JP3434530B2 - One-component developer and developing device using the same - Google Patents
One-component developer and developing device using the sameInfo
- Publication number
- JP3434530B2 JP3434530B2 JP05440693A JP5440693A JP3434530B2 JP 3434530 B2 JP3434530 B2 JP 3434530B2 JP 05440693 A JP05440693 A JP 05440693A JP 5440693 A JP5440693 A JP 5440693A JP 3434530 B2 JP3434530 B2 JP 3434530B2
- Authority
- JP
- Japan
- Prior art keywords
- toner particles
- image
- component developer
- colorant
- component
- 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.)
- Expired - Fee Related
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Description
【0001】[0001]
【産業上の利用分野】本発明は、電子写真方式や静電記
録方式などの画像形成プロセスにおいて静電潜像を可視
化するために用いられる一成分系現像剤及びこれを用い
た現像装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a one-component developer used for visualizing an electrostatic latent image in an image forming process such as an electrophotographic system or an electrostatic recording system, and a method using the same.
Development device .
【0002】[0002]
【従来の技術】以前より電子写真方式や静電記録方式等
の画像形成プロセスにおいては、トナ−粒子及びキャリ
アを主体とした二成分系現像剤が静電潜像を可視化する
ために広く使用されてきた。しかしながら二成分系現像
剤は、長期に亘って使用していると、キャリア表面がト
ナ−粒子によって汚染され、またキャリアとトナ−粒子
との混合比が変動するため、キャリアによるトナ−粒子
の帯電が次第に不充分になる傾向があった。2. Description of the Related Art In the image forming processes such as electrophotography and electrostatic recording, a two-component developer mainly containing toner particles and carriers has been widely used for visualizing an electrostatic latent image. Came. However, when the two-component developer is used for a long period of time, the carrier surface is contaminated by the toner particles and the mixing ratio of the carrier and the toner particles varies, so that the toner particles are charged by the carrier. Tended to become insufficient.
【0003】これに対し、近年結着樹脂、着色剤等を含
有するトナ−粒子のみを主体とした一成分系現像剤が二
成分系現像剤にかわり注目を集めている。而してこのよ
うな一成分系現像剤を用いた画像形成プロセスでは、通
常現像剤担持体上に一成分系現像剤の均一な薄層を形成
し、この薄層を現像剤担持体により搬送した後、静電潜
像が可視化される。従って一成分系現像剤においては、
現像剤担持体上に一成分系現像剤の均一な薄層を凝集を
伴わず形成するために、特に流動性が良好であることが
要求される。さらに一成分系現像剤は、キャリアを用い
ずにトナ−粒子が充分に帯電される必要があるため、極
めて優れた帯電性が併せて求められる。このような理由
で従来一成分系現像剤に関し、優れた流動性、帯電性を
付与し得る添加剤の検討が活発に行なわれており、例え
ば結着樹脂、着色剤を含有し、さらには流動性向上のた
めの疎水性シリカや帯電性向上のための種々の帯電制御
剤等が添加された一成分系現像剤等が開発されている。
しかしながら、これらの一成分系現像剤はいまだ流動
性、帯電性を充分満足するものではなく、特に高湿度環
境下等においてカブリの少ない画像を得ることが困難で
あるという問題があった。また、添加剤として固形の炭
化水素であるパラフィン系ワックスを結着樹脂と着色剤
との溶融混練の際に配合し、一成分系現像剤の定着性、
耐オフセット性を向上させることも試みられているが、
このような技術によっても一成分系現像剤の流動性、帯
電性等をさほど高めることはできなかった。On the other hand, in recent years, a one-component type developer mainly composed of toner particles containing a binder resin, a colorant and the like has been attracting attention in place of the two-component type developer. Thus, in the image forming process using such a one-component developer, a uniform thin layer of the one-component developer is usually formed on the developer carrier, and this thin layer is conveyed by the developer carrier. After that, the electrostatic latent image is visualized. Therefore, in a one-component developer,
In order to form a uniform thin layer of the one-component developer on the developer carrier without agglomeration, it is required that the fluidity is particularly good. Further, in the one-component developer, since the toner particles need to be sufficiently charged without using a carrier, extremely excellent chargeability is also required. For this reason, with regard to conventional one-component type developers, studies have been actively conducted on additives capable of imparting excellent fluidity and chargeability. For example, a binder resin and a colorant are contained, A one-component type developer containing hydrophobic silica for improving the property and various charge control agents for improving the charging property has been developed.
However, these one-component type developers still do not fully satisfy the fluidity and the chargeability, and there is a problem that it is difficult to obtain an image with less fog especially in a high humidity environment. Further, a paraffin wax that is a solid hydrocarbon is added as an additive during the melt-kneading of the binder resin and the colorant, and the fixing property of the one-component developer is
Attempts have also been made to improve offset resistance,
Even with such a technique, the fluidity and charging property of the one-component developer could not be improved so much.
【0004】[0004]
【発明が解決しようとする課題】上述したように、従来
の一成分系現像剤では高湿度環境下等でカブリの少ない
画像を得ることは難しく、流動性、帯電性等の一層の向
上が望まれていた。本発明は、このような問題を解決し
て、流動性、帯電性ともに良好で、外部環境に影響され
ずカブリの少ない画像を常に形成できる一成分系現像剤
を提供することを目的としている。As described above, it is difficult to obtain an image with less fog in a high-humidity environment with the conventional one-component type developer, and further improvement in fluidity and charging property is desired. It was rare. An object of the present invention is to solve such problems and to provide a one-component type developer which has good fluidity and chargeability, and is capable of always forming an image with little fog without being affected by the external environment.
【0005】[0005]
【課題を解決するための手段及び作用】本発明の一成分
現像剤は、少なくとも結着樹脂と着色剤とを含有する非
磁性のトナー粒子を主体とし、前記非磁性のトナー粒子
中に常温常圧下で液体で不揮発性であって非極性の炭化
水素が0.5〜3.0wt%内添されたことを特徴とし
ている。すなわち本発明は、トナー粒子中に液体の炭化
水素を内添することによりトナー粒子中における着色剤
の分散性やトナー粒子の疎水性を高め、ひいては一成分
系現像剤の流動性、帯電性を向上させるというものであ
る。One-component developer of the means and functions to an aspect of the present invention, the non-containing at least a binder resin and a colorant
The toner is mainly composed of magnetic toner particles, and 0.5 to 3.0 wt% of a non- volatile hydrocarbon which is liquid and non-volatile at room temperature and normal pressure is internally added to the non-magnetic toner particles. . That is, the present invention enhances the dispersibility of the colorant in the toner particles and the hydrophobicity of the toner particles by internally adding a liquid hydrocarbon to the toner particles, and thus improves the fluidity and chargeability of the one-component developer. It is to improve.
【0006】以下、本発明の一成分系現像剤について詳
細に説明する。本発明で用いることのできる結着樹脂と
しては、一般にトナ−粒子中に含有されているものであ
れば何ら限定されず、ポリスチレン、ポリエステル、不
飽和ポリエステル、ポリエチレン、エポキシ樹脂、アク
リレート系樹脂、メタクリレート系樹脂、シリコーン樹
脂、ポリプロピレン、フッ素樹脂、ポリアミド樹脂、ポ
リウレタン樹脂及びこれらの共重合体等が挙げられる。
これらは1種または2種以上が混合して用いられる。ま
た着色剤としては、公知のあらゆる染顔料、例えば、カ
ーボンブラック、フタロシアニンブルー、インダンスレ
ンブルー、ピーコックブルー、レーキレッド、パーマネ
ントレッド、ローダミンレーキ、ハンザイエロー、パー
マネントイエロー、ベンジジンイエロー等が、1種また
は2種以上混合して用いられ得る。なお、このような着
色剤は結着樹脂に対し通常0.1〜10wt%程度配合
される。何となれば、着色剤の配合量が0.1wt%未
満だと形成される画像の画像濃度が低くなるおそれがあ
り、着色剤の配合量が10wt%を超えるとトナ−粒子
の製造が困難となるからである。The one-component developer of the present invention will be described in detail below. The binder resin that can be used in the present invention is not particularly limited as long as it is contained in toner particles, and polystyrene, polyester, unsaturated polyester, polyethylene, epoxy resin, acrylate resin, and methacrylate are generally used. Examples thereof include resins, silicone resins, polypropylene, fluororesins, polyamide resins, polyurethane resins and copolymers thereof.
These may be used alone or in combination of two or more. As the colorant, all known dyes and pigments, for example, carbon black, phthalocyanine blue, indanthrene blue, peacock blue, lake red, permanent red, rhodamine lake, Hansa yellow, permanent yellow, benzidine yellow, etc. Alternatively, two or more kinds may be mixed and used. It should be noted that such a colorant is usually mixed in the binder resin in an amount of about 0.1 to 10 wt%. If the blending amount of the colorant is less than 0.1 wt%, the image density of the formed image may be low, and if the blending amount of the colorant exceeds 10 wt%, it becomes difficult to produce toner particles. Because it will be.
【0007】本発明においてトナ−粒子中に内添される
炭化水素としては、常温常圧下で液体でかつ不揮発性の
ものであれば特に限定されず、飽和または不飽和脂肪族
炭化水素、飽和または不飽和脂環式炭化水素、芳香族炭
化水素のいずれであってもよい。また、必ずしも純粋で
単一成分の炭化水素である必要はなく、少量の副成分を
含有するものや複数種の炭化水素が混合したものも許容
され、例えば主成分が常温常圧下で液体で不揮発性の炭
化水素であれば、エンジンオイルやマシンオイル等の潤
滑油や流動パラフィン等を用いることもできる。ただし
本発明では、37.8℃における動粘度が2.0〜6.
0mm2 /s程度の粘性を有する炭化水素を用いること
が好ましい。In the present invention, the hydrocarbon internally added to the toner particles is not particularly limited as long as it is a liquid and non-volatile at normal temperature and pressure, and saturated or unsaturated aliphatic hydrocarbon, saturated or It may be either an unsaturated alicyclic hydrocarbon or an aromatic hydrocarbon. Further, it is not necessarily required to be a pure and single-component hydrocarbon, and a substance containing a small amount of a sub-component or a mixture of a plurality of types of hydrocarbons is acceptable. For example, the main component is a liquid at room temperature and normal pressure and is non-volatile. As long as it is a hydrocarbon, a lubricating oil such as engine oil or machine oil, liquid paraffin, or the like can be used. However, in the present invention, the kinematic viscosity at 37.8 ° C. is 2.0 to 6.
It is preferable to use a hydrocarbon having a viscosity of about 0 mm 2 / s.
【0008】本発明の一成分系現像剤においては、トナ
−粒子の製造時に上述したような炭化水素を着色剤の分
散媒とすることができるので、着色剤の分散性の良好な
トナ−粒子が得られ、ひいては一成分系現像剤の帯電性
が向上し、また色調の優れた画像を形成することが可能
となる。しかもこのような炭化水素は低極性であるた
め、炭化水素が内添されたトナ−粒子は疎水性が高めら
れ、結果として高湿度環境下等における一成分系現像剤
の特性変化が防止でき、外部環境に影響されない画像形
成を行なうことが可能となる。In the one-component developer of the present invention, since the above-mentioned hydrocarbon can be used as the dispersion medium of the colorant at the time of producing the toner particles, the toner particles having a good dispersibility of the colorant. It is possible to improve the chargeability of the one-component developer and form an image with excellent color tone. Moreover, since such a hydrocarbon has a low polarity, the toner particles to which the hydrocarbon is internally added have increased hydrophobicity, and as a result, the characteristic change of the one-component developer under a high humidity environment can be prevented, It is possible to form an image that is not affected by the external environment.
【0009】本発明では、結着樹脂、着色剤等を溶融混
練してトナ−粒子を製造する際に炭化水素を配合して同
時に練り込むことにより、トナ−粒子中に炭化水素が内
添される。具体的には、結着樹脂、着色剤、炭化水素及
び必要に応じ他の添加剤を混合して、双腕ニ−ダ−、三
本ロ−ル、コニ−ダ−、加圧ニ−ダ−等により溶融混練
した後、ハンマ−ミル、ジェットミル、ボ−ルミル等の
粉砕機で粉砕し、得られた粉体を篩、風力分級機等によ
り分級することにより、好ましくは50%体積平均径が
5〜15μm程度の粒径のトナ−粒子を製造する。この
とき、トナ−粒子の粒径を小径化しすぎると一成分系現
像剤における流動性等の特性制御が困難となり、逆にト
ナ−粒子の粒径が大きすぎると形成される画像の解像度
が低下する傾向がある。In the present invention, when the binder resin, the colorant and the like are melt-kneaded to produce the toner particles, the hydrocarbons are blended and kneaded at the same time so that the hydrocarbons are internally added to the toner particles. It Specifically, a binder resin, a colorant, a hydrocarbon and, if necessary, other additives are mixed, and a double-arm kneader, a triple roll, a kneader, and a pressure kneader are mixed. -Melting and kneading with the like, and then crushed with a crusher such as a hammer mill, jet mill, and ball mill, and the obtained powder is classified with a sieve, an air classifier, etc., preferably 50% volume average Toner particles having a diameter of about 5 to 15 μm are manufactured. At this time, if the particle size of the toner particles is made too small, it becomes difficult to control the characteristics such as fluidity in the one-component developer, and conversely, if the particle size of the toner particles is too large, the resolution of the image formed decreases. Tend to do.
【0010】なお一般に添加剤の配合方法としては、上
述したように結着樹脂、着色剤を溶融混練してトナ−粒
子を製造する際に同時に練り込む内添法と、トナ−粒子
を製造した後に混合撹拌する外添法があるが、本発明に
おいて流動性、帯電性ともに良好で、カブリの少ない画
像を常に形成できる一成分系現像剤を得るためには、常
温常圧下で液体で不揮発性の炭化水素を内添法により配
合する必要がある。すなわち、特公昭44−32470
号公報、特公昭52−30855号公報には、液体で不
揮発性の炭化水素である流動パラフィンを二成分系現像
剤に外添することにより、カブリのない画像が得られる
ことが報告されているが、このように炭化水素を外添し
た場合は凝集性が増大し流動性が低下する傾向があるた
め、前述した通り特に優れた流動性が求められる一成分
系現像剤には適用できない。しかも外添法では、トナ−
粒子を製造する際に着色剤の分散性を高めて帯電性等を
向上せしめることができず、かつ摩擦等の外的要因によ
るトナ−粒子の表面剥離等で容易に炭化水素が脱落する
ため、長期に亘ってカブリの少ない画像を形成すること
は困難である。これに対し、トナ−粒子中に常温常圧下
で液体で不揮発性の炭化水素が内添された本発明の一成
分系現像剤では、トナ−粒子の内部にまで炭化水素が均
一に分散され、またこの炭化水素は不揮発性であるため
トナ−粒子中で安定化する。従って、仮に上述したよう
なトナ−粒子の表面剥離等が発生しても、炭化水素はト
ナ−粒子内部よりブリードして再びその効力を発揮し、
一成分系現像剤の流動性、帯電性は何ら低下することが
なく、カブリの少ない画像を常に形成することが可能と
なる。Generally, as a method of compounding the additives, as described above, the binder resin and the colorant are melted and kneaded at the same time when the toner particles are manufactured, and the internal addition method in which they are simultaneously kneaded and the toner particles are manufactured. Although there is an external addition method in which mixing and stirring are performed later, in order to obtain a one-component developer which has good fluidity and chargeability and can always form an image with less fog in the present invention, it is liquid and non-volatile at room temperature and atmospheric pressure. It is necessary to blend the above hydrocarbons by the internal addition method. That is, Japanese Patent Publication No.
JP-B No. 52-30855 and JP-B No. 52-30855 report that an image free from fog can be obtained by externally adding liquid paraffin, which is a non-volatile hydrocarbon, to a two-component developer. However, when the hydrocarbon is externally added in this way, the cohesiveness tends to increase and the fluidity tends to decrease, so that it cannot be applied to the one-component developer which requires particularly excellent fluidity as described above. Moreover, the external additive method
When the particles are manufactured, the dispersibility of the colorant cannot be increased to improve the charging property, etc., and the hydrocarbons easily fall off due to the surface peeling of the toner particles due to external factors such as friction, It is difficult to form an image with less fog over a long period of time. On the other hand, in the one-component developer of the present invention in which the liquid and non-volatile hydrocarbons are internally added to the toner particles at room temperature and atmospheric pressure, the hydrocarbons are uniformly dispersed even inside the toner particles. Also, since this hydrocarbon is non-volatile, it is stabilized in the toner particles. Therefore, even if the surface separation of the toner particles as described above occurs, the hydrocarbon bleeds from the inside of the toner particles and exerts its effect again,
The fluidity and chargeability of the one-component developer do not deteriorate at all, and it is possible to always form an image with less fog.
【0011】また本発明の一成分系現像剤において、上
述したような炭化水素の含有量は0.5〜3wt%であ
ることが好ましい。この理由は、炭化水素の含有量が
0.5wt%未満の場合、形成される画像におけるカブ
リの低減が小さく、逆に3wt%を超える場合、カブリ
の少ない画像を形成することはできるものの、一成分系
現像剤の流動性が低下し形成される画像の画像濃度が低
くなる傾向があるからである。In the one-component developer of the present invention, the content of the above-mentioned hydrocarbon is preferably 0.5 to 3% by weight. The reason for this is that if the hydrocarbon content is less than 0.5 wt%, the reduction of fog in the formed image is small, and conversely, if it exceeds 3 wt%, an image with less fog can be formed. This is because the fluidity of the component-based developer tends to decrease, and the image density of the image formed tends to decrease.
【0012】さらに本発明では、帯電制御剤や疎水性シ
リカ等の添加剤を適宜内添または外添することができ
る。また本発明の一成分系現像剤によれば、マグネタイ
ト等の磁性粉をトナ−粒子中に配合して一成分磁性現像
方式に供することもできるが、一成分非磁性現像方式に
おいて使用されることがより好ましい。なお本発明の一
成分系現像剤は、正帯電型、負帯電型のいずれであって
もよいことはいうまでもない。Further, in the present invention, an additive such as a charge control agent or hydrophobic silica can be added internally or externally. According to the one-component developer of the present invention, magnetic powder such as magnetite can be blended in toner particles to be used in the one-component magnetic development system, but it is used in the one-component non-magnetic development system. Is more preferable. Needless to say, the one-component developer of the present invention may be either a positive charging type or a negative charging type.
【0013】[0013]
【実施例】以下に本発明の実施例を示す。
実施例1〜5、比較例1
まず結着樹脂としてスチレン−アクリル共重合体(三井
東圧アルマテックス製)を975g、着色剤として黒系
顔料カーボンブラックMA−11(三菱化成製)を25
g用意し、これらを加圧ニーダーで溶融混錬する際に、
常温常圧下で液体で不揮発性であって非極性の炭化水素
としてn−テトラデカン(和光純薬製)をそれぞれ表1
に示した含有量となるように配合し、30分間混錬を続
けた。次いで、これらの混錬物を冷却してハンマーミル
で粗粉砕した後、ジェットミルで微粉砕し、さらに風力
分級法により分級して50%体積平均径約10μmの本
発明の一成分系現像剤を得た。また参考のため、n−テ
トラデカンを配合しなかった以外は全く同様の比較例1
の一成分系現像剤を併せて製造した。EXAMPLES Examples of the present invention will be shown below. Examples 1 to 5 and Comparative Example 1 First, 975 g of a styrene-acrylic copolymer (manufactured by Mitsui Toatsu Almatex Co., Inc.) was used as a binder resin, and 25 of a black pigment carbon black MA-11 (manufactured by Mitsubishi Kasei) was used as a colorant.
g When preparing and melting and kneading these with a pressure kneader,
Table 1 shows n-tetradecane (manufactured by Wako Pure Chemical Industries, Ltd.) as a non- volatile hydrocarbon that is liquid, non-volatile at room temperature and atmospheric pressure.
The ingredients were blended so as to have the content shown in, and kneading was continued for 30 minutes. Next, these kneaded materials are cooled and coarsely pulverized by a hammer mill, finely pulverized by a jet mill, and further classified by an air classification method to obtain a one-component developer of the present invention having a 50% volume average diameter of about 10 μm. Got Also, for reference, Comparative Example 1 which is completely the same except that n-tetradecane was not added.
A one-component type developer was also manufactured.
【0014】次に、こうして得られた一成分系現像剤を
用いて、負帯電用一成分非磁性現像装置(東芝製レオド
ライ3301改造機)によりテスト画像を出力した。出
力されたテスト画像のうち、ベタ画像部の濃度をマクベ
ス反射濃度計(RD−918型)で測定し、一方非画像
部についてレファレンスの白地との色差をミノルタ色彩
色差計で測定して、画像濃度及びカブリを評価した。さ
らに、前記負帯電用一成分非磁性現像装置においてロ−
ラ状の現像剤担持体を一定速度で回転させ、現像剤担持
体の表面に均一に形成された一成分系現像剤の薄層を吸
引手段により吸引したときに発生する電荷量を測定する
ことにより、各一成分系現像剤の帯電性の評価を行なっ
た。また各一成分系現像剤について、膜厚約10μmの
溶融フィルムを作製し、その光学顕微鏡写真(×20
0)から着色剤の凝集粒を無作為に100点選び、その
長軸方向の径を測定した後平均値を算出して着色剤の分
散性を評価した。ただし上述した評価はすべて蒸気圧1
0mmHgの環境下で行なった。結果を表1に示す。な
お表中着色剤の分散性については、着色剤の凝集粒の長
軸方向の径の平均値が10μm以上で×、5μm以上1
0μm未満で△、5μm未満で○と判定されている。Next, using the thus obtained one-component developer, a test image was output by a one-component non-magnetic developing device for negative charging (Rhodry 3301 remodeled by Toshiba). Of the output test image, the density of the solid image part was measured with a Macbeth reflection densitometer (RD-918 type), while the color difference between the non-image part and the white background of the reference was measured with the Minolta colorimeter. The density and fog were evaluated. Further, in the negative charging one-component non-magnetic developing device,
Measuring the amount of electric charge generated when a thin layer of a one-component developer uniformly formed on the surface of the developer carrier is sucked by a suction means by rotating the developer carrier in the form of a lath at a constant speed. Thus, the chargeability of each one-component developer was evaluated. A molten film having a thickness of about 10 μm was prepared for each one-component developer, and an optical micrograph (× 20
From 0), 100 agglomerated particles of the colorant were randomly selected, the diameter in the major axis direction was measured, and the average value was calculated to evaluate the dispersibility of the colorant. However, the above evaluations are all vapor pressure 1
It was performed in an environment of 0 mmHg. The results are shown in Table 1. Regarding the dispersibility of the coloring agent in the table, the average value of the major axis diameters of the agglomerated particles of the coloring agent is 10 μm or more × 5 μm or more 1
It is judged as Δ when it is less than 0 μm and as ◯ when it is less than 5 μm.
【0015】[0015]
【表1】 [Table 1]
【0016】表1から明らかな通り実施例1〜5の一成
分系現像剤においては、トナ−粒子中に常温常圧下で液
体で不揮発性の炭化水素としてn−テトラデカンを内添
したことにより、帯電性、着色剤の分散性ともに向上
し、前記負帯電用一成分非磁性現像装置によりカブリの
少ない画像を形成することができた。さらに図1には、
形成された画像における画像濃度及びカブリとn−テト
ラデカンの含有量との関係を示す。図1に示されるよう
に、n−テトラデカンの含有量が0.5〜3.0wt%
のとき、特に画像濃度が高くカブリの少ない画像形成が
可能となることが判る。
実施例6〜10,比較例2
着色剤としてカーボンブラックMA−11のかわりに青
系顔料KETブルー104(大日本インキ製)を用いた
以外はそれぞれ実施例1〜5,比較例1と全く同様にし
て、実施例6〜10及び比較例2の一成分系現像剤を得
た。さらに得られた一成分系現像剤について、実施例1
〜5,比較例1と同様の方法により、画像濃度、カブ
リ、帯電性及び着色剤の分散性の評価を行なった。結果
を表2に示す。As is clear from Table 1, in the one-component type developers of Examples 1 to 5, by adding n-tetradecane as a liquid non-volatile hydrocarbon in the toner particles at room temperature and normal pressure, Both the charging property and the dispersibility of the colorant were improved, and an image with less fog could be formed by the above-mentioned one-component non-magnetic developing device for negative charging. Further in FIG.
The relationship between the image density and fog in the formed image and the content of n-tetradecane is shown. As shown in FIG. 1, the content of n-tetradecane is 0.5 to 3.0 wt%.
In this case, it can be seen that it is possible to form an image with a particularly high image density and less fog. Examples 6 to 10 and Comparative Example 2 Exactly the same as Examples 1 to 5 and Comparative Example 1 except that the blue pigment KET Blue 104 (manufactured by Dainippon Ink & Co., Inc.) was used as the colorant instead of carbon black MA-11. Thus, one-component developers of Examples 6 to 10 and Comparative Example 2 were obtained. Further, regarding the obtained one-component type developer, Example 1
The image density, fog, chargeability and dispersibility of the colorant were evaluated in the same manner as in Comparative Example 1. The results are shown in Table 2.
【0017】[0017]
【表2】 [Table 2]
【0018】表2から明らかな通り実施例6〜10の一
成分系現像剤においては、トナ−粒子中に常温常圧下で
液体で不揮発性の炭化水素としてn−テトラデカンを内
添したことにより、帯電性、着色剤の分散性ともに向上
し、前記負帯電用一成分非磁性現像装置によりカブリの
少ない画像を形成することができた。さらに図2には、
形成された画像における画像濃度及びカブリとn−テト
ラデカンの含有量との関係を示す。図2に示されるよう
に、n−テトラデカンの含有量が0.5〜3.0wt%
のとき、特に画像濃度が高くカブリの少ない画像形成が
可能となることが判る。
実施例11〜15,比較例3
着色剤としてカーボンブラックMA−11のかわりに赤
系顔料HostapermPink−EBtra.VP
307(Hoechst製)を用いた以外はそれぞれ実
施例1〜5,比較例1と全く同様にして、実施例11〜
15及び比較例3の一成分系現像剤を得た。さらに得ら
れた一成分系現像剤について、実施例1〜5,比較例1
と同様の方法により、画像濃度、カブリ、帯電性及び着
色剤の分散性の評価を行なった。結果を表3に示す。As is clear from Table 2, in the one-component type developers of Examples 6 to 10, n-tetradecane was internally added to the toner particles as a non-volatile hydrocarbon which was liquid at room temperature and normal pressure. Both the charging property and the dispersibility of the colorant were improved, and an image with less fog could be formed by the above-mentioned one-component non-magnetic developing device for negative charging. Further in FIG.
The relationship between the image density and fog in the formed image and the content of n-tetradecane is shown. As shown in FIG. 2, the content of n-tetradecane is 0.5 to 3.0 wt%.
In this case, it can be seen that it is possible to form an image with a particularly high image density and less fog. Examples 11 to 15 and Comparative Example 3 Instead of carbon black MA-11 as a colorant, a red pigment Hostaperm Pink-EBtra. VP
Example 11 to Example 5 are the same as Examples 1 to 5 and Comparative Example 1 except that 307 (manufactured by Hoechst) is used.
15 and a one-component developer of Comparative Example 3 were obtained. Regarding the obtained one-component type developers, Examples 1 to 5 and Comparative Example 1
The image density, fog, chargeability, and dispersibility of the colorant were evaluated in the same manner as in. The results are shown in Table 3.
【0019】[0019]
【表3】 [Table 3]
【0020】表3から明らかな通り実施例11〜15の
一成分系現像剤においては、トナ−粒子中に常温常圧下
で液体で不揮発性の炭化水素としてn−テトラデカンを
内添したことにより、帯電性、着色剤の分散性ともに向
上し、前記負帯電用一成分非磁性現像装置によりカブリ
の少ない画像を形成することができた。さらに図3に
は、形成された画像における画像濃度及びカブリとn−
テトラデカンの含有量との関係を示す。図3に示される
ように、n−テトラデカンの含有量が0.5〜3.0w
t%のとき、特に画像濃度が高くカブリの少ない画像形
成が可能となることが判る。
実施例16〜20,比較例4
着色剤としてカーボンブラックMA−11のかわりに黄
系顔料KETイエロー403(大日本インキ製)を用い
た以外はそれぞれ実施例1〜5,比較例1と全く同様に
して、実施例16〜20及び比較例4の一成分系現像剤
を得た。さらに得られた一成分系現像剤について、実施
例1〜5,比較例1と同様の方法により、画像濃度、カ
ブリ、帯電性及び着色剤の分散性の評価を行なった。結
果を表4に示す。As is apparent from Table 3, in the one-component type developers of Examples 11 to 15, n-tetradecane was added as toner to the toner particles at room temperature under normal pressure as a nonvolatile hydrocarbon. Both the charging property and the dispersibility of the colorant were improved, and an image with less fog could be formed by the above-mentioned one-component non-magnetic developing device for negative charging. Further, in FIG. 3, the image density and the fogging and n− in the formed image are shown.
The relationship with the content of tetradecane is shown. As shown in FIG. 3, the content of n-tetradecane is 0.5 to 3.0 w.
It can be seen that when t%, it is possible to form an image with a particularly high image density and less fog. Examples 16 to 20, Comparative Example 4 Exactly the same as Examples 1 to 5 and Comparative Example 1 except that the yellow pigment KET Yellow 403 (manufactured by Dainippon Ink & Co., Inc.) was used as the colorant instead of carbon black MA-11. Thus, one-component type developers of Examples 16 to 20 and Comparative Example 4 were obtained. Further, with respect to the obtained one-component type developer, the image density, fog, charging property and dispersibility of the colorant were evaluated in the same manner as in Examples 1 to 5 and Comparative Example 1. The results are shown in Table 4.
【0021】[0021]
【表4】 [Table 4]
【0022】表4から明らかな通り実施例16〜20の
一成分系現像剤においては、トナー粒子中に常温常圧下
で液体で不揮発性の炭化水素としてn−テトラデカンを
内添したことにより、帯電性、着色剤の分散性ともに向
上し、前記負帯電用位置成分非磁性現像装置によりカブ
リの少ない画像を形成することができた。さらに図4に
は、形成された画像における画像濃度及びカブリとn−
テトラデカンの含有量との関係を示す。図4に示される
ように、n−テトラデカンの含有量が0.5〜3.0w
t%のとき、特に画像濃度が高くカブリの少ない画像形
成が可能となることが判る。
実施例21、22、参考例1、比較例5
結着樹脂としてエポキシ樹脂SR−3888(三井石油
化学製)、着色剤として赤系顔料PermanentP
ink−FBL(山陽色素製)、常温常圧下で液体で不
揮発性の炭化水素として機械用潤滑油シェルテラスオイ
ルC−220(シェル製)を用いた以外は実施例1〜
5、比較例1と同様にして、実施例21、参考例1の一
成分現像剤を得た。また、結着樹脂としてポリエステル
系樹脂ER−101(三菱レイヨン製)、着色剤として
青系顔料Miloriブルー−671(大日精化製)、
常温常圧下で液体で不揮発性の炭化水素として流動パラ
フィン(和光純薬製一級試薬)を用いた以外は実施例1
〜5、比較例1と同様にして、実施例22及び比較例5
の一成分系現像剤を得た。さらに得られた一成分系現像
剤について、実施例1〜5、比較例1と同様の方法によ
り、画像濃度、カブリ、帯電性及び着色剤の分散性の評
価を行った。結果を表5に示す。As is clear from Table 4, in the one-component type developers of Examples 16 to 20, charging was carried out by internally adding n-tetradecane as a non-volatile hydrocarbon which is a liquid and under normal temperature and pressure in the toner particles. And the dispersibility of the colorant were improved, and it was possible to form an image with less fog by the non-magnetic developing device for the position component for negative charging. Further, in FIG. 4, the image density and the fog and n− in the formed image are shown.
The relationship with the content of tetradecane is shown. As shown in FIG. 4, the content of n-tetradecane is 0.5 to 3.0 w.
It can be seen that when t%, it is possible to form an image with a particularly high image density and less fog. Examples 21 and 22, Reference Example 1 , Comparative Example 5 Epoxy resin SR-3888 (manufactured by Mitsui Petrochemical Co., Ltd.) as a binder resin, and a red pigment PermanentP as a colorant.
Example 1 except that ink-FBL (manufactured by Sanyo Dye Co., Ltd.) was used as a machine-use lubricating oil Shell Terrace Oil C-220 (manufactured by Shell) as a non-volatile hydrocarbon that is liquid at room temperature and pressure.
5, in the same manner as in Comparative Example 1, a one-component developer of Example 21 and Reference Example 1 was obtained. In addition, a polyester resin ER-101 (manufactured by Mitsubishi Rayon) as a binder resin, a blue pigment Milori Blue-671 (manufactured by Dainichiseika) as a colorant,
Example 1 except that liquid paraffin (first-class reagent manufactured by Wako Pure Chemical Industries, Ltd.) was used as a non-volatile hydrocarbon that was liquid at room temperature and normal pressure.
~ 5, in the same manner as Comparative Example 1, Example 22 and Comparative Example 5
A one-component type developer was obtained. Further, with respect to the obtained one-component type developer, the image density, fog, chargeability and dispersibility of the colorant were evaluated in the same manner as in Examples 1 to 5 and Comparative Example 1. The results are shown in Table 5.
【0023】[0023]
【表5】 [Table 5]
【0024】表5に示されるように、この場合もトナ−
粒子中に常温常圧下で液体で不揮発性の炭化水素を内添
することにより、帯電性、着色剤の分散性ともに向上し
てカブリの少ない画像を形成することができ、特に炭化
水素の含有量が0.5〜3.0wt%のとき、高い画像
濃度が得られることが確認された。As shown in Table 5, the toner is also used in this case.
By internally adding liquid non-volatile hydrocarbons to the particles at room temperature and atmospheric pressure, both charging properties and dispersibility of the colorant can be improved, and images with less fog can be formed. It was confirmed that a high image density can be obtained when is 0.5 to 3.0 wt%.
【0025】[0025]
【発明の効果】以上詳述したように、本発明の一成分系
現像剤は流動性、帯電性がともに良好で、外部環境に影
響されずカブリの少ない画像を常に形成することがで
き、その工業的価値は大なるものがある。As described in detail above, the one-component type developer of the present invention has good fluidity and chargeability, and can always form an image with less fog without being affected by the external environment. It has great industrial value.
【図面の簡単な説明】[Brief description of drawings]
【図1】 本発明の実施例において、形成された画像に
おける画像濃度及びカブリとn−テトラデカンの含有量
との関係を示す特性図。FIG. 1 is a characteristic diagram showing the relationship between image density and fog in a formed image and the content of n-tetradecane in an example of the present invention.
【図2】 本発明の他の実施例において、形成された画
像における画像濃度及びカブリとn−テトラデカンの含
有量との関係を示す特性図。FIG. 2 is a characteristic diagram showing the relationship between image density and fog in a formed image and the content of n-tetradecane in another example of the present invention.
【図3】 本発明のさらに他の実施例において、形成さ
れた画像における画像濃度及びカブリとn−テトラデカ
ンの含有量との関係を示す特性図。FIG. 3 is a characteristic diagram showing the relationship between the image density and the fog and the content of n-tetradecane in a formed image in still another example of the present invention.
【図4】 本発明の別の実施例において、形成された画
像における画像濃度及びカブリとn−テトラデカンの含
有量との関係を示す特性図。FIG. 4 is a characteristic diagram showing the relationship between the image density and the fog and the content of n-tetradecane in a formed image in another example of the present invention.
───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 昭59−187356(JP,A) 特開 平2−240662(JP,A) 特開 昭58−10750(JP,A) 特開 平4−250460(JP,A) 特開 昭54−8534(JP,A) 特開 昭63−192055(JP,A) 特開 平3−63660(JP,A) 特公 昭44−32470(JP,B1) (58)調査した分野(Int.Cl.7,DB名) G03G 9/08 ─────────────────────────────────────────────────── ─── Continuation of front page (56) Reference JP-A-59-187356 (JP, A) JP-A-2-240662 (JP, A) JP-A 58-10750 (JP, A) JP-A-4- 250460 (JP, A) JP 54-8534 (JP, A) JP 63-192055 (JP, A) JP 3-63660 (JP, A) JP 44-32470 (JP, B1) (58) Fields investigated (Int.Cl. 7 , DB name) G03G 9/08
Claims (2)
る非磁性のトナー粒子を主体とした一成分系現像剤であ
って、前記非磁性のトナー粒子中に常温常圧下で液体で
不揮発性であって非極性の炭化水素が0.5〜3.0w
t%内添されたことを特徴とする一成分系現像剤。1. A one-component developer mainly composed of non-magnetic toner particles containing at least a binder resin and a colorant, wherein the non-magnetic toner particles are liquid and non-volatile under normal temperature and normal pressure. And non-polar hydrocarbon is 0.5-3.0w
A one-component developer characterized by being internally added at t%.
る非磁性のトナー粒子を主体とした一成分系現像剤であ
って、前記非磁性のトナー粒子中に常温常圧下で液体で
不揮発性であって非極性の炭化水素が0.5〜3.0w
t%内添された一成分系現像剤を用いたことを特徴とす
る現像装置。2. A one-component developer mainly composed of non-magnetic toner particles containing at least a binder resin and a colorant, wherein the non-magnetic toner particles are liquid and non-volatile at room temperature and atmospheric pressure. And non-polar hydrocarbon is 0.5-3.0w
A developing device using a one-component developer internally added with t%.
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JP05440693A JP3434530B2 (en) | 1993-03-15 | 1993-03-15 | One-component developer and developing device using the same |
Publications (2)
Publication Number | Publication Date |
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JPH06266150A JPH06266150A (en) | 1994-09-22 |
JP3434530B2 true JP3434530B2 (en) | 2003-08-11 |
Family
ID=12969826
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JP05440693A Expired - Fee Related JP3434530B2 (en) | 1993-03-15 | 1993-03-15 | One-component developer and developing device using the same |
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KR100490398B1 (en) * | 2002-02-28 | 2005-05-17 | 삼성전자주식회사 | Method for manufacturing liquid composition for developing latent electrostatic images |
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