excellent in various aspects such as compactness and low noise. However, the print medium is stacked on the print medium and beaten from above the print medium, and the print medium is applied to the print medium such as paper. Unlike the so-called impact-type printing mechanism, which prints with high pressure contact, simply touching the thermal head over the print medium allows the heat-welding ink layer on the print medium to be covered with paper or other material without striking and pressing. Since printing is performed by thermal transfer to a printing body, it is known that the sharpness or transferability of printing is greatly influenced by the smoothness of the surface of the printing medium. In other words, when paper with rough surface (rough paper) or the like is used as a printing medium, the heat-meltable ink melted by the contact heat of the thermal head does not adhere to the uneven surface of the rough paper. Since it adheres only to the portion, there is a problem that the end portion of the print is chipped or removed, the print is not clear, and the print quality is poor. Further, there are problems that the printing speed is slow and the cost of consumables such as ink ribbons is high.
[0010]
[Problems to be solved by the invention]
As described above, in each of the printing and printing methods, there are many required characteristics, and the water resistance of the ink jet ink in the ink jet system and the appropriateness of offset printing with process ink, UV ink, and various printers It has been extremely difficult to develop a releasable postcard recording paper that can satisfy the recording property, the running property, and the economy.
[0011]
As electronic recording by computers becomes widespread, the ink jet system is shifting from xerography, laser beam printing, and flash type printing. Therefore, a water-repellent postcard recording paper that is improved in water resistance of the ink-jet ink received on the address side at the time of mail delivery in the rain for ink-jet recording and capable of offset printing with process ink, UV ink, etc. The need for development has emerged.
[0012]
Accordingly, the present invention improves the acceptability of the front and back ink jet inks, which is the main purpose of the releasable pressure-sensitive postcard recording paper, improves the printability and water resistance, and uses process ink, UV ink, etc. The present invention provides a releasable pressure-sensitive postcard recording paper that improves offset printing suitability and suppresses the occurrence of curling and blocking of adhesion of the paper surface.
[0013]
[Means for Solving the Problems]
As a result of diligent research to solve the above-mentioned problems, the present inventors have found that foam paper (non-coated paper) having a basis weight of 127.9 g / m in a size in which two postcards are arranged side by side. ² On one side of the support (the concealed information side), as a peelable pressure-applying layer, natural rubber emulsion, styrene / acrylic emulsion, synthetic silica, wheat starch, nonionic surfactant, cyclodextrin, polyamide An adhesive coating layer coating solution comprising a mixture in which at least one of epichlorohydrin resin or water-soluble modified polyamine resin is mixed, has a dry weight of about 4 to 19 g / m. ² On the other surface of the other support (address side) of the paper, that is, on the ink receiving ink-receiving surface capable of offset printing opposite to the removable pressure-applying coating layer, synthetic silica, polyvinyl alcohol, ethylene / acetic acid About 4 to 19 g / m in dry weight of a coating solution obtained by mixing a vinyl copolymer, an acrylic amide cationic polymer, dimethyldiallylammonium chloride / sulfur dioxide copolymer and a polyamide polyurea resin. ² Apply, final rice floor 151.0g / m ² ± 5.0 g / m ² The present invention has been completed by forming an ink-jet ink receiving layer having a thickness of 0.180 to 0.195 mm. In addition, the above-mentioned rice tsubo and thickness are examples, and are not limited thereto.
[0014]
As a method for producing a releasable pressure-sensitive postcard recording paper for folding according to the present invention, in addition to the above-mentioned foam paper (non-coated paper), high-quality paper, medium-quality paper (non-coated) Paper), impregnated paper impregnated with various binders, coated paper coated with various pigments, art paper, etc., as long as it is a base material used for applying an adhesive coating solution or an inkjet ink receiving agent coating solution Can be used as a base paper. First, the adhesive coating liquid is applied to the base paper as a base material, and after the drying, an ink for inkjet printing that can be offset printed is formed to form a releasable releasable pressure-bonding coating layer. It is desirable to apply an ink jet ink receiving agent capable of offset printing on the opposite surface and form an ink jet ink receiving layer capable of offset printing, but the reverse order may be used, and a two-stage coater head may be used. You may apply both front and back at a time. Further, as another embodiment of the present invention, a so-called tri-fold type that is folded into a Z shape and pressure-bonded is a releasable releasable pressure-applying coating layer that can accept inkjet ink that can be offset printed on both sides of the support. It is obtained by forming.
[0015]
As a result, it can be used for recording, printing, and writing with other pen plotters that use water-based ink, and writing using a pencil, ballpoint pen, etc. is possible, and color development, water resistance, and bleeding are good as inkjet recording paper. A releasable pressure-sensitive postcard recording paper having a small image and offset printing with process ink, UV ink, etc., having a clear image and good printing workability was obtained.
[0016]
The ink-receiving layer (address side) capable of offset printing of the releasable pressure-sensitive postcard recording paper of the present invention has color development, bleeding and water resistance by the ink jet method, and offset printing suitability by process ink, UV ink, etc. In order to satisfy the requirements, selection of the main component chemical is important. Synthetic silica, polyvinyl alcohol, ethylene / vinyl acetate copolymer, acrylic amide cationic polymer, dimethyldiallylammonium chloride / sulfur dioxide copolymer, and polyamide polyurea resin The one that added is the one that satisfies the condition.
[0017]
These coating liquids may contain various additives, leveling agents, antifoaming agents and antifoaming agents for improving work during coating, waxes for improving post-processing properties, white by visual feeling. Fluorescent dyes can be added to improve the degree of soaking, and so-called antistatic agents made of surfactants or inorganic salts can be added to impart conductivity. In addition, dispersants, printability improvers, lubricants, water repellents, penetrants, thickeners, UV absorbers, dyes, dye fixing agents, sizing agents, paper strength enhancers, water retention agents, antiseptics as necessary Additives such as agents and fungicides can also be used in accordance with the purpose.
[0018]
Furthermore, for the purpose of improving printing strength (surface strength), oxidized starch, carboxymethyl cellulose, hydroxyethyl cellulose, soy protein, synthetic protein, casein, styrene / butadiene, vinyl acetate, methyl methacrylate / butadiene, acrylic Nitrile / butadiene-based latex and the like can be contained as required.
[0019]
Application of the ink-receiving layer coating solution for inkjet printing capable of offset printing is performed by a general coater such as an air knife coater, roll coater, blade coater, rod blade coater, bar coater, or die coater. Is 4 to 19 g / m in dry weight ² It is desirable to adjust within the range. The reason for limiting the coating amount to the above range is 4 g / m. ² If it is less than, as the ink-receiving layer for ink-jet and the ink-receiving layer for offset ink, the receptivity thereof is lowered, and the visual quality such as print quality and printed quality is inferior. This is because there is not. The coating amount is 19 g / m ² If it exceeds 1, the visual appearance such as the print quality and the printing finish will be improved, but it is not preferable from the economical viewpoint because the practicality is inferior, the writing property is poor, and paper dust is easily generated.
[0020]
A mixture of polyvinyl alcohol and an ethylene / vinyl acetate copolymer is used as the organic polymer adhesive of the ink receiving layer coating liquid for inkjet printing capable of offset printing, and the ratio of polyvinyl alcohol to the ethylene / vinyl acetate copolymer is 1. : In the ink jet recording system, the total amount of the polyvinyl alcohol and the ethylene / vinyl acetate copolymer is 15 to 65 parts by weight with respect to 100 parts by weight of the synthetic silica. The blending ratio is necessary to have bleeding, water resistance, and offset printing printing durability. A mixture of this synthetic silica, polyvinyl alcohol, and ethylene / vinyl acetate copolymer alone is not suitable for an inkjet ink. Color development, bleeding, and water resistance are not fully satisfied.
[0021]
5 to 45 parts by weight of an acrylic amide based cationic polymer and 5 parts of dimethyldiallylammonium chloride / sulfur dioxide copolymer are added to 100 parts by weight of the synthetic silica, polyvinyl alcohol, and ethylene / vinyl acetate copolymer. Addition of ˜45 parts by weight and polyamide polyurea resin in the range of 1 to 15 parts by weight, followed by coating and drying sufficiently satisfy the coloring, bleeding, and water resistance of the inkjet ink.
[0022]
Synthetic silica is a gel type, which is a secondary agglomerate of ultrafine hydrous silicic acid, and has an average particle size of 3 μm in order to absorb ink jet ink efficiently. Most preferred are those that incorporate ink-jet ink, but other synthetic silica and other coating pigments such as titanium oxide, kaolin, calcium carbonate, talc, plastic pigment, barium sulfate, aluminum hydroxide, etc. Also good.
[0023]
Polyvinyl alcohol having a saponification degree of 98.5 mol% and a polymerization degree of 1750 has high water resistance of the coating. When the coating is formed, a pigment such as synthetic silica is fixed to the support, and ink jetting is performed by the action of the hydroxyl group. Although it is preferable for color development because the printing ink can be adsorbed on the surface and the printing density can be increased, other saponification or polymerization products may be used in combination or alone. Also, ethylene / vinyl acetate copolymer has a water resistance of 20% at 20 ° C. and an expansion rate of 20% and an elution rate of 2.7%. The water resistance of the film is strong. Because of its strong adhesion to the pigment, it is preferable to fix a pigment such as synthetic silica to the support, improve the offset printing suitability, and further control the bleeding of the inkjet ink by the action of its carboxyl group, You may use the thing of other expansion coefficient and elution rate together or independently.
[0024]
Color mixing, bleeding, and water resistance can be adjusted by mixing such polyvinyl alcohol and ethylene / vinyl acetate copolymer. The ratio of the polyvinyl alcohol to ethylene / vinyl acetate copolymer is 1: 2-1 as described above. : In the range of 10 and having the printing durability of offset printing, the total amount of polyvinyl alcohol and ethylene / vinyl acetate copolymer is 15 to 65 parts by weight based on 100 parts by weight of synthetic silica. If the amount is less than 15 parts by weight, the printing durability that can be used for offset printing cannot be reached. If the amount is more than 65 parts by weight, the drying property of the inkjet ink is inferior. Furthermore, since these two types of organic polymer adhesives are excellent in compatibility with each other, the coating liquid in this organic polymer adhesive system is physically and chemically stable and has good coating properties.
[0025]
The acrylic amide-based cationic polymer is effective for cationically activating the silica-based pigment due to its cationic property, and fixing the anionic ink-jet ink by ionic bonding, and further improves water resistance.
[0026]
The dimethyldiallylammonium chloride / sulfur dioxide copolymer contributes to the fixing of an ink jet ink having an anionic property due to its cationic property. Further, the bleeding of ink-jet ink is improved by the action of the hydrophobic group.
[0027]
Polyamide polyurea resin is a water resistant agent for polyvinyl alcohol, and its cross-linking action suppresses the swelling of the dried film of polyvinyl alcohol by the ink for ink jet and improves the water resistance of the ink receiving layer for ink jet. When offset printing is performed, the elution of the cationic substance from the ink-jet ink receiving layer into the fountain solution is prevented, and the printability is improved.
[0028]
Further, the color-removability and bleeding by the ink jet method in the releasable pressure-sensitive adhesive layer (the concealed information surface side) that can be received by the offset printing ink-jet ink formed from the adhesive coating solution of the re-peelable pressure-sensitive postcard recording paper of the present invention. In order to satisfy water resistance, offset printing suitability with process ink, UV ink, and re-peelability, it is important to select a chemical as a main component. Natural rubber emulsion, styrene / acrylic emulsion, synthetic silica, The addition of wheat starch, nonionic surfactant, cyclodextrin, polyamide / epichlorohydrin resin or water-soluble modified polyamine resin satisfies the condition.
[0029]
These coating liquids may contain various additives, leveling agents, antifoaming agents and antifoaming agents for improving work during coating, waxes for improving post-processing properties, white by visual feeling. Fluorescent dyes can be added to improve the temperature, and so-called antistatic agents made of surfactants or inorganic salts can be added to impart conductivity. In addition, dispersants, printability improvers, lubricants, water repellents, penetrants, thickeners, anti-aging agents, ultraviolet absorbers, dyes, dye fixing agents, sizing agents, paper strength enhancers, as necessary Additives such as water retention agents, deodorants, preservatives, and antifungal agents can be used in combination according to the purpose.
[0030]
Furthermore, for the purpose of improving printing strength (surface strength), oxidized starch, polyvinyl alcohol, carboxymethyl cellulose, hydroxyethyl cellulose, soy protein, synthetic protein, casein, styrene / butadiene, vinyl acetate, methyl methacrylate / butadiene. And acrylonitrile / butadiene-based latex can be added as required.
[0031]
Application of the above-described offset printable releasable pressure-sensitive adhesive layer coating solution that can be received by an ink jet coater using a general coater such as an air knife coater, roll coater, blade coater, rod blade coater, bar coater, or die coater. However, the coating amount is 4 to 19 g / m in dry weight. ² It is desirable to adjust within the range. The reason for limiting the coating amount to the above range is 4 g / m. ² If it is less than, as the ink-receiving layer for ink-jet and the offset ink-receiving layer, their acceptability is reduced, and inferior in terms of visual quality such as print quality and printing finish, and further as water-resistant fixing property and adhesive layer of ink-jet ink This is because the adhesive strength is reduced, which is not preferable. The coating amount is 19 g / m ² If it exceeds, the visual appearance such as the print quality and print finish will be improved, but the practicality is inferior from the economical aspect, the writing property is poor, paper dust is likely to be generated, and the adhesive strength as an adhesive layer Is too strong to cause paper breakage on the printed surface, which is not preferable.
[0032]
As a coating solution for a releasable pressure-bonding layer capable of offset printing and accepting ink jet ink, a mixture comprising 2 to 12 parts by weight of a nonionic surfactant is re-peeled with respect to 100 parts by weight of a natural rubber emulsion. The composition of the adhesive pressure-bonding layer and the stability of the coating liquid in the coating machine are provided, but this mixture alone does not sufficiently satisfy the coloring, bleeding and water resistance of the ink jet ink. .
[0033]
To this mixture, at least one of polyamide / epichlorohydrin resin or water-soluble modified polyamine resin is added in an amount of 5 to 100 parts by weight with respect to 100 parts by weight of the natural rubber emulsion, followed by coating and drying. By doing so, the coloring, bleeding, and water resistance of the ink-jet ink are sufficiently satisfied.
[0034]
The natural rubber emulsion may be a pressure-sensitive adhesive that is usually used for envelope glue, etc., and natural rubber, natural vulcanized rubber, graft copolymer natural rubber emulsion such as methyl methacrylate (MMA) and styrene monomer. Or a mixture thereof, or a synthetic rubber emulsion such as styrene butadiene (SBR) or butadiene (BR), and an acrylic copolymer emulsion such as acrylate ester or styrene acryl may be used in combination as appropriate. Among them, MMA graft copolymer natural rubber emulsion combined with styrene acrylic copolymer emulsion improves printing ink acceptability, surface strength, printing durability, blocking resistance, heat resistance, pigment fixation, etc. This is more preferable.
[0035]
Nonionic surfactants are usually used as defoaming, wetting, emulsifying, dispersing, washing, solubilizing, foaming, lubrication, and antistatic agents. In the present invention, anionic natural rubber emulsions and cationic surfactants are used. When the ink-jet ink fixability, water-proofing agent, etc. are simply mixed, a shock is caused by the reaction of anion and cation, and the natural rubber emulsion is condensed, so it is used as a buffering agent to prevent this. That is, by mixing an anionic natural rubber emulsion and a nonionic surfactant, the surface of the natural rubber emulsion is modified and protected, and the natural rubber emulsion is made nonionic to simulate a cationic system. It became possible to mix the fixing agent, water-proofing agent, etc. without any trouble. As this nonionic surfactant, polyoxyethylene oryl ether, polyoxyethylene lauryl ether, polyoxyethylene cetyl ether, polyoxyethylene stearyl ether, polyoxyethylene higher alcohol ether, polyoxyethylene octyl phenyl ether, polyoxyethylene Examples include polyoxyethylene alkyl ethers such as nonylphenyl ether and polyoxyethylene alkyl allyl ethers. Among them, polyoxyethylene (12.8) oryl ether is particularly suitable for the quality of anionic natural rubber emulsion. Can improve the compatibility with cationic ink jet ink fixing agents and water-proofing agents, etc., and can prepare and apply a releasable pressure-bonding layer coating solution. It provides stability of the coating liquid in the machine, and more preferable. The same effect can be obtained by masking the cationic substance with a chelating agent such as EDTA, and it may be used alone or in combination.
[0036]
Polyamide / epichlorohydrin resin is generally used as a dry / wet paper strength agent for papermaking, but this polyamide / epichlorohydrin resin has an epoxy ring side chain, which is coated When it is dried, it takes a network-like cross-linked structure that is insoluble in water by heat, and imparts water resistance to the ink-jet ink received by the synthetic silica. In addition, the same effect can be obtained with a polyamidoamine / epichlorohydrin resin. Further, as a water-soluble modified polyamine resin, polyamine resins are generally used mainly as dye fixing agents for direct dyes, but this dye fixing agent molecule has a large number of cationic groups, and these are anions of dye molecules. The group is bonded to form a water-insoluble molecule, and water resistance is obtained in the same manner as the polyamide / epichlorohydrin resin. Therefore, it is more preferable to use at least one of a polyamide / epichlorohydrin resin and a water-soluble modified polyamine resin.
[0037]
As a fine particle filler, synthetic silica is a gel type, which is a secondary agglomerate of ultrafine hydrous silicic acid, and has an average particle diameter of 3 μm in order to efficiently absorb ink for inkjet. Most preferred are those that incorporate ink for inkjet into the pores of the next agglomeration, but other synthetic silica and other coating pigments such as titanium oxide, kaolin, calcium carbonate, talc, plastic pigment, barium sulfate, aluminum hydroxide. Etc. may be used together as appropriate. Wheat starch is used in combination with an average particle size of 20.2 μm to form a concavo-convex state with two different peaks on the surface of the releasable pressure-bonding layer, making the natural rubber self-adhesive in point contact rather than in a plane. However, it is most preferable because it provides blocking resistance and re-peelability after pressure bonding. However, other starches such as potato, tapioca, and corn may be used as raw materials.
[0038]
As cyclodextrin, glucose has a donut-like molecular structure due to α-1,4-glucoside linkage, and natural rubber particles are taken into the cavity to reduce the adhesive strength of natural rubber due to sunlight or ultraviolet rays during UV printing. This is more preferable. In addition, ultraviolet absorbers such as benzoate, benzophenone, benzotriazole, and acrylonitrile may be used alone or in combination.
[0039]
By providing the ink-receiving layer for inkjet printing capable of offset printing constructed as described above, the water-fixing resistance of the ink-receiving layer for inkjet printing capable of offset printing can be improved. By doing so, curl generated by drying shrinkage at the time of application on only one side can be corrected, blocking is further suppressed, and a releasable pressure-sensitive postcard recording paper with improved printability and printability can be obtained.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described in more detail with reference to the following examples and comparative examples, but the present invention is not limited to these examples.
In addition, all the weight parts of an Example and a comparative example shall show with the numerical value in conversion of solid content.
[0041]
Example 1
100 parts by weight of a 20% by weight solution of synthetic silica (manufactured by Mizusawa Chemical Co., Ltd .: trade name “Mizukasil P-78A”) and 12 parts by weight of 8% by weight of polyvinyl alcohol (manufactured by Kuraray Co., Ltd .: trade name “PVA-117”). 40 parts by weight of an ethylene / vinyl acetate copolymer (manufactured by Showa Polymer Co., Ltd .: trade name “Polysol EVA AD-6”), an acrylic amide cationic polymer (manufactured by Sumitomo Chemical Co., Ltd .: product) 30 parts by weight of a 30% by weight solution of the name “Smileds Resin 1001”) and 15% by weight of a 28% by weight solution of a dimethyldiallylammonium chloride / sulfur dioxide copolymer (trade name “KR-850” manufactured by Arakawa Chemical Industries, Ltd.). Add water to 5 parts by weight of 45 parts by weight of a polyamide polyurea resin (manufactured by Sumitomo Chemical Co., Ltd .: trade name “Smileds Resin 5004”) and stir well. By mixing, a coating solution of 16% by weight was obtained. This coating solution was used for foam paper basis weight 127.9 g / m. ² The dry coating amount is 9 g / m on one side of the base paper ² Then, an ink-jet ink receiving layer capable of offset printing, which becomes the address side of the releasable pressure-sensitive postcard recording paper, was prepared.
[0042]
Comparative Example 1
26 parts by weight of an 8% by weight liquid of polyvinyl alcohol (trade name “PVA-117” manufactured by Kuraray Co., Ltd.) of Example 1, ethylene / vinyl acetate copolymer (manufactured by Showa Polymer Co., Ltd .: product name “Polysol EVA AD-”) 6 ”) except that the 56 wt% liquid was changed to 26 parts by weight, and an ink jet ink receiving layer capable of offset printing on the address side of the releasable pressure-sensitive postcard recording paper was prepared in the same manner as in Example 1. Created.
[0043]
Comparative Example 2
4 parts by weight of an 8% by weight liquid of polyvinyl alcohol (produced by Kuraray Co., Ltd .: trade name “PVA-117”) of Example 1, ethylene / vinyl acetate copolymer (produced by Showa Polymer Co., Ltd .: trade name “Polysol EVA AD-”) 6 ”), except that the 56 wt% solution was changed to 48 parts by weight. In the same manner as in Example 1, an ink jet ink receiving layer capable of offset printing on the address side of the releasable pressure-sensitive postcard recording paper was used. Created.
[0044]
Comparative Example 3
3 parts by weight of an 8% by weight liquid of polyvinyl alcohol of Example 1 (manufactured by Kuraray Co., Ltd .: trade name “PVA-117”), ethylene / vinyl acetate copolymer (manufactured by Showa Polymer Co., Ltd .: trade name “Polysol EVA AD- 6 ”), except that the 56 wt% liquid was changed to 10 parts by weight. In the same manner as in Example 1, an ink jet ink-receiving layer capable of offset printing on the address side of the releasable pressure-sensitive postcard recording paper was used. Created.
[0045]
Comparative Example 4
16 parts by weight of an 8% by weight liquid of polyvinyl alcohol of Example 1 (manufactured by Kuraray Co., Ltd .: trade name “PVA-117”), ethylene / vinyl acetate copolymer (manufactured by Showa Polymer Co., Ltd .: trade name “Polysol EVA AD- 6)) except that the 56% by weight liquid was changed to 54 parts by weight, in the same manner as in Example 1, an ink jet ink-receiving layer capable of offset printing on the address side of the releasable pressure-sensitive postcard recording paper. Created.
[0046]
Comparative Example 5
Address face of releasable pressure-sensitive postcard recording paper in the same manner as in Example 1 except that the acrylic amide-based cationic polymer (manufactured by Sumitomo Chemical Co., Ltd .: trade name “Smileds Resin 1001”) was removed. An ink-jet ink receiving layer capable of offset printing on the side was prepared.
[0047]
Comparative Example 6
Removable pressure-sensitive postcard record in the same manner as in Example 1 except that the dimethyldiallylammonium chloride / sulfur dioxide copolymer (trade name “KR-850” manufactured by Arakawa Chemical Industries, Ltd.) of Example 1 was omitted. An ink-jet ink-receiving layer capable of offset printing on the address side of the paper was prepared.
[0048]
Comparative Example 7
In the same manner as in Example 1 except that the polyamide polyurea resin of Example 1 (manufactured by Sumitomo Chemical Co., Ltd .: trade name “Smireds Resin 5004”) was removed, the address side of the releasable pressure-sensitive postcard recording paper and An ink-jet ink receiving layer capable of offset printing was prepared.
[0049]
The evaluation methods of the characteristics in Example 1 and Comparative Examples 1 to 7 of the ink-receiving layer for inkjet printing capable of offset printing on the address side of the releasable pressure-sensitive postcard recording paper are as follows. (In order of goodness, ◎, ○, △, ×)
Samples obtained in Example 1 and Comparative Examples 1 to 7 were used as test pieces of A4 size (vertical direction 297 mm, horizontal direction 210 mm), and BJC-600J manufactured by Canon Inc. was used on the ink-receiving layer surface for inkjet printing capable of offset printing. And printing was performed.
(1) Color development
After printing, the color developability of the solid portions of cyan, magenta, yellow and black was compared and evaluated visually. (In order of good color development, ◎, ○, △, ×)
(2) bleeding
After printing, thin line feathering was evaluated by visual comparison.
(In the order that feathering does not occur, ◎, ○, △, ×)
(3) Water resistance (crying method)
After printing, leave it for 1 to 2 days, wet the Toyo filter paper 5A for transfer with water, let the extra water absorb to another filter paper, apply the print surface to the filter paper for transfer, and 2kg / cm ² And the ink density transferred to the filter paper for transfer was evaluated.
(In order of increasing ink density, ◎, ○, △, ×)
(4) Dryability
After printing, the evaluation was made based on the time when the printed part was touched with a finger and the stain was removed.
(◎, ○, △, × in the order of shorter time)
(5) Suitability for offset printing
Printing strength was evaluated using an RI-3 type printability tester (manufactured by Meisei Seisakusho).
(In order of increasing printing strength, ◎, ○, △, ×)
[0050]
[Table 1]

[0051]
Example 2
As an adhesive, 100 parts by weight of a natural rubber emulsion (manufactured by Residex: trade name “Resitex HSX-101”), 16 parts by weight of styrene / acrylic emulsion (manufactured by Johnson Polymer: trade name “John Crill SCX631”), 78 parts by weight of synthetic silica (manufactured by Mizusawa Chemical Co., Ltd .: trade name “Mizukasil P-78A”) as a pigment, and 78 parts by weight of wheat starch (manufactured by Rhône Poulen: trade name “Actize G302Z”) as an antiblocking agent; 62 parts by weight of polyamide / epichlorohydrin resin (made by Showa Polymer Co., Ltd .: trade name “Polyfix 301A”) as a water-resistant agent, oxidation of natural rubber emulsion, cyclodextrin (Nippon Food Processing Co., Ltd.) Product name: “Seldex SH-20”) 16 parts by weight, anionic As a cation shock buffer for natural rubber emulsion, 5 parts by weight of a nonionic surfactant (manufactured by Kao Corporation: trade name “Emulgen 420”) is mixed, and water is added to adjust the concentration to 28% for adhesion. An agent coating solution was obtained. This adhesive coating solution was applied to foam paper (basis weight 127.9 g / m ² ), The dry coating amount is 10 g / m ² It was applied and dried with an air knife coater so that an ink-receiving layer for inkjet printing capable of offset printing was formed on the pressure-bonding side of the releasable pressure-sensitive postcard recording paper.
[0052]
Example 3
The base paper of Example 2 was changed from foam paper to coated paper (basis weight 127.9 g / m ² The ink-receiving layer for inkjet printing capable of offset printing was formed on the pressure-bonding side of the releasable pressure-sensitive postcard recording paper in the same manner as in Example 2 except that the above was changed.
[0053]
Example 4
The non-ionic surfactant of Example 2 (trade name “Emulgen 420” manufactured by Kao Corporation) was changed to 2 parts by weight in the same manner as in Example 2 except that the releasable pressure-sensitive postcard recording paper was An ink-jet ink receiving layer capable of offset printing on the pressure-bonding side was formed.
[0054]
Example 5
62 parts by weight of the polyamide / epichlorohydrin resin of Example 2 (manufactured by Showa Polymer Co., Ltd .: trade name “Polyfix 301A”) was dissolved in a water-soluble modified polyamine resin (manufactured by Nippon PMC Co., Ltd .: trade name “S-RD-”. 115 ") An ink jet ink-receiving layer capable of offset printing, which becomes the pressure-bonding side of the releasable pressure-sensitive postcard recording paper, was formed in the same manner as in Example 2 except that the amount was changed to 62 parts by weight.
[0055]
Comparative Example 8
The non-ionic surfactant of Example 2 (trade name “Emulgen 420” manufactured by Kao Corporation) was changed to 1 part by weight in the same manner as in Example 2 except that the releasable pressure-sensitive postcard recording paper was An ink-jet ink receiving layer capable of offset printing on the pressure-bonding side was formed.
[0056]
Comparative Example 9
The non-ionic surfactant of Example 2 (trade name “Emulgen 420” manufactured by Kao Corporation) was changed to 16 parts by weight in the same manner as in Example 2 except that the releasable pressure-sensitive postcard recording paper was An ink-jet ink receiving layer capable of offset printing on the pressure-bonding side was formed.
[0057]
Comparative Example 10
62 parts by weight of the polyamide / epichlorohydrin resin of Example 2 (manufactured by Showa Polymer Co., Ltd .: trade name “Polyfix 301A”) was replaced with a cationic quaternary ammonium salt polymer (manufactured by NOF Corporation: trade name “Blemmer PQWT-”). 40H ") except that the amount was changed to 62 parts by weight, an ink-jet ink receiving layer capable of offset printing was formed on the pressure-bonding side of the releasable pressure-sensitive postcard recording paper in the same manner as in Example 2.
[0058]
Comparative Example 11
100 parts by weight of the natural rubber emulsion of Example 2 (manufactured by Residex: trade name “Resitex HSX-101”) is added to 60 parts by weight of a natural rubber emulsion (manufactured by Syden Chemical Co., Ltd .: trade name “Pressure Adhesive K”). , 16 parts by weight of a styrene / acrylic emulsion (manufactured by Johnson Polymer Co., Ltd .: trade name “Johncrill SCX631”) was added to 16 parts by weight of a styrene / acrylic emulsion (manufactured by Johnson Polymer Co., Ltd .: trade name “Johncrill J-790”). Polyamide-epichlorohydrin resin (made by Showa Polymer Co., Ltd .: trade name “Polyfix 301A”) in 62 parts by weight, nonionic surfactant (made by Kao Corporation: trade name “Emulgen 420”) Except for changing 5 parts by weight to 0 parts by weight, in the same manner as in Example 2, the pressure-bonding side of the releasable pressure-sensitive postcard recording paper and That was formed offset printable inkjet ink-receiving layer.
[0059]
About the releasable pressure-sensitive postcard recording paper produced according to each of the above examples and comparative examples, preparation of the coating liquid, operational stability of the coating liquid, ink printing quality, peel strength after pressure bonding, water resistance, ink resistance Each performance test of transfer and offset printing suitability was performed. Table 2 shows the formulation of each example and each comparative example, and the results of each performance test. The performance test methods and evaluation methods are shown below.
(1) Preparation of coating solution
Evaluate the ease of mixing in the actual equipment coating preparation equipment. ◎, ○, Δ, and × in order of ease.
(2) Operation stability of coating liquid
Evaluate the suitability of long run in the actual coating equipment. ◎, ○, Δ, and × in order of smoothness.
(3) Ink printing quality
Cytex 1007 black ink was injected into an ink tank of an ink jet printer (HP DeskJet 560J, manufactured by Hewlett Packard) with a syringe, and a test print pattern (characters, lines, solid) was printed on the adhesive surface and evaluated by visual feeling. ◎, ○, Δ, and × in order of goodness.
(4) Peel strength
A surface of the base paper coated with the coating liquid (hereinafter simply referred to as an adhesive surface) is folded inward, cut into postcard size, bonded by roll pressurization, and the adhesive strength is measured. Swing sealer SP-401 (manufactured by Nippon Telecommunications Paper Co., Ltd.) was used for roll pressurization. In the roll pressurization, a sample having a width of 10 cm is subjected to a roller treatment under the condition of a scale 3 (about 150 μm) of a roll sealer. The releasable pressure-sensitive postcard recording paper of each example and each comparative example is roll-bonded under the above conditions. Since this work is performed quickly and the sample is sealed and stored in a plastic bag, it is assumed that the sample maintains moisture during the production of the actual machine. Next, in a 20 ° C. and 65% RH environment, the film is peeled off at a speed of 300 mm / min and a peeling angle of 90 ° (T-type peeling) with a strograph M-1 type (manufactured by Toyo Seiki), and the resistance value is measured. The sample is measured by dividing the width of 10 cm into four equal parts, and the numerical values are averaged to obtain the adhesive force g / 25 mm. The peelable adhesive force is desirably 60 to 120 g / 25 mm.
(5) Water resistance
Cytex 1007 black ink is injected into an ink tank of an ink jet printer (HP DeskJet 560J, manufactured by Hewlett Packard) with a syringe, and solid printing is performed on the adhesive surface. Next, after immersing Toyo Filter Paper 5A in water, let excess water be taken up by another paper, put this filter paper on the printing surface, and use a round press to 2 kg / cm. ² Was applied for 5 seconds, and the ink density transferred to the filter paper was evaluated visually. In the order of decreasing ink density, 順 に, ○, Δ, and × were assigned.
(6) Ink transfer after re-peeling
Cytex 1007 black ink is injected into an ink tank of an inkjet printer (HP DeskJet 560J, manufactured by Hewlett Packard) with a syringe, and a test print pattern (characters, lines, solid) is printed on the left side of the sample on the adhesive surface. The adhesive surface was folded inward, and roll pressure was applied in the same manner as the measurement of peel strength, and the film was re-peeled by hand, and the density of the ink transferred to the right half of the adhesive surface was evaluated visually. In the order of decreasing ink density, 順 に, ○, Δ, and × were assigned.
(7) Suitability for offset printing
Using an RI-3 type printing aptitude tester (manufactured by Meisei Seisakusho), the printing finished and the printing durability was evaluated. The ink is 0.4 cc of UV ink (manufactured by T & K, Best Cure RNC, Indigo, PS, T-4), printing speed: 60 rpm, printing pressure: 8.5 mm, four printings.
Evaluation was made based on visual sensation.
[0060]
[Table 2]

[0061]
As is apparent from Table 2, the releasable pressure-sensitive postcard recording papers 8 to 11 of the comparative examples are well-balanced in preparation of coating solution, long run suitability, and physical properties as releasable pressure-sensitive postcard recording paper for IJ. It is not a thing. In Comparative Example 8, since there are few nonionic surfactants, it is difficult to mix a cationic drug and an anionic drug, and a slight shock occurs during preparation. Also, the peel strength is increased, and ink transfer occurs at the time of peeling. On the other hand, in Comparative Example 9, since there are too many nonionic surfactants, preparation of the coating solution is easy, but generation of bubbles and a sharp decrease in peel strength occur. Comparative Example 10 is an example in which a cationic quaternary ammonium salt polymer was used as a water-resistant agent instead of a polyamide / epichlorohydrin resin, but preparation was impossible. Comparative Example 11 is a completely different coating solution prepared without using a nonionic surfactant. Therefore, the coating solution was very unstable, and aggregates were generated at various locations in the preparation equipment and coating machine of the actual machine due to the share. Moreover, the cationic water-resistant agent could not be added, and there was no water resistance at all. On the other hand, Examples 2 to 5 of the present invention are easy to prepare a coating solution, and are excellent in long run suitability in actual coating equipment. Moreover, the releasable pressure-sensitive postcard recording paper for IJ is well balanced with print quality, water resistance, peel strength, and offset printing suitability with UV ink.
[0062]
【The invention's effect】
As is clear from the above results, the releasable pressure-sensitive postcard recording paper of the present invention has various types of information printed on a confidential surface with an ink jet printer, and even if the confidential surface is pressure-bonded, printing transfer does not occur, It is excellent in printability and is optimal for printability for water-soluble ink of high-speed inkjet.
In addition, the present invention improves the ink-jet ink acceptability on both the front and back sides of the releasable pressure-sensitive postcard recording paper, improves the printability and water resistance, and improves the offset printability by process ink, UV ink, etc. In addition, the so-called blocking phenomenon in which the occurrence of curling and the paper surface adheres can be suppressed.
Furthermore, the present invention provides a liquid adhesive coating liquid for a releasable pressure-sensitive postcard recording paper, and it is difficult to mix a cationic chemical and an anionic chemical, and a shock is easily generated at the time of preparation. It is possible to suppress a phenomenon in which agglomerates are easily generated in various places of equipment and a coating machine.

Claims (6)

Adhesive application in which the support of the releasable pressure-bonded postcard paper is divided into a concealed information side and an address side, and an adhesive that does not normally adhere to the support on the concealed information side is applied at normal temperature and normal pressure. In the releasable pressure-sensitive postcard recording paper that can read the information on the surface again by forming a layer, joining the overlapping surfaces of the adhesive application layer, and peeling the joint surface, A coating solution that is a mixture of synthetic silica, polyvinyl alcohol, ethylene / vinyl acetate copolymer, acrylic amide cationic polymer, dimethyldiallylammonium chloride / sulfur dioxide copolymer, and polyamide polyurea resin is applied to the support on the address side. A releasable pressure-sensitive postcard recording paper, wherein an ink-receiving layer for inkjet printing capable of offset printing is formed. As an organic polymer adhesive of a coating liquid for an ink-jet ink receiving layer capable of offset printing formed on a support on the address side of the releasable pressure-sensitive postcard recording paper, both polyvinyl alcohol and ethylene / vinyl acetate are used. Using a mixture of polymers, the ratio of polyvinyl alcohol and ethylene / vinyl acetate copolymer is in the range of 1: 2 to 1:10, and the total amount of polyvinyl alcohol and ethylene / vinyl acetate copolymer is synthesized silica. The releasable pressure-sensitive postcard recording paper according to claim 1, wherein 15 to 65 parts by weight are blended with 100 parts by weight. As a coating solution for an ink-receiving layer for inkjet printing capable of offset printing formed on a support on the address side of the pressure-sensitive postcard recording paper, 5 to 45 acrylamide based cationic polymer is used per 100 parts by weight of synthetic silica. The releasable pressure-sensitive postcard recording paper according to claim 1, comprising 5 parts by weight, 5 to 45 parts by weight of a dimethyldiallylammonium chloride / sulfur dioxide copolymer, and 1 to 15 parts by weight of a polyamide polyurea resin. Adhesive application in which the support of the releasable pressure-bonded postcard paper is divided into a concealed information side and an address side, and an adhesive that does not normally adhere to the support on the concealed information side is applied at normal temperature and normal pressure. In the releasable pressure-sensitive postcard recording paper that can read the information on the surface again by forming a layer, joining the overlapping surfaces of the adhesive application layer, and peeling the joint surface, Natural rubber emulsion, styrene / acrylic emulsion, synthetic silica, wheat starch, nonionic surfactant, cyclodextrin, polyamide / epichlorohydrin resin or water-soluble modified polyamine resin Apply an adhesive coating layer coating solution consisting of a mixture of at least one of the above, and perform re-peeling that can be offset-printed on the concealed information surface side and that can accept inkjet ink. Refastenable bonding postcard recording paper, characterized in that the formation of the sex-pressed layer. As a coating liquid for a releasable pressure-bonding layer that can be offset-printed and accepted for ink-jet ink formed on a support on the concealed information surface side of the releasable pressure-sensitive postcard recording paper, 100 parts by weight of a natural rubber emulsion is used. On the other hand, the releasable pressure-sensitive postcard recording paper according to claim 4, comprising 2 to 12 parts by weight of a nonionic surfactant. As a coating liquid for a releasable pressure-bonding layer that can be offset-printed and accepted for ink-jet ink formed on a support on the concealed information surface side of the releasable pressure-sensitive postcard recording paper, 100 parts by weight of a natural rubber emulsion is used. The releasable pressure-sensitive postcard recording paper according to claim 4 or 5, wherein 5-100 parts by weight of at least one of a polyamide / epichlorohydrin resin or a water-soluble modified polyamine resin is blended.