JPH0683103A - Magnetic toner for electrostatic charge image - Google Patents
Magnetic toner for electrostatic charge imageInfo
- Publication number
- JPH0683103A JPH0683103A JP4235053A JP23505392A JPH0683103A JP H0683103 A JPH0683103 A JP H0683103A JP 4235053 A JP4235053 A JP 4235053A JP 23505392 A JP23505392 A JP 23505392A JP H0683103 A JPH0683103 A JP H0683103A
- Authority
- JP
- Japan
- Prior art keywords
- magnetic toner
- magnetic
- fine particles
- toner
- image
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は,画像担体表面に形成し
た静電荷像の現像に使用する静電荷像用磁性トナーに関
するものであり,特に摩擦帯電量が安定であり,かつ環
境安定性が高く,高画像の画像が得られる静電荷像用磁
性トナーに関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic toner for an electrostatic charge image used for developing an electrostatic charge image formed on the surface of an image carrier, and in particular, it has a stable triboelectric charge amount and environmental stability. The present invention relates to a magnetic toner for an electrostatic charge image, which can obtain a high and high-quality image.
【0002】[0002]
【従来の技術】従来電子写真法においては,まずセレ
ン,酸化亜鉛,有機光導電体等の材料からなる画像担体
の表面を一様帯電させ,次いで露光を行って画像担体の
表面に静電荷像を形成する。そしてこの静電荷像に鉄
粉,フェライト粉末等の磁性粒子からなるキャリアと,
絶縁性着色樹脂粉末からなるトナーとを混合してなる現
像剤(正規現像の場合は,トナーは静電荷像と逆極性に
摩擦帯電している)を接触させて現像を行う。次に上記
顕像化したトナー像に転写シートを重ね,この転写シー
トの裏面から電界を印加し,トナー像を転写シートに転
写した後,例えば熱定着手段を介して定着する。なお転
写後の感光体の表面に残留したトナーは,ブレードやフ
ァーブラシなどのクリーニング部材によって除去され
る。2. Description of the Related Art In the conventional electrophotographic method, the surface of an image carrier made of a material such as selenium, zinc oxide, or an organic photoconductor is uniformly charged and then exposed to an electrostatic charge image on the surface of the image carrier. To form. Then, in this electrostatic image, carriers made of magnetic particles such as iron powder and ferrite powder,
Development is carried out by bringing a developer mixed with a toner made of insulating colored resin powder (in the case of regular development, the toner is triboelectrically charged in the opposite polarity to the electrostatic image). Next, a transfer sheet is superposed on the visualized toner image, an electric field is applied from the back surface of the transfer sheet to transfer the toner image to the transfer sheet, and then the toner image is fixed through, for example, a heat fixing unit. The toner remaining on the surface of the photoconductor after the transfer is removed by a cleaning member such as a blade or a fur brush.
【0003】上記の画像担体表面に形成した静電荷像を
現像する場合には,一般に磁気ブラシ法が使用されてい
る。このような磁気ブラシ現像において使用される現像
剤としては,磁性キャリアと非磁性若しくは弱磁性のト
ナーとを混合した二成分系現像剤が多い。一方現像剤と
して結着用樹脂と磁性粉とを主成分とする一成分系現像
剤を使用する方法もある。A magnetic brush method is generally used for developing the electrostatic charge image formed on the surface of the image carrier. As a developer used in such magnetic brush development, there are many two-component developers in which a magnetic carrier and a non-magnetic or weakly magnetic toner are mixed. On the other hand, there is also a method of using a one-component developer containing a binder resin and magnetic powder as main components as a developer.
【0004】前者の二成分系現像剤を使用する方法にお
いては,画像濃度および解像度の良好な画像が得られる
反面,中間調の再現性が劣り,また良好な画像を維持す
るためには,磁性キャリアとトナーとの混合撹拌やトナ
ー濃度制御が必要となり,機構的に複雑となるという問
題点がある。一方後者の一成分系現像剤を使用する方法
においては,トナーの帯電量の増加に伴うトナーの帯電
凝集現象の惹起,環境,特に湿度による帯電量の変化に
起因する画質の劣化等の問題点がある。In the former method using a two-component developer, an image having good image density and resolution can be obtained, but the halftone reproducibility is poor, and in order to maintain a good image, Since mixing and stirring of the carrier and the toner and control of the toner concentration are required, there is a problem that the mechanism becomes complicated. On the other hand, in the latter method using the one-component developer, there are problems such as the occurrence of the charge aggregation phenomenon of the toner with the increase of the charge amount of the toner and the deterioration of the image quality due to the change of the charge amount due to the environment, especially humidity. There is.
【0005】これらの問題点を解決する手段として,例
えば特開昭59-162563 号および同59-216149 号公報に記
載されるような,磁性キャリアと磁性トナーとを混合し
てなる現像剤が提案されており,前記従来の二成分系現
像剤および一成分系現像剤の両者の長所を併有するもの
とされている。As means for solving these problems, for example, a developer prepared by mixing a magnetic carrier and a magnetic toner as disclosed in JP-A-59-162563 and JP-A-59-216149 is proposed. The conventional two-component type developer and the one-component type developer have both advantages.
【0006】[0006]
【発明が解決しようとする課題】上記のような磁性キャ
リアと混合して現像剤を構成する磁性トナーは微粉であ
るため,流動性が低いのが通常である。このため流動性
改質剤として,例えば負帯電型の磁性トナーにおいては
負帯電特性を有するシリカ等の金属酸化物の微粒子を表
面に添加固定する手段が採用されている(例えば特開昭
58-185405 号,同58-216252 号,同59-137305 号,特開
平2-257144号公報等参照)。The magnetic toner, which is mixed with the magnetic carrier as described above and constitutes the developer, is a fine powder, so that it usually has low fluidity. Therefore, as a fluidity modifier, for example, in a negatively charged magnetic toner, a means for adding and fixing fine particles of a metal oxide such as silica having a negatively charging characteristic to the surface has been adopted (for example, Japanese Patent Laid-Open Publication No. Sho.
58-185405, 58-216252, 59-137305, JP-A-2-257144, etc.).
【0007】しかしながら,上記磁性トナー表面へのシ
リカ等の微粉末の固定状態が不安定なことが多く,この
ためシリカ等の微粉末が分離してしまい,摩擦帯電量が
低下し,この結果画像濃度が低下するという問題点があ
る。However, the fixing state of fine powder of silica or the like on the surface of the magnetic toner is often unstable, so that the fine powder of silica or the like is separated and the triboelectric charge amount is lowered, resulting in the image There is a problem that the concentration is lowered.
【0008】また流動性改質剤としてのシリカ微粉末の
分離に伴って,磁性トナーの流動性が当然に低下し,現
像装置内において磁性トナーの凝集体が生起することも
あり,現像領域への磁性トナーの円滑な供給が阻害され
るという問題点がある。Further, as the silica fine powder as the fluidity modifier is separated, the fluidity of the magnetic toner is naturally lowered, and aggregates of the magnetic toner may be generated in the developing device, so that the magnetic toner may reach the developing area. There is a problem that the smooth supply of the magnetic toner is obstructed.
【0009】更に環境安定性の劣化を招来し,例えば3
0℃,80〜85%RHのような高湿の環境において
は,画像濃度が極端に低下し,画質が大幅に低下すると
いう問題点も併存する。Further, the environmental stability is deteriorated, for example, 3
In a high humidity environment such as 0 ° C. and 80 to 85% RH, there is also a problem that the image density is extremely lowered and the image quality is significantly lowered.
【0010】本発明は,上記従来技術に存在する問題点
を解決し,摩擦帯電量が安定であり,かつ高湿環境にお
いても高品質の画像が得られる静電荷像用磁性トナーを
提供することを目的とする。The present invention solves the problems existing in the above-mentioned prior art, and provides a magnetic toner for an electrostatic charge image, which has a stable triboelectric charge amount and can obtain a high quality image even in a high humidity environment. With the goal.
【0011】[0011]
【課題を解決するための手段】上記目的を達成するため
に,本発明においては,結着用樹脂と磁性粉を主成分と
し,磁性キャリアと混合して二成分系現像剤を構成する
静電荷像用磁性トナーにおいて,表面に磁性トナーと同
極性の帯電特性を有する微粒子を強く固定すると共に,
磁性トナーと逆極性の帯電特性を有する微粒子を弱く固
定する,という技術的手段を採用した。In order to achieve the above object, in the present invention, an electrostatic charge image which comprises a binder resin and magnetic powder as main components and is mixed with a magnetic carrier to form a two-component developer In the magnetic toner for use, fine particles having the charging property of the same polarity as the magnetic toner are strongly fixed on the surface,
We adopted the technical means of weakly fixing the particles that have the opposite charging characteristics to the magnetic toner.
【0012】本発明において,結着用樹脂としては,公
知の樹脂の1種以上を定着方式に応じて適宜に選定して
使用することができる。例えば熱ロール定着方式の場合
には,スチレン−アクリル系共重合体,スチレン−ブタ
ジェン系共重合体,エポキシ樹脂,ポリエステル樹脂等
の1種または2種以上混合したものが使用できる。In the present invention, as the binder resin, one or more known resins can be appropriately selected and used according to the fixing method. For example, in the case of the heat roll fixing system, one or a mixture of two or more of styrene-acrylic copolymer, styrene-butadiene copolymer, epoxy resin, polyester resin and the like can be used.
【0013】次に本発明の磁性トナーを構成する磁性粉
としては,例えば鉄,マンガン,ニッケル,コバルト,
クロムなどの金属微粉末,各種フェライト,マンガンな
どの合金や化合物,その他の強磁性合金マグネタイトな
ど従来から磁性材料として知られているものが使用でき
る。Next, as the magnetic powder constituting the magnetic toner of the present invention, for example, iron, manganese, nickel, cobalt,
Materials known as magnetic materials such as fine metal powders such as chromium, various ferrites, alloys and compounds such as manganese, and other ferromagnetic alloy magnetite can be used.
【0014】次に磁性トナー中に含有させるべき上記磁
性粉の量も高品質の画像を形成するために重要である。
磁性粉の含有量が10重量%未満であると,磁性トナー
の飽和磁化が大幅に低下し,現像ロールを構成するスリ
ーブ上から磁性トナーが離脱し易くなってトナー飛散が
生じる。一方磁性粉の含有量が75重量%を超えると,
定着性が低下する。従って磁性粉の含有量は10〜75
重量%とするのが好ましい。Next, the amount of the magnetic powder to be contained in the magnetic toner is also important for forming a high quality image.
If the content of the magnetic powder is less than 10% by weight, the saturation magnetization of the magnetic toner is significantly reduced, and the magnetic toner is easily separated from the sleeve constituting the developing roll, and toner scattering occurs. On the other hand, if the content of magnetic powder exceeds 75% by weight,
Fixability deteriorates. Therefore, the content of magnetic powder is 10-75
It is preferably set to wt%.
【0015】また必要に応じて着色剤を添加することが
でき,このような着色剤としては,カーボンブラック,
アニリンブルー,カルコオイルブルー,クロムイエロ
ー,ウルトラマリンブルー,デュポンオイルレッド,キ
ノリンイエロー,メチレンブルークロライド,フタロシ
アニンブルー,マラカイトグリーンオクサレート,ラン
プブラック,ローズベンガル等を挙げることができる。
これらの着色剤は,充分な濃度の可視像を形成するのに
充分な割合で含有させることが必要であり,通常磁性ト
ナー全量に対して1〜20重量%含有させる。If desired, a coloring agent may be added. Examples of such coloring agents include carbon black,
Aniline blue, chalco oil blue, chrome yellow, ultramarine blue, DuPont oil red, quinoline yellow, methylene blue chloride, phthalocyanine blue, malachite green oxalate, lamp black, rose bengal and the like can be mentioned.
These colorants need to be contained in a sufficient amount to form a visible image with a sufficient density, and are usually contained in an amount of 1 to 20% by weight based on the total amount of the magnetic toner.
【0016】また磁性トナーに所定の帯電性を付加する
ために,荷電制御剤を含有させることができる。荷電制
御剤としては,正の帯電特性を有するニグロシン染料,
これをベースとした脂肪族一塩基酸および/または二塩
基酸との反応物,ニグロシン染料とカルボキシ基含有樹
脂との反応物,トリフェニルメタン系染料,ピペラジン
系ポリマー,負の帯電特性を有する含Crアゾ染料等の
含金属錯体が挙げられる。Further, a charge control agent can be contained in order to add a predetermined chargeability to the magnetic toner. As the charge control agent, a nigrosine dye having a positive charge characteristic,
Based on this, a reaction product with an aliphatic monobasic acid and / or a dibasic acid, a reaction product with a nigrosine dye and a carboxy group-containing resin, a triphenylmethane-based dye, a piperazine-based polymer, and a negative charging property-containing compound. Examples include metal-containing complexes such as Cr azo dyes.
【0017】上記の荷電制御剤の含有量は,磁性トナー
全量に対して0.1 〜10重量%の範囲が適当である。ま
たこの磁性トナーの帯電量は,ブローオフ法(東芝ケミ
カル製TB−200型使用)にて測定した場合に,絶対
値において5〜30μc/gの範囲がよい。帯電量が5
μc/g未満であると,トナー飛散,地カブリが発生す
るため好ましくない。また30μc/gを超えると,現
像性が低下するため不都合である。The content of the above charge control agent is appropriately in the range of 0.1 to 10% by weight based on the total amount of the magnetic toner. Further, the amount of charge of this magnetic toner is preferably in the range of 5 to 30 μc / g in absolute value when measured by the blow-off method (using Toshiba Chemical's TB-200 type). Charge amount is 5
If it is less than μc / g, toner scattering and background fog occur, which is not preferable. On the other hand, if it exceeds 30 μc / g, the developability is deteriorated, which is inconvenient.
【0018】本発明における磁性トナーは,例えば次の
ようにして製造することができる。まず結着用樹脂,磁
性粉,着色剤等の原料を乾式予備混合し,ニーダ等で加
熱混練した後,冷却固化する。次にジェットミルで粉砕
し,ジグザグ分級機によって分級し,平均粒径3〜30
μmの磁性トナーとする。平均粒径が3μm未満である
と現像性が低下すると共に,画像のカブリが多くなるた
め好ましくない。一方平均粒径が30μmを超えると,
画像のザラツキが激しくなるため不都合である。なお平
均粒径は6〜15μmとするのが好ましい。The magnetic toner of the present invention can be manufactured, for example, as follows. First, raw materials such as a binding resin, magnetic powder, and a coloring agent are dry-preliminarily mixed, heated and kneaded with a kneader, and then cooled and solidified. Next, it is crushed with a jet mill and classified with a zigzag classifier to obtain an average particle size of 3 to 30.
The magnetic toner is μm. When the average particle size is less than 3 μm, the developability is deteriorated and the image fog increases, which is not preferable. On the other hand, if the average particle size exceeds 30 μm,
This is inconvenient because the graininess of the image becomes severe. The average particle size is preferably 6 to 15 μm.
【0019】次に上記磁性トナーの表面に,磁性トナー
と同極性の帯電特性を有する微粒子を強く固定するので
あるが,このような固定手段としては,例えば磁性トナ
ーと微粒子とをヘンシェルミキサーを使用して気流渦中
で混合する方法,ジェットミルを使用して衝突させる方
法,ハイブリタイザを使用して造粒する方法等がある。
この場合において,通常の条件よりも混合時間,混合回
転の条件を厳しくすることにより,微粒子を磁性トナー
の表面に強く固定する。Next, fine particles having the same charging property as that of the magnetic toner are strongly fixed to the surface of the magnetic toner. As such a fixing means, for example, a magnetic toner and fine particles are used with a Henschel mixer. Then, there is a method of mixing in a vortex of the air flow, a method of causing collision using a jet mill, and a method of granulating using a hybridizer.
In this case, the fine particles are strongly fixed to the surface of the magnetic toner by making the conditions of the mixing time and the mixing rotation more strict than the normal conditions.
【0020】上記の処理後,更に磁性トナーと逆極性の
帯電特性を有する微粒子を弱く固定する。この手段とし
ては,通常の混合装置を使用して,通常の混合条件で行
うことができる。なお好ましくは,混合時間,混合回転
数等の混合条件を若干緩く設定するとよい。After the above processing, fine particles having a charging characteristic of the opposite polarity to that of the magnetic toner are weakly fixed. As this means, an ordinary mixing apparatus can be used and can be performed under ordinary mixing conditions. It is preferable that the mixing conditions such as the mixing time and the number of rotations of the mixing are set to be slightly loose.
【0021】なお磁性トナーの表面に固定すべき微粒子
の固定強度は,例えば次のようにして評価する。まず所
定量,例えば10gの磁性トナーを現像ロール上に磁気
的に吸着させた状態で緩やかに回転させる。次に磁性ト
ナーが飛散しない程度の圧力で磁性トナーをエアーブロ
ーし(例えば15分間),磁性トナー表面の微粒子を吹
き飛ばす。そして上記エアーブロー前後の磁性トナー中
の微粒子量を,例えば蛍光X線分析等の手段で定量分析
する。The fixing strength of the fine particles to be fixed on the surface of the magnetic toner is evaluated as follows, for example. First, a predetermined amount, for example, 10 g of magnetic toner is gently rotated while being magnetically adsorbed on the developing roll. Next, the magnetic toner is blown with air at a pressure not to scatter the magnetic toner (for example, for 15 minutes), and the fine particles on the surface of the magnetic toner are blown off. Then, the amount of fine particles in the magnetic toner before and after the air blowing is quantitatively analyzed by means such as fluorescent X-ray analysis.
【0022】この場合,エアーブロー前後における磁性
トナー中の微粒子量を各々W0 ,W 1 とすると,(W0
−W1 )/W0 が90%以上であるときに付着強度が
「強い」とし,(W0 −W1 )/W0 が90%未満であ
るときに付着強度が「弱い」と評価する。In this case, the magnetism before and after air blowing
The amount of fine particles in the toner is W0, W 1Then, (W0
-W1) / W0Is 90% or more, the adhesive strength is
"Strong", (W0-W1) / W0Is less than 90%
When the adhesive strength is low, the adhesive strength is evaluated as “weak”.
【0023】上記のような微粒子としては,シリカ,ア
ルミナ,チタニア等の金属酸化物,またはケイ素,アル
ミニウム,チタンの少なくとも2種の共酸化物を使用す
ることができる。なお好ましくはこれらの微粒子は,シ
ランカップリング剤,疎水化剤によって表面を処理され
たものがよい。As the fine particles as described above, metal oxides such as silica, alumina and titania, or at least two kinds of co-oxides of silicon, aluminum and titanium can be used. It is preferable that the surface of these fine particles is treated with a silane coupling agent or a hydrophobizing agent.
【0024】本発明の磁性トナーは,磁性キャリアと混
合した現像剤として使用される。磁性キャリアとしては
公知の材料,例えば鉄粉,マグネタイト粉末,あるいは
Ni−Zn系フェライト,Cu−Znフェライト,Mn
−Zn系フェライト等のフェライト粉末を使用できる。
これらの粉末はそのまま使用してもよいし,帯電量を調
整するために表面を樹脂材料によって被覆してもよい。The magnetic toner of the present invention is used as a developer mixed with a magnetic carrier. As the magnetic carrier, known materials such as iron powder, magnetite powder, Ni-Zn ferrite, Cu-Zn ferrite, Mn are used.
A ferrite powder such as a Zn-based ferrite can be used.
These powders may be used as they are, or the surface thereof may be coated with a resin material in order to adjust the charge amount.
【0025】磁性キャリアの体積固有抵抗は103 〜1
013Ω−cmとするのがよい。この場合の体積固有抵抗
は,ギャップ5mmの1対の電極を設けた絶縁性セル内に
磁性キャリアを充填し,電極間にD.C.100Vの電
圧を印加して測定する。磁性キャリアの体積固有抵抗が
103 Ω−cm未満であると画像担体へのキャリア付着を
生じ易くなるため好ましくなく,一方1013Ω−cmを超
えると,現像性が低下すると共に画像濃度が低下するた
め不都合である。好ましい体積固有抵抗の値は104 〜
1010Ω−cmである。The volume resistivity of the magnetic carrier is 10 3 to 1
It is better to set it to 0 13 Ω-cm. In this case, the volume resistivity was measured by filling a magnetic carrier in an insulating cell provided with a pair of electrodes with a gap of 5 mm and setting the D. C. A voltage of 100 V is applied and measurement is performed. If the volume resistivity of the magnetic carrier is less than 10 3 Ω-cm, carrier adhesion to the image carrier tends to occur, which is not preferable. On the other hand, if it exceeds 10 13 Ω-cm, the developability and the image density decrease. Therefore, it is inconvenient. The preferred volume resistivity value is 10 4 to
It is 10 10 Ω-cm.
【0026】磁性トナーと磁性キャリアとの混合比は,
トナー濃度において10〜90重量%とするのがよい。
トナー濃度が10重量%未満であると,キャリア付着が
発生し,一方90重量%を超えると,トナー飛散,地カ
ブリが増加するため好ましくない。The mixing ratio of the magnetic toner and the magnetic carrier is
The toner concentration is preferably 10 to 90% by weight.
If the toner concentration is less than 10% by weight, carrier adhesion occurs, while if it exceeds 90% by weight, toner scattering and background fog increase, which is not preferable.
【0027】[0027]
【作用】上記の構成により,磁性トナーの表面に強く固
定された同極性の帯電特性を有する微粒子の存在によ
り,磁性トナーの帯電安定化機能が確保されると共に,
弱く固定された逆極性の帯電特性を有する微粒子の存在
により,磁性トナーの流動性が確保されるのである。With the above structure, the presence of the fine particles having the same polarity charging property strongly fixed to the surface of the magnetic toner ensures the function of stabilizing the charging of the magnetic toner, and
The fluidity of the magnetic toner is ensured by the presence of the weakly fixed particles having the opposite polarity charging characteristics.
【0028】[0028]
【実施例】 スチレン−nブチルメタクリレート共重合体 55重量部 (Mw=21×104 ,Mn=1.6 ×104 ) マグネタイト 40重量部 (戸田工業製 EPT500) ポリプロピレン 3.5 重量部 (三洋化成製 ビスコール550P) 負帯電性荷電制御剤 1.5 重量部 (オリエント化学製 ボントロンE81) 上記配合の原料を乾式予備混合し,ニーダで加熱混練
し,冷却固化後,ジェットミルで粉砕し,ジグザグ分級
機によって分級し,平均粒径12μmの磁性トナーとし
た。次にこの磁性トナー100重量部と負帯電性の疎水
性シリカ(日本アエロジル製 R972)0.5 重量部を
混合し,ヘンシェルミキサにより,疎水性シリカを磁性
トナーの表面に強く固定した。更にこの磁性トナー10
0重量部と正帯電性シリカ(日本アエロジル製 RP−
130)0.3 重量部を混合し,ヘンシェルミキサによ
り,正帯電性シリカを上記磁性トナーの表面に弱く固定
した。なお比較例として,正帯電性シリカの固定を欠如
する従来例によるものを作製した。Examples Styrene-n-butyl methacrylate copolymer 55 parts by weight (Mw = 21 × 10 4 , Mn = 1.6 × 10 4 ) Magnetite 40 parts by weight (Toda Kogyo EPT500) Polypropylene 3.5 parts by weight (Sanyo Kasei VISCOL 550P) ) 1.5 parts by weight of negatively chargeable charge control agent (Bontron E81 manufactured by Orient Chemical Co., Ltd.) The raw materials having the above composition are dry-premixed, kneaded by heating with a kneader, solidified by cooling, pulverized by a jet mill, and classified by a zigzag classifier, A magnetic toner having an average particle diameter of 12 μm was used. Next, 100 parts by weight of this magnetic toner was mixed with 0.5 part by weight of negatively charged hydrophobic silica (R972 manufactured by Nippon Aerosil Co., Ltd.), and the hydrophobic silica was strongly fixed to the surface of the magnetic toner by a Henschel mixer. Further, this magnetic toner 10
0 parts by weight and positively charged silica (RP made by Nippon Aerosil RP-
130) 0.3 part by weight was mixed, and positively charged silica was weakly fixed on the surface of the magnetic toner by a Henschel mixer. As a comparative example, a conventional example lacking fixation of positively charged silica was prepared.
【0029】上記のようにして調製した磁性トナーとフ
ェライトキャリア(日立金属製 KBN−100,平均
粒径74〜149μm)とを混合してトナー濃度40重
量%の現像剤とし,現像を行った。現像に際しては,O
PCからなる画像担体を−650Vに一様帯電させ,表
面移動速度60mm/秒として露光を行い,SUS304
からなる直径20mmのスリーブ内に6極対称着磁した永
久磁石部材を内蔵させた現像ロールによって現像した。
スリーブ上の表面磁束密度650G,スリーブ回転数1
60r.p.m.とし,スリーブには−550Vのバイアス電
圧を印加した。なおドクターギャップを0.35mm,現像ギ
ャップを0.30mmとした。現像後のトナー像を記録紙に転
写し,熱ロールにより180℃,線圧1kg/cmで定着し
た。また現像雰囲気は30℃,80%RHとした。The magnetic toner prepared as described above and a ferrite carrier (KBN-100 manufactured by Hitachi Metals, average particle diameter 74 to 149 .mu.m) were mixed to prepare a developer having a toner concentration of 40% by weight, and development was carried out. When developing,
The image carrier made of PC is uniformly charged to -650V, and exposed at a surface moving speed of 60 mm / sec.
Development was carried out by a developing roll having a 6-pole symmetrically magnetized permanent magnet member in a sleeve having a diameter of 20 mm.
Surface magnetic flux density on the sleeve 650G, sleeve rotation speed 1
A bias voltage of -550V was applied to the sleeve at 60 rpm. The doctor gap was 0.35 mm and the development gap was 0.30 mm. The developed toner image was transferred onto recording paper and fixed with a heat roll at 180 ° C. and a linear pressure of 1 kg / cm. The developing atmosphere was 30 ° C. and 80% RH.
【0030】上記現像を連続して実施したところ,比較
例のものを使用した場合には,複写枚数が2万枚の時点
において画像濃度が当初の1.40から1.15に低下し,画質
が大幅に劣化することが認められた。これに対して,本
実施例のものを使用した場合には,複写枚数が2万枚の
時点においても,画像濃度が当初の1.41から若干低下し
たに留まる1.36を維持し,画質を高水準に保つことがで
きた。なお現像剤の流動性は極めて良好であり,磁性ト
ナーの凝集現象の発生は認められなかった。When the above development was continuously carried out, when the comparative example was used, the image density dropped from the initial 1.40 to 1.15 at the time when the number of copies was 20,000, and the image quality deteriorated significantly. Was approved. On the other hand, when the image forming apparatus of the present embodiment is used, even when the number of copies is 20,000, the image density is maintained at 1.36 which is slightly decreased from the initial 1.41 and the image quality is kept at a high level. I was able to keep it. The fluidity of the developer was very good, and no aggregation phenomenon of the magnetic toner was observed.
【0031】本実施例においては,磁性トナーが負帯電
性を有する場合について記述したが,正帯電性の磁性ト
ナーにおいて,正帯電特性を有する微粒子を強く固定
し,負帯電特性を有する微粒子を弱く固定した構成の磁
性トナーについても作用は同様である。In this embodiment, the case where the magnetic toner has a negative charging property has been described, but in the positive charging magnetic toner, fine particles having a positive charging characteristic are strongly fixed and particles having a negative charging characteristic are weak. The operation is the same for the magnetic toner having a fixed structure.
【0032】[0032]
【発明の効果】本発明は,以上記述のような構成および
作用であるから,摩擦帯電量が安定であり,かつ高湿環
境において使用しても,耐湿性が大であるため,長時間
連続複写が可能であると共に,高品質の画像が得られる
という効果がある。EFFECTS OF THE INVENTION The present invention, which has the structure and operation as described above, has a stable triboelectric charge amount and has a large humidity resistance even when used in a high humidity environment. There is an effect that copying is possible and a high quality image is obtained.
Claims (1)
キャリアと混合して二成分系現像剤を構成する静電荷像
用磁性トナーにおいて,表面に磁性トナーと同極性の帯
電特性を有する微粒子を強く固定すると共に,磁性トナ
ーと逆極性の帯電特性を有する微粒子を弱く固定したこ
とを特徴とする静電荷像用磁性トナー。1. A magnetic toner for an electrostatic charge image, which comprises a binder resin and magnetic powder as main components and is mixed with a magnetic carrier to form a two-component developer, and has a charging property of the same polarity as that of the magnetic toner on the surface. A magnetic toner for an electrostatic charge image, characterized in that fine particles are strongly fixed, and fine particles having a charging characteristic of a polarity opposite to that of the magnetic toner are weakly fixed.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4235053A JPH0683103A (en) | 1992-09-03 | 1992-09-03 | Magnetic toner for electrostatic charge image |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4235053A JPH0683103A (en) | 1992-09-03 | 1992-09-03 | Magnetic toner for electrostatic charge image |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0683103A true JPH0683103A (en) | 1994-03-25 |
Family
ID=16980393
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP4235053A Pending JPH0683103A (en) | 1992-09-03 | 1992-09-03 | Magnetic toner for electrostatic charge image |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0683103A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2001109185A (en) * | 1999-10-08 | 2001-04-20 | Mitsubishi Chemicals Corp | Electrostatic charge image developing toner |
| EP1832939A2 (en) * | 2006-03-06 | 2007-09-12 | Konica Minolta Business Technologies, Inc. | Development apparatus, image forming apparatus and development method using mixed-in opposite polarity particles |
| EP1862869A2 (en) * | 2006-05-31 | 2007-12-05 | Konica Minolta Business Technologies, Inc. | Image forming apparatus |
-
1992
- 1992-09-03 JP JP4235053A patent/JPH0683103A/en active Pending
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2001109185A (en) * | 1999-10-08 | 2001-04-20 | Mitsubishi Chemicals Corp | Electrostatic charge image developing toner |
| EP1832939A2 (en) * | 2006-03-06 | 2007-09-12 | Konica Minolta Business Technologies, Inc. | Development apparatus, image forming apparatus and development method using mixed-in opposite polarity particles |
| EP1832939A3 (en) * | 2006-03-06 | 2013-08-07 | Konica Minolta Business Technologies, Inc. | Development apparatus, image forming apparatus and development method using mixed-in opposite polarity particles |
| EP1862869A2 (en) * | 2006-05-31 | 2007-12-05 | Konica Minolta Business Technologies, Inc. | Image forming apparatus |
| EP1862869A3 (en) * | 2006-05-31 | 2010-09-22 | Konica Minolta Business Technologies, Inc. | Image forming apparatus |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JP2682220B2 (en) | Developer for electrostatic image | |
| JPH02211456A (en) | Electrostatically charged image developing method | |
| JPH0683103A (en) | Magnetic toner for electrostatic charge image | |
| JP3189298B2 (en) | Dry toner manufacturing method | |
| JPH06332232A (en) | Electrophotographic toner | |
| JPH081521B2 (en) | Toner for electrostatic charge development | |
| JP3025694B2 (en) | Electrophotographic developer and manufacturing method thereof | |
| JPH05257316A (en) | Developer for electrostatic charge image | |
| JP2876877B2 (en) | Toner for developing electrostatic images | |
| JPS638750A (en) | Magnetic toner | |
| JP3104315B2 (en) | Method of manufacturing toner for heat fixing | |
| JPH08334932A (en) | Two-component developer | |
| JP2626838B2 (en) | Electrophotographic developer | |
| JP2855852B2 (en) | Electrophotography | |
| JP2870833B2 (en) | Electrophotographic developer | |
| JPH06332233A (en) | Electrophotographic toner | |
| JPH0683102A (en) | Electrstatic charge image developer | |
| JPS63257764A (en) | Magnetic toner | |
| JP2004053643A (en) | Electrophotographic developer, carrier for electrophotographic developer, and method for manufacturing the carrier | |
| JPH06236077A (en) | Magnetic developer | |
| JPH06148946A (en) | Magnetic particle | |
| JPS6313056A (en) | Developer for electrostatic development | |
| JPH0424646A (en) | Electrostatic latent image developing toner | |
| JPS6177868A (en) | Developing method of electrostatic latent image | |
| JP2002287419A (en) | Magnetic monocomponent developer |