JPS61278848A - Preparation of photographic sensitive material - Google Patents

Abstract

PURPOSE:To prevent useless increase of drying load, to speed up coating, and to reduce thickness by heat treating the surface of a continuously traveling support to be coated before coating, and coating it at 30-50 deg.C. CONSTITUTION:The web 2 to be coated is supported with a backup roll 3 and passes through a coating station, and it has been heat treated with a preheater 4 on the surface to be coated in advance before coating and kept at 30-50 deg.C, and the bead of a coating fluid is stabilized by installing an evacuated chamber 5, and the web 2 kept at 30-50 deg.C is coated with the coating fluid 1 using a slide bead coating head 6. When coating is started, it begins to proceed smoothly on the surface of the web 2 kept at 30-50 deg.C without occurrence of any induction stage, thus permitting thick coating to be avoided at the vicinity of the start line of the coating film.

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は写真用フィルム、印画紙等の写真感光材料の製
造方法に関するものである。更に詳細には、連続走行し
ている長尺帯状支持体（以下、「ウェブ」というつ）に
写真乳剤等の塗布液を均一に塗布して写真感光材料を製
造する方法に関するものである。DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a method for producing photographic materials such as photographic films and photographic papers. More specifically, the present invention relates to a method of manufacturing a photographic material by uniformly coating a coating liquid such as a photographic emulsion onto a continuously running long strip-shaped support (hereinafter referred to as a "web").

〔従来技術〕[Prior art]

一般に写真感光材料は、可撓性プラスチックフィルム、
例えば酢酸セルローズフィルム、ニトロセルローズフィ
ルム、ポリカーボネートフィルム、ポリエチレンテレフ
タレートフィルム、ポリスチレンフィルム、ポリエチレ
ン被覆紙などの表面に下塗層を塗設して成る支持体上に
、感光性乳剤層、表面保護層、バック層、中間層、フィ
ルタ一層、受像層などの写真用親水コロイド層を塗設し
て製造されているが、近年、親水コロイド層を支持体上
に塗設する方法には著しい改良がなされ、多層同時塗布
、高速塗布、薄層塗布化か推進されて来た０ 特開昭３−−３７７２２号公報及び特公昭Ｓ９−５９−
３ｙ号公報では描出願人より塗布に関連した技術を開示
している。Generally, photographic materials are flexible plastic films,
For example, a photosensitive emulsion layer, a surface protective layer, and a backing are formed on a support made of cellulose acetate film, cellulose nitrofilm, polycarbonate film, polyethylene terephthalate film, polystyrene film, polyethylene coated paper, etc., on which an undercoat layer is coated. In recent years, significant improvements have been made in the method of coating hydrocolloid layers on a support, and multi-layer Simultaneous coating, high-speed coating, and thin layer coating have been promoted.
In Publication No. 3y, the applicant discloses a technology related to coating.

〔発明か解決しようとする問題点〕[The problem that the invention attempts to solve]

塗布液を連続走行しているウェブに塗布する場合、一般
にウェブの単位面積当りの塗布液ｆ（以ド、「塗布量」
という。）が少ない程、或いはウェブの走行速度か犬で
ある程、均一な塗布の開始は困難となることが知られて
いる。すなわち、塗布の薄層化、塗布の高速化に伴ない
、均一な塗布の開始が困難となり、塗布作業を開始して
もすぐには塗布液がウェブに塗布されず、若干の誘導区
間を経た後にはじめて塗布液がウェブに塗布されるのか
通常であった。しかもこの誘導区間を経た後に塗布液が
ウェブに塗布される場合にも、塗布液がウェブにはじめ
て塗布された点を結ぶ線（以下、「塗布開始線」という
。）近傍の塗膜は他の定常塗膜に比べ約３０〜１００チ
の厚塗りになることが知られていた。When applying a coating liquid to a continuously running web, generally the coating liquid f per unit area of the web (hereinafter referred to as ``coating amount'')
That's what it means. ) is known to be lower, or the running speed of the web is faster, the more difficult it is to start applying uniformly. In other words, as coating becomes thinner and coating speed increases, it becomes difficult to start uniform coating, and even after coating starts, the coating liquid is not applied to the web immediately, but after a slight induction period. Normally, the coating liquid was applied to the web only afterward. Moreover, even when the coating liquid is applied to the web after passing through this induction section, the coating film near the line connecting the points where the coating liquid is first applied to the web (hereinafter referred to as the "coating start line") is different from other coatings. It was known that the coating was about 30 to 100 inches thicker than a steady coating.

更に塗布量を減少させるか或いはウェブの走行速度を上
昇させると、塗布液かウェブに不均一に塗布されたり、
或いは全く塗布されなくなることさえしばしばあった。If the coating amount is further reduced or the web running speed is increased, the coating solution may be applied unevenly to the web, or
In some cases, it was even not applied at all.

かような塗布開始時のトラブルの原因については、糧々
の面から数多くの研究かなされているが、末だ定説とい
うべきものかないのか現状であって、一般にウェブか十
分に濡れるまでは塗布液かウェブに付着しかたいとか、
或いはウェブに同伴される空気層を塗布液かその自重を
こより排除しつるようになるまでは塗布が開始されない
などと説明されているが、これらの説明ではかような現
象を完全に説明しきることは出来なかった。A lot of research has been done on the causes of such troubles at the start of coating, but there is no established theory, and in general, the coating solution is not used until the web is sufficiently wet. or how to attach it to the web,
Alternatively, it is explained that coating does not start until the air layer entrained in the web is removed by the coating liquid or its own weight, but these explanations do not fully explain such phenomena. I couldn't do it.

このようにその原因が明らかでないため、かかる塗布開
始時のトラブルを完全に解消しつるような解決策のない
のが現状であった。Since the cause of the problem is not clear, there is currently no solution that can completely eliminate the trouble at the start of coating.

しかしながら、この塗布開始時のトラブルが解消されな
い場合には、塗布開始線近傍の厚塗りされた塗膜の乾燥
のために、その厚塗り部分が塗膜全体からみればほんの
一部であるにもかかわらず、乾燥工程を長くする必要が
あり、きわめて不経済であるばかりでなく、塗布さえ困
難となる製造不可能となってしまうという重大な問題が
あり、塗布の薄層化、高速化という近時の要請に答える
ことが出来なかった。However, if this problem at the start of coating is not resolved, the thick coating near the coating start line may dry, even though the thick coating is only a small part of the entire coating. However, there is a serious problem in that the drying process has to be long, which is not only extremely uneconomical, but also makes coating difficult and impossible to manufacture. I was unable to respond to the demands of the time.

本発明は、かかる塗布開始時に発生するトラブルを除去
し、塗布開始線近傍ｌこおける塗膜の厚塗りを防止して
、乾燥負荷のいたずらな増大を防止すること及び塗布の
高速化、薄層化を可能ならしめる塗布方法を提供するこ
とを第１の目的とする。The present invention eliminates such troubles that occur at the start of coating, prevents thick coating near the coating start line, prevents an unnecessary increase in drying load, speeds up coating, and thins the coating. The first objective is to provide a coating method that makes it possible to

一方、多層同時塗布、高速塗布、薄層塗布化に伴ない、
感光性乳剤等の親水性コロイドより成る塗布液（以下、
単に「塗布液」という。）がウェブ上に均一に塗布され
得ないという、いわゆる塗布ムラの発生が問題化して来
た。On the other hand, with the simultaneous multilayer coating, high speed coating, and thin layer coating,
Coating liquid (hereinafter referred to as
It is simply called "coating liquid." ) has become a problem in that it cannot be applied uniformly on the web, which is so-called uneven coating.

このような塗布ムラは、支持体の単位面積当りの塗布液
ｆ（以下、「塗布量」という。）が少ない程、或いは支
持体の走行速度が大である程、つまり塗布の薄層化、高
速化に伴ない、より顕在化することが認められている。Such coating unevenness occurs as the coating liquid f per unit area of the support (hereinafter referred to as "coating amount") is small, or as the running speed of the support is high, in other words, the coating becomes thinner, It is recognized that this problem becomes more obvious as the speed increases.

本発明は塗布ムラのおそれのない写真感光材料の製造方
法を提供することを第コの目的とする。The first object of the present invention is to provide a method for producing a photographic material without the risk of coating unevenness.

〔問題点を解決するための手段〕[Means for solving problems]

本発明者はかかる目的を達成するため鋭意研究を重ねた
結果、鳶くべきことに、塗布に先立って、連続走行して
いる支持体の塗布液を塗布すべき表面を熱処理しその温
度かＪθ０ＣないしｊＯｏＣの状態で塗布することによ
って前記目的が達成されることを見出した。As a result of extensive research in order to achieve this object, the inventors of the present invention have found that, prior to coating, the surface of the continuously running support to which the coating solution is to be applied is heat-treated to reduce the temperature to Jθ0C. It has been found that the above object can be achieved by applying the coating in a state of from to jOoC.

本発明において、熱処理方法としては、塗布に先立つ支
持体の搬送経路中に加熱ゾーンを設け、支持体に熱風を
吹き付けて加熱する方法、赤外線加熱ゾーン、或いはマ
イクロ波オーブンを設け、その中に支持体を通して、輻
射、ヌは誘電的に加熱する方法、さらには支持体と接触
する搬送ローラを電熱によって加熱するか、或いは熱風
又は蒸気を通して加熱する方法等種々の方法が包含され
゛る。In the present invention, the heat treatment method includes a method in which a heating zone is provided in the transport path of the support prior to coating, and a method in which hot air is blown onto the support to heat it, an infrared heating zone or a microwave oven is provided, and the support is Various methods are included, such as heating by radiation, dielectric, heating through the body, heating the conveyor roller in contact with the support by electric heat, or heating by passing hot air or steam through the body.

本発明における塗布時の支持体温度については温度上昇
にともなって道布ムラの発生する塗布速度が増大するた
め、なるべく高温にする方か好ましい。しかし、写真用
乳剤などゲル化を伴う塗布液の場合、支持体のもつ熱量
が高すぎると塗布後のセットゾーンでゲル化が妨げられ
、塗布液膜の流動に起因する塗膜の乱れが発生する。ゲ
ル化か妨げられる支持体温度は支持体の比熱、厚みなど
支持体の熱量を変化させる因子、及びセットゾーンの冷
却能力など設備能力にもよるが、一般の写真感光材料の
製造においてｔｏ　０ｃ以上の支持体温度では塗膜の乱
れが発生しやすくなる。Regarding the temperature of the support during coating in the present invention, it is preferable to keep it as high as possible because the coating speed at which uneven coating occurs increases as the temperature rises. However, in the case of coating liquids that undergo gelation, such as photographic emulsions, if the amount of heat in the support is too high, gelation will be hindered in the set zone after coating, causing disturbances in the coating film due to the flow of the coating liquid film. do. The temperature of the support at which gelation is inhibited depends on factors that change the amount of heat of the support, such as the specific heat and thickness of the support, and equipment capacity, such as the cooling capacity of the set zone, but in the production of general photographic materials, it is 0c or higher. At a support temperature of , disturbances in the coating film tend to occur.

又、一般常識として加熱を施さないときの支持体温度は
２！ｒ　０ｃ程度であるから、本発明に適用される支持
体の温度範囲はＪＯ−！ｒ００ｃ好ましくは、？ｊ’Ｃ
−りＳＯＣである。Also, as common knowledge, the temperature of the support when no heating is applied is 2! Since r is about 0c, the temperature range of the support applied to the present invention is JO-! r00c preferably ? j'C
- It is a very SOC.

以下、添付図面に基き、本発明の実施態様について詳細
に説明する０ 第１図は本発明の一実施態様に係る写真乳剤塗布装置の
略側面図である。Embodiments of the present invention will now be described in detail with reference to the accompanying drawings. FIG. 1 is a schematic side view of a photographic emulsion coating apparatus according to an embodiment of the present invention.

塗布されるべきウエブコはバックアップロールＪにより
支持されつつ、塗布ステー′ジョンを通過せしめられて
いる。ます熱処理装置ｉｔ弘により塗布に先立ってウエ
ブコの塗布すべき表面を熱処理し、その温度を３０°Ｃ
ないしＳＯｏＣの状態に保持する。ここに塗布液ビード
を安定せしめるために減圧室Ｓが設けられている。かよ
うにして表面温度を３００（：、ないしょＯｏＣに保持
せしめられたウエブコには、スライドビード塗布ヘッド
乙により塗布液ｌが塗布せしめられる。The webcoat to be coated is supported by a backup roll J and is allowed to pass through the coating station. Prior to coating, the surface to be coated with WEBCO is heat treated using a heat treatment equipment IT HIRO, and the temperature is raised to 30°C.
Or keep it in SOoC state. A vacuum chamber S is provided here to stabilize the coating liquid bead. The coating liquid 1 is applied to the surface of the web whose surface temperature is thus maintained at 300°C by a slide bead application head.

このようにして塗布が開始されると、驚くべきことに塗
布は表面温度を３０”Ｃないし３００（：。When the coating is started in this way, surprisingly, the coating has a surface temperature of 30"C to 300C (:.

にしたウエブコ表面よりスムーズに開始し、誘導区間の
発生はみられず、したがって塗布開始線近傍の塗膜の厚
塗りは解消することが判明した。It was found that the application started more smoothly than on the surface of the web coated surface, and no induction zone was observed, thus eliminating the thick coating of the coating near the coating start line.

一方、このようにして塗布した写真感光材料は塗布ムラ
も極端に良化することか判明した。On the other hand, it has been found that the coating unevenness of the photographic light-sensitive material coated in this manner is extremely improved.

〔実施例〕〔Example〕

以下、本発明の効果をより一層明確なものとするため比
較例及び実施例を掲げる。Comparative examples and examples are listed below in order to make the effects of the present invention even clearer.

比較例　１ 厚さコＳ０μ、幅２！Ｏｗｍのポリエチレン被覆バライ
タ紙より成るウェブの走行速度を変化させて、ｇ／茨に
示す塗布液を■液が下層に、■液が上層となるようにビ
ード塗布方法により二層同時塗布し、塗布開始時におい
て、ウェブの全幅にわたり均一な塗布が実現しつる最小
の塗布液量が６１　ｃｃ　７ｍ　２となるようなウェブ
の走行速度を求めたところ、ざＯｍ／ｍｉｎとなった０
また６０ｃｎにわたる誘導区間が発生し、塗布開始線近
傍の塗膜は正常部に比し、ｊｊ−％も厚塗りとなってい
た。Comparative example 1 Thickness: S0μ, width: 2! By changing the running speed of a web made of Owm polyethylene-coated baryta paper, two layers of the coating liquid shown in g/thorn were simultaneously applied using the bead coating method, with the liquid (■) on the lower layer and the liquid (■) on the upper layer. At the start, we determined the running speed of the web that would achieve uniform coating over the entire width of the web and the minimum amount of coating liquid to be 61 cc 7 m2, and found that it was Om/min.
In addition, an induction zone of 60 cm was generated, and the coating film near the coating start line was thicker by jj-% compared to the normal area.

第１表 実施例　１ 比較例１と全く同様にして二層同時塗布をおこなった。Table 1 Example 1 Two layers were simultaneously coated in exactly the same manner as in Comparative Example 1.

ただし、１０００（：、の熱風を用いて支持体を加熱し
、バックアップローラー上での支持体か亭０°Ｃとなる
ようにした。However, the support was heated using hot air of 1,000°C so that the temperature of the support on the backup roller was 0°C.

こうして塗布開始時において、ウェブの全幅にわたり均
一な塗布が実現しつる最小の塗布液ｔがＡｓｃｃ／ｍ２
となるようなウェブの走行速度を求めたところ、？Ａｍ
／ｍｉｎとなった。また誘導区間の発生や塗布開始線近
傍での塗膜の厚塗りはみとめられなかった。In this way, at the start of coating, uniform coating is achieved over the entire width of the web, and the minimum coating liquid t is Ascc/m2.
When we calculated the running speed of the web such that ? Am
/min. In addition, no induction zone was observed or thick coating near the coating start line was observed.

実施例　２ 三酢酸セルロースフィルム（厚さ／Ｊｋμ）上にゼラチ
ン下塗層を塗設し写真用支持体を調製した。この支持体
上に５ｇ２表に示す塗布液をスライドビード法を用いて
、ｇｏｍ１分の塗布速度で３層間時塗布をした。塗布直
前に１０ｍの加熱ゾーンを作り、そのゾーン内に支持体
を通過せしめた。Example 2 A photographic support was prepared by coating a gelatin subbing layer on a cellulose triacetate film (thickness/Jkμ). On this support, 5 g of the coating solution shown in Table 2 was coated for 3 layers at a coating speed of 1 minute using a slide bead method. Immediately before coating, a 10 m heating zone was created and the support was passed through the zone.

加熱ゾーン内の温度を調節し、それぞれ調節された雰囲
気を通過した支持体に第２表の塗布液を塗布し、乾燥さ
れた表面を肉眼で透過光でもって観察した。塗布時の支
持体表面温度は赤外線輻射温度計にて測定したつ結果を
第３表に示す。第３表より、明らかな如く１．７１！７
’Ｃに加熱した雰囲気を通過した支持体上に塗布された
ものには、塗布ムラの発生はみとめられなかった。The temperature in the heating zone was adjusted, and the coating solutions shown in Table 2 were applied to the supports that had passed through the respective controlled atmospheres, and the dried surfaces were observed with the naked eye using transmitted light. The surface temperature of the support during coating was measured using an infrared radiation thermometer and the results are shown in Table 3. From Table 3, it is clear that 1.71!7
No uneven coating was observed on the substrate that had passed through the atmosphere heated to 'C.

第　、２　表　　　　　　　　部は重量部を示す。Parts in Tables 2 and 2 indicate parts by weight.

第３表Table 3

【図面の簡単な説明】[Brief explanation of drawings]

第１図は本発明の一実施態様を塗布装置の概念図である
。FIG. 1 is a conceptual diagram of a coating device according to an embodiment of the present invention.

Claims (1)

【特許請求の範囲】[Claims] 連続走行している支持体面上に塗布液を塗布して写真感
光材料を製造する方法において、塗布に先立つて前記支
持体の塗布液を塗布すべき表面を熱処理しその温度が３
０℃ないし５０℃の状態で塗布することを特徴とする写
真感光材料の製造方法。In a method of manufacturing a photographic material by applying a coating liquid onto the surface of a continuously running support, prior to coating, the surface of the support to which the coating liquid is to be applied is heat-treated to a temperature of 3.
A method for producing a photographic material, characterized in that coating is carried out at a temperature of 0°C to 50°C.