JPH06110314A - Image forming device - Google Patents
Image forming deviceInfo
- Publication number
- JPH06110314A JPH06110314A JP4258169A JP25816992A JPH06110314A JP H06110314 A JPH06110314 A JP H06110314A JP 4258169 A JP4258169 A JP 4258169A JP 25816992 A JP25816992 A JP 25816992A JP H06110314 A JPH06110314 A JP H06110314A
- Authority
- JP
- Japan
- Prior art keywords
- developer
- latent image
- magnetic
- image holding
- holding member
- 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.)
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- Dry Development In Electrophotography (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、プリンタ、複写機、フ
ァクシミリ等に利用できる画像形成装置に関するもので
ある。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus applicable to printers, copying machines, facsimiles and the like.
【0002】[0002]
【従来の技術】以前から、画像形成方法としては、カス
ケード現像方法、タッチダウン現像方法、ジャンピング
現像方法などがある。2. Description of the Related Art Conventionally, as image forming methods, there are a cascade developing method, a touchdown developing method, a jumping developing method and the like.
【0003】これらには何れも、画像の再現性や鮮明度
の向上を目的として種々の改良が加えられている。Various improvements have been added to all of these for the purpose of improving the reproducibility and sharpness of images.
【0004】そして、以前から、現像剤を担持して供給
する現像剤供給部材(以下、現像剤担持体という。)を
潜像保持体に対向して一定間隔を隔てて配置し、この現
像剤担持体と潜像保持体間に適当な現像バイアス電圧を
印加して、現像を行っているが、その改良方法として、
特公昭63−42256号公報に示されるように、直流
バイアスに交流バイアスを重畳したACジャンピング現
像方法が実用化されている。A developer supplying member (hereinafter, referred to as a developer carrying member) for carrying and supplying a developer has been arranged facing the latent image holding body at a constant interval. Development is carried out by applying an appropriate developing bias voltage between the carrier and the latent image carrier.
As shown in Japanese Patent Publication No. 63-42256, an AC jumping developing method in which an AC bias is superimposed on a DC bias has been put into practical use.
【0005】この従来例のACジャンピング現像方法で
は、現像剤担持体と潜像保持体間に印加した現像バイア
スの前記交流分によって、現像剤担持体と潜像保持体と
が対向した現像部に交流電界を形成し、この交流電界に
よって、現像剤担持体上に担持されていた現像剤が、現
像剤担持体と潜像保持体間で往復運動し、この往復運動
で、静電潜像の画像部分に、順次、付着して、静電潜像
の画像部分を精密に現像しようとしている。In this conventional AC jumping developing method, due to the alternating current component of the developing bias applied between the developer carrying member and the latent image holding member, the developer carrying member and the latent image holding member are opposed to each other in the developing section. An AC electric field is formed, and by this AC electric field, the developer carried on the developer carrying body reciprocates between the developer carrying body and the latent image holding body, and by this reciprocating movement, the electrostatic latent image The image portion of the electrostatic latent image is attempted to be precisely developed by sequentially adhering to the image portion.
【0006】[0006]
【発明が解決しようとする課題】しかし、従来例のAC
ジャンピング現像方法では、現像剤担持体を使用し、現
像剤担持体上に現像剤層を作り、現像剤担持体上で現像
剤を帯電し、この帯電した現像剤層からACジャンピン
グで現像剤を潜像保持体に移動させているので、均一な
帯電を行うためには現像剤層の厚さが均一であることが
必要であり、潜像保持体表面上の画像部分の明暗に対応
する電位変化に合わせて正確に現像剤を移動させるため
にも現像剤層の厚さが均一であることが必要なので、忠
実な現像を行うためには、現像剤担持体上に極めて均一
な現像剤層を形成することが不可欠になり、これを達成
するための処理や精密制御機構が必要であるという問題
点がある。However, the conventional AC
In the jumping developing method, a developer carrier is used, a developer layer is formed on the developer carrier, the developer is charged on the developer carrier, and the developer is charged from this charged developer layer by AC jumping. Since it is moved to the latent image carrier, it is necessary that the thickness of the developer layer is uniform in order to perform uniform charging, and the potential corresponding to the light and darkness of the image portion on the surface of the latent image carrier. The thickness of the developer layer is required to be uniform in order to move the developer accurately in accordance with the change. Therefore, in order to perform faithful development, an extremely uniform developer layer on the developer carrier. However, there is a problem in that it is indispensable to form the structure, and a process and a precise control mechanism are necessary to achieve this.
【0007】又、現像剤担持体を使用している従来例の
ACジャンピング現像方法では、図6に示すように、現
像剤担持体101上において、前回の現像で現像剤が、
例えばベタ画像に対して、現像剤層103から潜像保持
体102側に移動して生じた現像剤層103の穴部分1
06は、現像剤層103上に現像剤を再付着させる場合
に、この再付着が現像剤100をブレード107で層状
に付着させる機構なので、穴部分106を完全に埋める
ように穴部分106にだけ現像剤を多量に再付着するこ
とができず、現像剤層103を再付着した後にも履歴穴
104として残り、履歴穴104部分で現像剤層厚が薄
くなり、この薄くなった部分から現像剤の移動を受けた
画像部分の現像剤量が不足し、不足部分105が発生
し、今回の画像に、この不足部分105が前回の画像の
残像として現れるスリーブゴースト現象という問題点が
ある。Further, in the conventional AC jumping developing method using the developer carrying member, as shown in FIG.
For example, with respect to a solid image, the hole portion 1 of the developer layer 103 generated by moving from the developer layer 103 to the latent image holding member 102 side.
06 is a mechanism for, when re-attaching the developer on the developer layer 103, this re-attachment causes the developer 100 to be attached in a layered manner by the blade 107, so that only the hole portion 106 is completely filled with the hole portion 106. A large amount of the developer cannot be reattached, and even after the developer layer 103 is reattached, it remains as a hysteresis hole 104, and the developer layer thickness becomes thin at the hysteresis hole 104 portion. There is a problem of a sleeve ghost phenomenon in which the amount of the developer in the image portion that has undergone the movement becomes insufficient, the insufficient portion 105 occurs, and the insufficient portion 105 appears as an afterimage of the previous image in the current image.
【0008】又、現像剤担持体は導電性であるので、現
像剤担持体に担持されて搬送される現像剤の帯電電荷
は、現像剤担持体による搬送過程で現像剤担持体を通し
てリークし易い。Further, since the developer carrying member is electrically conductive, the charged electric charge of the developer carried on the developer carrying member and conveyed easily leaks through the developer carrying member during the carrying process by the developer carrying member. .
【0009】現像剤はこのようなリークにより帯電電荷
を失い、現像に供される段階で現像剤の帯電電荷が不足
したり、帯電電荷が不均一になったりするので、バイア
ス電圧による現像が設定通りに達成されず、現像性能が
低下する。The developer loses its charge due to such a leak, and the charge of the developer becomes insufficient at the stage of being used for development, or the charge becomes nonuniform, so that the development by the bias voltage is set. As a result, the developing performance is deteriorated.
【0010】この帯電電荷のリークは、環境湿度が高く
なる程、顕著になり、現像剤担持体上での帯電は、現像
性能が環境に大きく影響され、安定性に欠ける。The leakage of the charged electric charges becomes more remarkable as the environmental humidity becomes higher, and the charging performance on the developer carrying member is greatly affected by the environment and the stability is lacking.
【0011】更に、潜像保持体への現像剤担持体による
現像剤の供給と現像作用は、現像剤担持体が潜像保持体
に対向する極く僅かな時間に限られるので、現像効率が
悪く、最近の高速化に対応し難い。Further, the supply of the developer to the latent image carrier and the developing action by the developer carrier are limited to a very short time when the developer carrier faces the latent image carrier, so that the developing efficiency is improved. It is bad, and it is difficult to cope with the recent speedup.
【0012】本発明は、上記の問題点を解決し、構造が
簡単で、小型で、精密な高画質の画像が得られる画像形
成装置とを提供することを課題としている。SUMMARY OF THE INVENTION It is an object of the present invention to provide an image forming apparatus which solves the above-mentioned problems, has a simple structure, is small in size, and is capable of obtaining a high quality image with high precision.
【0013】[0013]
【課題を解決するための手段】本発明の画像形成装置
は、上記の課題を解決するために、表面に静電潜像を保
持して移動する潜像保持体と、前記潜像保持体表面の静
電潜像全面に現像剤を直接供給する現像剤供給手段と、
前記潜像保持体表面に所定間隙を隔てて対向して配され
前記潜像保持体表面に随伴して搬送される現像剤がこの
所定間隙に搬入される側の前記所定間隙の間隙が搬出さ
れる側の前記所定間隙の間隙よりも広い帯電部材と、こ
の帯電部材と前記潜像保持体間に交番電界を形成し、こ
の帯電部材と前記潜像保持体間を通過する現像剤を前記
潜像保持体の表面上で帯電する電界電源と、前記潜像保
持体の表面の前記静電潜像の非画像部分に付着している
現像剤を回収する現像剤回収手段とを有することを特徴
とする。In order to solve the above-mentioned problems, an image forming apparatus of the present invention includes a latent image carrier that holds and moves an electrostatic latent image on the surface, and the surface of the latent image carrier. Developer supplying means for directly supplying the developer to the entire electrostatic latent image of
The developer, which is disposed so as to face the surface of the latent image carrier with a predetermined gap therebetween and is conveyed along with the surface of the latent image carrier, is carried out into the predetermined gap. The charging member that is wider than the predetermined gap on the charging side and an alternating electric field is formed between the charging member and the latent image carrier, and the developer that passes between the charging member and the latent image carrier is transferred to the latent image carrier. It has an electric field power source charged on the surface of the image carrier, and a developer collecting means for collecting the developer adhering to the non-image portion of the electrostatic latent image on the surface of the latent image carrier. And
【0014】又、本発明の画像形成装置は、上記の課題
を解決するために、帯電部材は、帯電部材と潜像保持体
間の所定間隙の間隙が、現像剤搬入側から搬出側に向か
って徐々に変化する形状を有することが好適である。In order to solve the above-mentioned problems, the image forming apparatus of the present invention has a charging member in which a predetermined gap between the charging member and the latent image holding member extends from the developer carrying-in side to the carrying-out side. It is preferable to have a gradually changing shape.
【0015】[0015]
【作用】本発明の画像形成装置は、潜像保持体表面の静
電潜像全面に現像剤を供給し、この現像剤を潜像保持体
の表面上で帯電し、最後に、静電潜像全面に供給した現
像剤から非画像部分に付着している現像剤を回収するこ
とに特徴があり、次の作用を有する。The image forming apparatus of the present invention supplies a developer to the entire surface of the electrostatic latent image on the surface of the latent image carrier, charges the developer on the surface of the latent image carrier, and finally, the electrostatic latent image. It is characterized in that the developer attached to the non-image portion is recovered from the developer supplied to the entire surface of the image, and has the following action.
【0016】現像剤供給手段は、潜像保持体表面の静電
潜像全面に、現像剤を現像剤溜から直接供給する。この
供給は静電潜像全面に対して多量の現像剤を供給するの
で、特に供給量を制御しないでも、現像剤の供給ムラや
供給不足を解消するに充分な量の現像剤を潜像保持体表
面の静電潜像全面に供給し載せる作用がある。The developer supplying means supplies the developer directly from the developer reservoir to the entire surface of the electrostatic latent image on the surface of the latent image holding member. Since this supply supplies a large amount of developer to the entire surface of the electrostatic latent image, even if the supply amount is not particularly controlled, a sufficient amount of developer can be retained to eliminate uneven developer supply or insufficient supply. It has the effect of supplying and placing the entire electrostatic latent image on the body surface.
【0017】このようにして、潜像保持体に充分な現像
剤をのせた後、帯電部材と電界電源とが潜像保持体上の
現像剤を潜像保持体上で帯電し、最後に、潜像保持体表
面の静電潜像の非画像部分に付着した現像剤を回収して
いるので、現像剤を潜像保持体表面にのせてから潜像保
持体表面の静電潜像の非画像部分に付着した現像剤を回
収するまでの長い時間、現像剤を静電潜像に接触させる
ことになり、静電潜像の面積が大きなベタ画像や電界の
回り込みにより現像剤が付着し難い微細な細線画像に対
しても、現像剤をのせて帯電することの効果により、静
電潜像を忠実に現像し、非画像部分のみの現像剤を回収
できる。In this way, after a sufficient amount of developer has been placed on the latent image carrier, the charging member and the electric field power source charge the developer on the latent image carrier on the latent image carrier, and finally, Since the developer adhering to the non-image portion of the electrostatic latent image on the surface of the latent image carrier is collected, after the developer is placed on the surface of the latent image carrier, the electrostatic latent image on the surface of the latent image carrier is not The developer is brought into contact with the electrostatic latent image for a long time until the developer attached to the image portion is collected, and the developer is hard to attach due to a solid image with a large area of the electrostatic latent image or the wraparound of the electric field. Even for fine fine line images, the electrostatic latent image can be faithfully developed and the developer only in the non-image portion can be collected by the effect of charging with the developer.
【0018】帯電部材と電界電源とは、未帯電又は若干
帯電した現像剤を絶縁性が高い潜像保持体の表面上で、
規定量の電荷まで帯電させることと、現像剤の電荷がリ
ークし難く帯電効率が良いことと、帯電した現像剤がす
ぐに潜像保持体の表面上にある静電潜像の現像に作用し
て帯電電荷の現像効率が良いこととによって、高温・高
湿で現像剤の電荷がリークし易い雰囲気であっても、リ
ークの影響が極めて少なく、帯電した規定量の帯電電荷
の効果が確実に現像に作用し、高解像度の現像と転写の
安定化が可能になる。The charging member and the electric field power supply are provided on the surface of the latent image holding member having a high insulating property for the uncharged or slightly charged developer.
Charge to a specified amount of charge, that the charge of the developer does not easily leak and the charging efficiency is good, and the charged developer immediately acts on the development of the electrostatic latent image on the surface of the latent image carrier. The high development efficiency of the charged charge ensures that the effect of the specified amount of charged charge is very small, even in an environment where the charge of the developer easily leaks at high temperature and high humidity. It acts on development and enables high-resolution development and stabilization of transfer.
【0019】そして、振動によって帯電すると、潜像保
持体の表面上にある静電潜像を乱さずに現像剤を帯電す
ることができ、帯電の際の現像剤の振動によって現像剤
が飛散しても、現像剤溜の中なので、外部に漏れること
はない。When the toner is charged by vibration, the developer can be charged without disturbing the electrostatic latent image on the surface of the latent image holding member, and the developer is scattered by the vibration of the developer during charging. However, since it is in the developer reservoir, it does not leak outside.
【0020】又、振動によって、現像剤の凝集体が分散
されるだけではなく、現像剤が潜像保持体の表面上で移
動して、その量が潜像保持体の表面上で均一分布化さ
れ、且つ、帯電した現像剤が、長時間、潜像保持体の表
面の静電潜像に接触するので、静電潜像に忠実な優れた
画像が得られる。Further, the vibration not only disperses the agglomerates of the developer, but also causes the developer to move on the surface of the latent image holding member so that the amount thereof is uniformly distributed on the surface of the latent image holding member. Since the charged developer contacts the electrostatic latent image on the surface of the latent image carrier for a long time, an excellent image faithful to the electrostatic latent image can be obtained.
【0021】更に、帯電部材と潜像保持体間の所定間隙
を、現像剤がこの所定間隙に搬入される側の間隙が搬出
される側の間隙よりも広くなるようにすると、所定間隙
内の現像剤空間密度が、搬入側より搬出側で大きくなり
現像剤の帯電効率が向上する。即ち、搬入側では、未だ
帯電量が少ないので現像剤の運動が不活発で、現像剤空
間密度が大きいと現像剤が運動しなくなるので、間隙を
広くして運動し易くして帯電効率を向上させる。搬出側
では、現像剤は或る程度帯電し運動が活発なので、間隙
を狭くして、現像剤と帯電部材及び潜像保持体との接触
機会、現像剤同志の接触機会を多くして帯電効率を向上
する作用が得られる。帯電効率が向上すると、帯電量が
安定して多くなり、静電潜像に忠実な画像が得られる。Further, if the predetermined gap between the charging member and the latent image holding member is set to be wider than the gap on the side where the developer is carried into the predetermined gap, the inside of the predetermined gap is maintained. The space density of the developer is larger on the carry-out side than on the carry-in side, and the charging efficiency of the developer is improved. That is, on the carry-in side, since the amount of charge is still small, the movement of the developer is inactive, and when the space density of the developer is large, the developer does not move. Therefore, the gap is widened to facilitate movement, and the charging efficiency is improved. Let On the carry-out side, the developer is charged to some extent and is actively moving. Therefore, the gap is narrowed to increase the contact opportunity between the developer and the charging member and the latent image carrier, and the contact opportunity between the developers to increase the charging efficiency. Can be obtained. When the charging efficiency is improved, the amount of charge is stably increased and an image faithful to the electrostatic latent image can be obtained.
【0022】現像剤回収手段は、潜像保持体表面の静電
潜像全面に供給されてその非画像部分に付着している現
像剤を回収する。The developer collecting means collects the developer which is supplied to the entire surface of the electrostatic latent image on the surface of the latent image holding member and adheres to the non-image portion.
【0023】又、本発明の画像形成装置は、帯電部材
が、帯電部材と潜像保持体間の所定間隙の間隙を、現像
剤搬入側から搬出側に向かって徐々に狭くする形状を有
するので、現像剤が帯電して帯電量が増加していくのに
合わせて、所定間隙内の現像剤の空間密度が現像剤搬入
側から搬出側に向かって徐々に大きくなり、夫々の位置
で、適切な間隙の広さと現像剤の空間密度とが得られ、
現像剤の前記運動と帯電のための前記接触とが効率良く
行われ、帯電効率が向上する。Further, in the image forming apparatus of the present invention, the charging member has a shape in which the predetermined gap between the charging member and the latent image carrier is gradually narrowed from the developer carrying-in side to the carrying-out side. , As the developer is charged and the amount of charge increases, the space density of the developer in the predetermined gap gradually increases from the developer carry-in side to the carry-out side. A wide gap and a space density of the developer are obtained,
The movement of the developer and the contact for charging are efficiently performed, and the charging efficiency is improved.
【0024】[0024]
【実施例】先ず、本発明の画像形成装置の基本的な構成
を図2に基づいて説明する。DESCRIPTION OF THE PREFERRED EMBODIMENTS First, the basic structure of the image forming apparatus of the present invention will be described with reference to FIG.
【0025】図2において、本装置の現像剤供給工程
で、現像剤溜10′内の磁性現像剤10を、第1磁界形
成手段2が形成する磁界の吸引力によって、静電潜像を
保持して移動する潜像保持体1の表面の静電潜像全面
に、直接供給する。供給された磁性現像剤10は、第1
磁界形成手段2が形成する磁界の吸引力によって潜像保
持体1の表面の静電潜像全面に吸引拘束保持された状態
で移動する。この供給方法によると、現像に必要な量の
現像剤を確実に静電潜像全面に供給することができ、従
来技術で現像剤供給量の不足が原因になっている現像不
良を解消できる。In FIG. 2, the electrostatic latent image is held on the magnetic developer 10 in the developer reservoir 10 'by the attraction force of the magnetic field formed by the first magnetic field forming means 2 in the developer supplying step of this apparatus. It is directly supplied to the entire surface of the electrostatic latent image on the surface of the latent image holder 1 that is moving. The supplied magnetic developer 10 is the first
Due to the attraction force of the magnetic field formed by the magnetic field forming means 2, the latent image holder 1 moves in a state of being attracted and restrained on the entire surface of the electrostatic latent image. According to this supply method, the amount of developer required for development can be reliably supplied to the entire surface of the electrostatic latent image, and the defective development caused by the shortage of the developer supply amount in the conventional technique can be eliminated.
【0026】帯電工程で、前記潜像保持体1に所定間隙
を隔てて配された帯電部材5があり、この帯電部材5と
前記潜像保持体1間に第2電界電源6が直流電界と交流
電界とを形成し、潜像保持体1の表面の静電潜像全面に
供給されて第1磁界形成手段2が形成する磁界の吸引力
によって吸引拘束保持された状態の磁性現像材10が、
前記所定間隙に搬入され、交流電界で振動されて帯電
し、直流電界によって、潜像保持体1の表面の静電潜像
全面に拘束保持される。この帯電工程では、絶縁性が高
い潜像保持体1の表面で帯電するので帯電した電荷のリ
ークが少ないことと、帯電した磁性現像剤10の電荷が
潜像保持体1の表面の静電潜像にすぐに作用することと
によって、帯電した電荷の現像効率が良く、又、帯電の
際の磁性現像剤の振動によって、磁性現像剤の静電潜像
上の分布が均一化され、且つ、帯電した磁性現像剤10
が現像剤の回収まで連続して潜像保持体1の表面の静電
潜像に接触しているので、極めて細い細線の細線画像で
も、カブリや現像不足なしに、忠実に現像できる。In the charging step, there is a charging member 5 arranged on the latent image carrier 1 with a predetermined gap, and the second electric field power source 6 generates a DC electric field between the charging member 5 and the latent image carrier 1. An AC electric field is formed, and the magnetic developer 10 is supplied to the entire surface of the electrostatic latent image on the surface of the latent image holder 1 and is attracted and held by the attraction force of the magnetic field formed by the first magnetic field forming means 2. ,
The electrostatic latent image is carried into the predetermined gap, vibrated by an AC electric field and charged, and is held by the DC electric field on the entire surface of the electrostatic latent image on the surface of the latent image holder 1. In this charging step, since the surface of the latent image carrier 1 having a high insulating property is charged, the leakage of the charged electric charge is small, and the electric charge of the charged magnetic developer 10 causes the electrostatic latent image on the surface of the latent image carrier 1. By acting on the image immediately, the development efficiency of the charged electric charge is good, and the vibration of the magnetic developer during charging makes the distribution of the magnetic developer on the electrostatic latent image uniform, and Charged magnetic developer 10
Is continuously in contact with the electrostatic latent image on the surface of the latent image holding member 1 until the developer is collected, so that even a fine line image of extremely fine line can be faithfully developed without fog or insufficient development.
【0027】現像剤回収工程で、前記潜像保持体1に所
定間隙を隔てて配された現像剤回収部材7があり、この
現像剤回収部材7と前記潜像保持体1間に第3電界電源
8が直流回収バイアスと交流回収バイアスとを形成し、
第2磁界形成手段9が磁界を形成し、これらの回収バイ
アスと磁界との吸引力によって、潜像保持体1の表面の
静電潜像の非画像部分に付着している現像剤を回収す
る。In the developer collecting step, there is a developer collecting member 7 arranged on the latent image holding body 1 with a predetermined gap, and a third electric field is provided between the developer collecting member 7 and the latent image holding body 1. The power supply 8 forms a DC recovery bias and an AC recovery bias,
The second magnetic field forming unit 9 forms a magnetic field, and the attracting force of these collecting bias and magnetic field collects the developer adhering to the non-image portion of the electrostatic latent image on the surface of the latent image carrier 1. .
【0028】次に、図2の基本的な構成例を更に具体化
した本発明の画像形成装置の1実施例の構成を図1に基
づいて説明する。図1は、図2と同一構成部分には同一
番号をつけている。Next, the construction of one embodiment of the image forming apparatus of the present invention which further embodies the basic construction example of FIG. 2 will be explained based on FIG. In FIG. 1, the same components as those in FIG. 2 are given the same numbers.
【0029】図1において、本実施例の画像形成装置
は、潜像保持体1が、固定磁石で構成される第1磁界形
成手段2を内包し、静電潜像形成用光学系19によって
形成さた静電潜像を保持して移動している。この潜像保
持体1と約350μmの対向間隙を隔てて対向した現像
剤回収部材7が固定磁石で構成され前記第1磁界形成手
段2に対向する第2磁界形成手段9を内包して前記潜像
保持体1と同方向に回転している。この現像剤回収部材
7には、現像剤回収部材7と前記潜像保持体1間に直流
回収バイアスと交流回収バイアスとを形成する第3電界
電源8が接続され、この第3電界電源8は交流電源と直
流電源との組合せで構成される。前記潜像保持体1と前
記現像剤回収部材7との近接部の前記潜像保持体1側か
ら見た上流側の前記潜像保持体1の表面に現像剤10を
直接供給するために、現像剤ポット10′を、内部の現
像剤10が前記近接部に現像剤溜11を形成するように
取り付けられ、現像剤ポット10′と前記現像剤回収部
材7との間には、前記現像剤回収部材7上の現像剤10
をかき落とすスクレーパー13が設けられ、現像剤ポッ
ト10′と前記潜像保持体1との間には、現像剤10が
漏れ出すのを防止するシール12が設けられている。Referring to FIG. 1, in the image forming apparatus of this embodiment, the latent image holder 1 includes the first magnetic field forming means 2 composed of a fixed magnet and is formed by the electrostatic latent image forming optical system 19. It moves while holding the electrostatic latent image. The developer collecting member 7 facing the latent image carrier 1 with a facing gap of about 350 μm formed of a fixed magnet and including the second magnetic field forming means 9 facing the first magnetic field forming means 2 includes the latent image holding means 9. It rotates in the same direction as the image carrier 1. A third electric field power source 8 that forms a direct current recovery bias and an alternating current recovery bias between the developer recovery member 7 and the latent image holding member 1 is connected to the developer recovery member 7. It is composed of a combination of an AC power supply and a DC power supply. In order to directly supply the developer 10 to the surface of the latent image holding member 1 on the upstream side as viewed from the latent image holding member 1 side in the vicinity of the latent image holding member 1 and the developer collecting member 7, The developer pot 10 ′ is attached so that the developer 10 inside forms a developer reservoir 11 in the vicinity, and the developer pot 10 ′ and the developer collecting member 7 are provided with the developer pot 10 ′. Developer 10 on collecting member 7
A scraper 13 for scraping off the developer is provided, and a seal 12 for preventing the developer 10 from leaking is provided between the developer pot 10 ′ and the latent image carrier 1.
【0030】前記現像剤溜11の中には、前記近接部近
くの前記潜像保持体1の表面に所定間隙を隔てて対向す
る帯電部材5が設けられ、この帯電部材5には、前記潜
像保持体1と前記帯電部材5間に直流電界と交番電界と
を形成する第2電界電源6が接続され、この第2電界電
源6は交流電源と直流電源との組合せで構成される。In the developer reservoir 11, there is provided a charging member 5 facing the surface of the latent image carrier 1 near the proximity portion with a predetermined gap, and the charging member 5 has the latent member. A second electric field power source 6 for forming a DC electric field and an alternating electric field is connected between the image carrier 1 and the charging member 5, and the second electric field power source 6 is composed of a combination of an AC power source and a DC power source.
【0031】そして、帯電部材5と潜像保持体1間の所
定間隙を、図5に示すように、現像剤10がこの帯電部
材5と潜像保持体1間の所定間隙に搬入される側の間隙
を搬出される側の間隙よりも広くしている。このように
すると、所定間隙内の現像剤空間密度が、搬入側より搬
出側で大きくなり現像剤10の帯電効率が向上する。The predetermined gap between the charging member 5 and the latent image holding member 1 is fed to the predetermined gap between the charging member 5 and the latent image holding member 1 as shown in FIG. The gap is wider than the gap on the side to be carried out. By doing so, the space density of the developer in the predetermined gap is larger on the carry-out side than on the carry-in side, and the charging efficiency of the developer 10 is improved.
【0032】即ち、搬入側では、未だ帯電量が少ないの
で現像剤10の運動が不活発で、現像剤空間密度が大き
いと現像剤10が運動しなくなるので、間隙を広くして
運動し易くして帯電効率を向上させる。搬出側では、現
像剤10は或る程度帯電し運動が活発なので、間隙を狭
くして、現像剤10と帯電部材5及び潜像保持体1との
接触機会、現像剤10同志の接触機会を多くして帯電効
率を向上する作用が得られる。帯電効率が向上すると、
帯電量が安定して多くなり、静電潜像に忠実な画像が得
られる。又、帯電部材5を、帯電部材5と潜像保持体1
間の所定間隙の間隙が、現像剤搬入側から搬出側に向か
って徐々に変化する形状にすると、急激な変化が無いの
で、上記の帯電効率向上のより確実に安定して行われ
る。That is, on the carry-in side, since the charge amount is still small, the movement of the developer 10 is inactive. If the space density of the developer is large, the developer 10 does not move. Therefore, the gap is widened to facilitate the movement. Improve the charging efficiency. On the carry-out side, the developer 10 is charged to a certain extent and is actively moving. Therefore, the gap is narrowed to provide a contact opportunity between the developer 10 and the charging member 5 and the latent image holding member 1 and a contact opportunity between the developers 10. The effect of improving the charging efficiency can be obtained by increasing the number. When the charging efficiency is improved,
The amount of charge is stably increased and an image faithful to the electrostatic latent image can be obtained. Further, the charging member 5 is replaced with the charging member 5 and the latent image holding member 1.
If the gap between the developer carrying-in side and the carrying-out side is gradually changed, there is no abrupt change, so that the charging efficiency can be more reliably and stably improved.
【0033】又、前記現像剤溜11の中には、現像剤供
給用電極ローラ3が、前記潜像保持体1に対向して設け
られ、この現像剤供給用電極ローラ3には第3電界電源
4が接続されている。A developer supplying electrode roller 3 is provided in the developer reservoir 11 so as to face the latent image holding member 1. The developer supplying electrode roller 3 has a third electric field. The power supply 4 is connected.
【0034】紙14は、潜像保持体1上に現像された現
像剤を転写チャージャー15によって転写され、図示さ
れていない定着手段で紙14上に定着される。転写を終
えた潜像保持体1は、クリーナー16によって潜像保持
体1上に残留する現像剤を除去され、イレーサー17に
よって潜像保持体1上に残留する電位を除去された後
に、帯電チャージャーによって帯電され、静電潜像形成
用光学系19によって静電潜像を形成される。On the paper 14, the developer developed on the latent image carrier 1 is transferred by the transfer charger 15 and fixed on the paper 14 by a fixing means (not shown). After the transfer, the latent image holding member 1 is cleaned by the cleaner 16 to remove the developer remaining on the latent image holding member 1, and the eraser 17 removes the potential remaining on the latent image holding member 1. The electrostatic latent image is formed by the electrostatic latent image forming optical system 19.
【0035】次に、本実施例の動作を図1、図3、図4
に基づいて説明する。Next, the operation of this embodiment will be described with reference to FIGS.
It will be described based on.
【0036】図1において、先ず、静電潜像形成用光学
系19によって静電潜像を潜像保持体1の表面上に形成
する。この場合、画像部電位と非画像部電位とは、図4
に示すように、画像部電位は−100V、非画像部電位
は−500Vとする。In FIG. 1, first, an electrostatic latent image is formed on the surface of the latent image carrier 1 by the electrostatic latent image forming optical system 19. In this case, the image portion potential and the non-image portion potential are as shown in FIG.
As shown in, the image portion potential is -100V and the non-image portion potential is -500V.
【0037】現像剤ポット10′内の現像剤10を、潜
像保持体1と現像剤回収部材7との近接部の潜像保持体
1側から見た上流側の潜像保持体1の表面に直接供給し
て、前記近接部に現像剤溜11を形成する。この場合、
磁性現像剤10は、潜像保持体1が内包する第1磁界形
成手段2の磁界と、潜像保持体1に対向して回転してい
る現像剤供給用電極ローラ3に接続されている第1電界
電源4の電界とによって、潜像保持体1上に吸引供給さ
れ、現像剤溜11を形成している。The surface of the latent image holding member 1 on the upstream side of the developer 10 in the developer pot 10 'when viewed from the latent image holding member 1 side in the vicinity of the latent image holding member 1 and the developer collecting member 7. To form a developer reservoir 11 in the vicinity. in this case,
The magnetic developer 10 is connected to the magnetic field of the first magnetic field forming means 2 contained in the latent image carrier 1 and to the developer supplying electrode roller 3 rotating facing the latent image carrier 1. One electric field is applied to the latent image carrier 1 by the electric field of the electric power source 4 to form the developer reservoir 11.
【0038】現像剤溜11内の潜像保持体1の表面上
で、第2電界電源6によって、潜像保持体1と帯電部材
5間に交番電界を形成して磁性現像剤を振動させ、磁性
現像剤10を帯電部材5及び潜像保持体1の表面に衝突
させたり、磁性現像剤10同士を衝突させたりして−5
μC〜−10μC/gに帯電させる。現像剤の帯電量に
は、交流回収バイアスと帯電量による往復の飛翔力が、
帯電した電荷の鏡像力と分子間力とによる潜像保持体へ
の現像剤の付着力を上回り、往復運動が可能な範囲とし
て、−0.5μC/g〜−40μC/gの範囲がある
が、本実施例では−5μC〜−10μC/gに帯電す
る。この交番電界には直流電界を重畳することもある。
そして、図5に示すように、現像剤10が帯電部材5と
潜像保持体1間の所定間隙に搬入される側の間隙を搬出
される側の間隙よりも徐々に広くすると、上記のよう
に、帯電効率が良い。On the surface of the latent image carrier 1 in the developer reservoir 11, an alternating electric field is formed between the latent image carrier 1 and the charging member 5 by the second electric field power source 6 to vibrate the magnetic developer, The magnetic developer 10 may collide with the surfaces of the charging member 5 and the latent image carrier 1 or the magnetic developers 10 may collide with each other.
Charge to μC to −10 μC / g. The charge amount of the developer includes the AC recovery bias and the reciprocating flight force due to the charge amount.
There is a range of −0.5 μC / g to −40 μC / g as a range in which the developer can reciprocate beyond the adhesion of the developer to the latent image carrier due to the image force of the charged electric charge and the intermolecular force. In this embodiment, it is charged to −5 μC to −10 μC / g. A DC electric field may be superposed on this alternating electric field.
Then, as shown in FIG. 5, when the gap on the side where the developer 10 is carried into the predetermined gap between the charging member 5 and the latent image carrier 1 is gradually made wider than the gap on the side where it is carried out, as described above. In addition, the charging efficiency is good.
【0039】現像剤10が磁性の場合には、第1磁界形
成手段2と第2磁界形成手段9とが潜像保持体1と現像
剤回収部材7間に形成する磁束によって、図3に示すよ
うに、磁性現像剤10を潜像保持体1と現像剤回収部材
7との対向間隙に磁性現像剤穂10″として吸引して拘
束保持する。そして、この対向間隙では、潜像保持体1
の表面と現像剤回収部材7の表面とが反対方向に移動し
ているので、磁性現像剤10の随伴流21が形成され
る。前記の磁性現像剤穂10″部分の現像剤量は磁束密
度によって決まる量に維持される性質があるので、前記
随伴流21によって、磁性現像剤穂10″の潜像保持体
1側の部分が持ち去られても、持ち去られたと同量の現
像剤10が補給され、磁性現像剤穂10″部分には、常
に、一定量の現像剤10が存在し、現像のために磁性現
像剤穂10″から供給される現像剤量が所定量に安定す
る。そして、図4に示すような、直流電位−350V
に、ピーク・ツー・ピーク電圧1500Vの交番矩形電
位を重畳した交流回収バイアスによって、図3に示すよ
うに、磁性現像剤10を、潜像保持体1と現像剤回収部
材7間の対向間隙で往復運動22させる。この交流回収
バイアスの波形は、正弦波、三角波、矩形波等が使用で
きるが、矩形波が効率が良いので、矩形波を採用すると
良い。又、ピーク・ツー・ピーク電圧は、良好な画像が
得られ且つ放電が起こらない500V〜2000Vの範
囲を使用できる。又、周波数は、100Hz〜10kH
zの範囲が使用できるが、必要な往復回数が得られる5
00Hzから、現像剤10が往復運動22に充分追随で
きる3kHzまでが望ましい。そして、前記随伴流21
と前記往復運動22との相乗作用によって、磁性現像剤
10の循環流23が形成され、磁性現像剤10を対向間
隙で循環する滞留部が形成される。交流回収バイアス
は、対向間隙内で循環し滞留している滞留部の磁性現像
剤を往復運動22させるので、磁性現像剤10は繰り返
し往復運動22を行うことになり、未帯電の磁性現像剤
10が存在する場合でも、その未帯電の磁性現像剤10
が、帯電済の磁性現像剤10の往復運動22に伴って繰
り返し往復運動22し、相互摩擦及び現像剤回収部材7
との接触によって充分に帯電することができる。When the developer 10 is magnetic, it is shown in FIG. 3 by the magnetic flux formed between the latent image carrier 1 and the developer collecting member 7 by the first magnetic field forming means 2 and the second magnetic field forming means 9. In this way, the magnetic developer 10 is sucked and restrained as the magnetic developer ears 10 ″ in the facing gap between the latent image holding member 1 and the developer collecting member 7. In this facing gap, the latent image holding member 1 is held.
Since the surface of the magnetic developer 10 and the surface of the developer recovery member 7 are moving in the opposite directions, the accompanying flow 21 of the magnetic developer 10 is formed. Since the amount of the developer in the magnetic developer chain 10 ″ is maintained at an amount determined by the magnetic flux density, the accompanying flow 21 causes the portion of the magnetic developer chain 10 ″ on the latent image carrier 1 side to be retained. Even if it is carried away, the same amount of developer 10 as that carried away is replenished, and a certain amount of developer 10 is always present in the magnetic developer chain 10 ″, and the magnetic developer chain 10 ″ is used for development. The amount of developer supplied from is stabilized at a predetermined amount. Then, as shown in FIG. 4, a DC potential of −350 V
By the AC recovery bias in which the alternating rectangular potential of the peak-to-peak voltage of 1500 V is superposed on the magnetic developer 10, the magnetic developer 10 is discharged in the facing gap between the latent image carrier 1 and the developer recovery member 7 as shown in FIG. Reciprocate 22. As the waveform of this AC recovery bias, a sine wave, a triangular wave, a rectangular wave, or the like can be used, but a rectangular wave is preferable because a rectangular wave is efficient. Further, as the peak-to-peak voltage, it is possible to use a range of 500V to 2000V where a good image is obtained and no discharge occurs. Moreover, the frequency is 100 Hz to 10 kHz.
The z range can be used, but the required number of round trips is obtained 5
It is desirable that the frequency is from 00 Hz to 3 kHz where the developer 10 can sufficiently follow the reciprocating motion 22. Then, the accompanying flow 21
By the synergistic effect of the reciprocating motion 22 and the reciprocating motion 22, a circulating flow 23 of the magnetic developer 10 is formed, and a staying portion for circulating the magnetic developer 10 in the facing gap is formed. The AC recovery bias causes the magnetic developer in the staying portion that circulates and stays in the facing gap to reciprocate 22, so that the magnetic developer 10 repeatedly performs reciprocating motion 22, and the uncharged magnetic developer 10 Uncharged magnetic developer 10 even in the presence of
Reciprocally move 22 with the reciprocating motion 22 of the charged magnetic developer 10 to cause mutual friction and the developer collecting member 7.
It can be sufficiently charged by contact with.
【0040】又、磁性現像剤10の上記の往復運動22
の繰り返しによって、磁性現像剤10は粒子が一つ一つ
に分散して活発に運動し、たとえ未帯電で静電潜像の非
画像部分に付着し電気的回収力が働かない磁性現像剤1
0があったとしても、これを弾き飛ばしてカブリを無く
する。Further, the reciprocating motion 22 of the magnetic developer 10 is performed.
By repeating the above, the magnetic developer 10 is dispersed in particles one by one and actively moves, and even if the magnetic developer 1 is not charged and adheres to the non-image portion of the electrostatic latent image, the electric recovery force does not work.
Even if there is 0, flip it to eliminate fog.
【0041】又、交流回収バイアスによる磁性現像剤1
0の往復運動22は、図4に示すように、画像部分にお
いて、ピーク・ツー・ピーク電圧1500Vの交番矩形
電位の負側のピークである−1100Vでは磁性現像剤
10の画像部分への往路は1000Vの電位差で飛翔
し、交番矩形電位の正側のピークである400Vでは磁
性現像剤10の画像部分からの復路は500Vの電位差
で飛翔するので、一往復でこれらの電位差の差分だけ、
磁性現像剤10は画像部分に移動して作像が進み、非画
像部分において、ピーク・ツー・ピーク電圧1500V
の交番矩形電位の負側のピークである−1100Vでは
磁性現像剤10の非画像部分への往路は600Vの電位
差で飛翔し、交番矩形電位の正側のピークである400
Vでは磁性現像剤10の非画像部分からの復路は900
Vの電位差で飛翔するので、一往復でこれらの電位差の
差分だけ、磁性現像剤10は非画像部分から回収される
が、前記の弾き飛ばし作用との相乗作用で、繊細な画像
でもカブリなく正確に現像できる。Further, the magnetic developer 1 by the AC recovery bias is used.
As shown in FIG. 4, the reciprocating motion 22 of 0 is −1100 V, which is the negative peak of the alternating rectangular potential of the peak-to-peak voltage 1500 V in the image portion, and the forward path to the image portion of the magnetic developer 10 is 0. It flies with a potential difference of 1000 V, and at 400 V, which is the peak on the positive side of the alternating rectangular potential, the return path from the image portion of the magnetic developer 10 flies with a potential difference of 500 V, so only one difference between these potential differences in one round trip.
The magnetic developer 10 moves to the image portion and the image formation proceeds, and the peak-to-peak voltage 1500 V is generated in the non-image portion.
At −1100 V, which is the negative peak of the alternating rectangular potential, the outward path of the magnetic developer 10 to the non-image portion flies with a potential difference of 600 V, and the positive peak of the alternating rectangular potential is 400.
At V, the return path from the non-image portion of the magnetic developer 10 is 900
Since the magnetic developer 10 flies with a potential difference of V, the magnetic developer 10 is recovered from the non-image portion by the difference between these potential differences in one reciprocation. However, due to the synergistic action with the above-described repelling action, even a delicate image is accurate without fog. It can be developed.
【0042】そして、潜像保持体1の回転によって潜像
保持体1の表面上の静電潜像と現像剤回収部材7間の間
隙が大きくなると、電界強度が徐々に減衰し、これに伴
って磁性現像剤10の運動が減衰して、現像が終了す
る。When the gap between the electrostatic latent image on the surface of the latent image holding member 1 and the developer collecting member 7 becomes large due to the rotation of the latent image holding member 1, the electric field strength is gradually attenuated. As a result, the movement of the magnetic developer 10 is attenuated, and the development is completed.
【0043】現像剤回収部材7の表面が、潜像保持体1
の表面と逆方向に移動し、潜像保持体1と現像剤回収部
材7との対向間隙に、両者間に亘る磁束があるので、現
像に余剰の磁性現像剤10と、間隙が大きくなった潜像
保持体1と現像剤回収部材7間に浮遊している磁性現像
剤10とは、現像剤回収部材7に回収され易く、現像剤
回収部材7の回転によって現像剤溜11に戻るので、磁
性現像剤10のロスが少なく、磁性現像剤10が外部に
飛び散ることを防止できる。The surface of the developer collecting member 7 is the latent image holding member 1.
And a magnetic flux extending between the latent image carrier 1 and the developer collecting member 7 facing each other in a direction opposite to the surface of the latent image holding member 1 and the developer collecting member 7. The magnetic developer 10 floating between the latent image carrier 1 and the developer collecting member 7 is easily collected by the developer collecting member 7 and returns to the developer reservoir 11 by the rotation of the developer collecting member 7, The loss of the magnetic developer 10 is small, and the magnetic developer 10 can be prevented from scattering outside.
【0044】又、図3に示すように、現像剤回収部材7
に回収され、現像剤回収部材7の回転による随伴流21
となって、磁性現像剤穂10″部分に戻った現像剤10
の一部は、磁性現像剤穂10″部分で、磁性現像剤穂1
0″の一部分になり、再び、潜像保持体1の回転による
随伴流21になり、循環流23に供給される。Further, as shown in FIG. 3, the developer collecting member 7
And the accompanying flow 21 generated by the rotation of the developer recovery member 7
Then, the developer 10 returned to the magnetic developer spike 10 "
Part of the magnetic developer is 10 "and the magnetic developer is 1".
It becomes a part of 0 ″, becomes the accompanying flow 21 due to the rotation of the latent image carrier 1 again, and is supplied to the circulating flow 23.
【0045】本発明の画像形成方法は、上記の実施例に
限らず種々の態様が可能である。例えば、実施例では、
帯電は、第2電界形成手段7が、潜像保持体1と帯電部
材5間に交番電界を形成して現像剤10を振動させて行
っているが、第2電界電源6を省略し、潜像保持体1と
帯電部材5間で、現像剤を摺擦させて帯電しても良い。
又、コロナ放電器を用いて帯電しても良いが、静電潜像
を乱さずに現像剤のみを帯電するのは難しく、あまり好
ましくはない。The image forming method of the present invention is not limited to the above-mentioned embodiment, and various modes are possible. For example, in the example,
The charging is carried out by the second electric field forming means 7 by vibrating the developer 10 by forming an alternating electric field between the latent image carrier 1 and the charging member 5. The developer may be rubbed between the image carrier 1 and the charging member 5 to be charged.
Although charging may be performed using a corona discharger, it is difficult to charge only the developer without disturbing the electrostatic latent image, which is not so preferable.
【0046】又、実施例では、潜像保持体1の表面の静
電潜像の非画像部分に付着している現像剤10を回収す
るのに、第3電界電源8の交流回収バイアスを使用した
が、これ以外に、第3電界電源8の直流回収バイアスを
使用したり、第2磁界形成手段4の磁界を使用すること
もできる。In the embodiment, the AC recovery bias of the third electric field power source 8 is used to recover the developer 10 adhering to the non-image portion of the electrostatic latent image on the surface of the latent image carrier 1. However, in addition to this, the DC recovery bias of the third electric field power source 8 or the magnetic field of the second magnetic field forming means 4 can be used.
【0047】この回収に直流回収バイアスを形成する第
3電界電源8を現像剤回収手段の一部として使用する場
合には、潜像保持体1の表面に供給された現像剤10
が、潜像保持体1と現像剤回収部材7間で受ける力は、
分子間力と、鏡像力と、電界力、即ち、潜像電位と回収
バイアス電位と現像剤の帯電電荷間のクーロン力とであ
り、この中の、分子間力と鏡像力とは、潜像の画像部分
と非画像部分とを問わず略一定なので、直流回収バイア
スによって変化する電界力が、非画像部分では現像剤が
回収されるような大きさになり、画像部分では現像剤が
潜像上に残るような大きさになる直流回収バイアスを印
加することによって、非画像部分の現像剤の回収が行わ
れる。When the third electric field power source 8 for forming a DC recovery bias is used as a part of the developer recovery means for this recovery, the developer 10 supplied to the surface of the latent image holding member 1 is used.
However, the force received between the latent image holder 1 and the developer collecting member 7 is
The intermolecular force, the mirror image force, and the electric field force, that is, the Coulomb force between the latent image potential, the recovery bias potential, and the charged charge of the developer. Among them, the intermolecular force and the mirror image force are the latent image. Since the image field and the non-image area are substantially constant, the electric field force that changes due to the DC recovery bias is such that the developer is recovered in the non-image area, and the latent image is the developer in the image area. By applying a DC recovery bias that has a magnitude that remains above, the developer in the non-image portion is recovered.
【0048】又、磁性現像剤10の回収に磁界を形成す
る第2磁界形成手段9を現像剤回収手段の一部として使
用する場合には、潜像保持体1の表面に供給された現像
剤10が、潜像保持体1と現像剤回収部材7間で受ける
力は、分子間力と、鏡像力と、電界力、即ち、潜像電位
と回収バイアス電位と現像剤の帯電電荷間のクーロン力
と、磁界力、即ち、第2磁界形成手段9と磁性現像剤間
の磁気吸引力とであり、この中の、分子間力と鏡像力と
は、潜像の画像部分と非画像部分とを問わず略一定なの
で、電界力と磁気力とが、非画像部分では現像剤が回収
されるような大きさになり、画像部分では現像剤が潜像
上に残るような大きさになる磁界を形成することによっ
て、非画像部分の現像剤の回収が行われる。When the second magnetic field forming means 9 for forming a magnetic field for recovering the magnetic developer 10 is used as a part of the developer recovery means, the developer supplied to the surface of the latent image holding member 1 is used. The force that 10 receives between the latent image holder 1 and the developer collecting member 7 is an intermolecular force, an image force, and an electric field force, that is, a Coulomb between the latent image potential, the collecting bias potential, and the charge of the developer. Force and magnetic field force, that is, magnetic attraction force between the second magnetic field forming means 9 and the magnetic developer, among which the intermolecular force and the image force are the image portion and the non-image portion of the latent image. Since the electric field force and the magnetic force are substantially constant regardless of the magnetic field, the magnetic field is such that the developer is collected in the non-image portion and the developer remains on the latent image in the image portion. By forming the, the developer in the non-image portion is collected.
【0049】尚、何れの回収の場合にも、潜像保持体1
の回転方向と現像剤回収部材7の回転方向とは同方向で
も反対方向でも良い。In any case of recovery, the latent image carrier 1
And the direction of rotation of the developer collecting member 7 may be the same or opposite.
【0050】[0050]
【発明の効果】本発明の画像形成装置は、潜像保持体表
面の静電潜像全面に現像剤を供給し、この現像剤を潜像
保持体の表面上で帯電し、最後に、静電潜像全面に供給
した現像剤から非画像部分に付着している現像剤を回収
することに特徴があり、次の効果を奏する。The image forming apparatus of the present invention supplies a developer to the entire surface of the electrostatic latent image on the surface of the latent image carrier, charges the developer on the surface of the latent image carrier, and finally, It is characterized in that the developer adhering to the non-image portion is recovered from the developer supplied to the entire surface of the latent image, and the following effects are obtained.
【0051】現像剤供給手段が、潜像保持体表面の静電
潜像全面に、直接多量の現像剤を供給するので、特に供
給量を制御しないでも、現像剤の供給ムラや供給不足を
解消するに充分な量の現像剤を潜像保持体表面の静電潜
像全面に供給し載せる作用があり、スリーブゴースト現
象を解消できる。又、現像剤の供給量を一定量に規定し
ている従来技術の現像剤担持体とは異なり、現像剤担持
体上に極めて均一な現像剤層を形成するための処理と精
密制御機構が不要になり、画像形成装置が小型化し、コ
スト安になると共に、現像に必要な現像剤を充分に供給
できるので、スリーブゴースト現象を解消できる。Since the developer supplying means directly supplies a large amount of the developer to the entire surface of the electrostatic latent image on the surface of the latent image holding member, uneven supply or insufficient supply of the developer can be solved without particularly controlling the supply amount. There is an effect of supplying a sufficient amount of developer to the entire surface of the electrostatic latent image on the surface of the latent image holding member and placing it thereon, thereby eliminating the sleeve ghost phenomenon. Further, unlike the conventional developer carrier which regulates the supply amount of the developer to a constant amount, the process and the precise control mechanism for forming an extremely uniform developer layer on the developer carrier are unnecessary. As a result, the image forming apparatus is downsized, the cost is reduced, and the developer required for development can be sufficiently supplied, so that the sleeve ghost phenomenon can be eliminated.
【0052】帯電部材と電界電源とは、現像剤を絶縁性
が高い潜像保持体の表面上で帯電させるので、高温・高
湿で現像剤の電荷がリークし易い雰囲気であっても、リ
ークの影響が極めて少なく、帯電した規定量の帯電電荷
の効果が確実に現像に作用し、高解像度の現像と転写の
安定化が可能になる。The charging member and the electric field power source charge the developer on the surface of the latent image holding member having a high insulating property. Therefore, even in an atmosphere where the charge of the developer is likely to leak at high temperature and high humidity, leakage occurs. Is extremely small, and the effect of a prescribed amount of charged electric charge reliably acts on development, and high-resolution development and transfer stabilization can be achieved.
【0053】又、振動によって、現像剤の凝集体が分散
されるだけではなく、現像剤が潜像保持体の表面上で移
動して、その量が潜像保持体の表面上で均一分布化さ
れ、且つ、帯電した現像剤が、長時間、潜像保持体の表
面の静電潜像に接触するので、静電潜像に忠実な優れた
画像が得られる。Further, the vibration not only disperses the agglomerates of the developer, but also moves the developer on the surface of the latent image holding member so that the amount thereof is uniformly distributed on the surface of the latent image holding member. Since the charged developer contacts the electrostatic latent image on the surface of the latent image carrier for a long time, an excellent image faithful to the electrostatic latent image can be obtained.
【0054】更に、帯電部材と潜像保持体間の所定間隙
を、現像剤がこの所定間隙に搬入される側の間隙が搬出
される側の間隙よりも広くなるようにすると、帯電効率
が向上し、帯電量が安定して多くなり、静電潜像に忠実
な画像が得られる。Further, if the predetermined gap between the charging member and the latent image holding member is made wider than the gap on the side where the developer is carried into the predetermined gap, the charging efficiency is improved. However, the amount of charge is stably increased and an image faithful to the electrostatic latent image can be obtained.
【0055】又、本発明の画像形成装置は、帯電部材
が、帯電部材と潜像保持体間の所定間隙の間隙を、現像
剤搬入側から搬出側に向かって徐々に狭くする形状を有
するので、夫々の位置で、適切な間隙の広さと現像剤の
空間密度とが得られ、現像剤の前記運動と帯電のための
前記接触とが効率良く行われ、帯電効率が向上する。Further, in the image forming apparatus of the present invention, the charging member has a shape in which the predetermined gap between the charging member and the latent image carrier is gradually narrowed from the developer carrying-in side to the carrying-out side. In each position, an appropriate width of the gap and a space density of the developer can be obtained, the movement of the developer and the contact for charging can be efficiently performed, and the charging efficiency is improved.
【図1】本発明の画像形成装置の1実施例の断面図であ
る。FIG. 1 is a sectional view of an embodiment of an image forming apparatus of the present invention.
【図2】本発明の画像形成装置の基本的な構成図であ
る。FIG. 2 is a basic configuration diagram of an image forming apparatus of the present invention.
【図3】図1の動作を示す一部拡大図である。FIG. 3 is a partially enlarged view showing the operation of FIG.
【図4】図1の動作の1例を示す動作図である。FIG. 4 is an operation diagram showing an example of the operation of FIG.
【図5】図1の帯電部材と潜像保持体間の所定間隙の1
例の断面図である。5 is a view showing a predetermined gap 1 between the charging member and the latent image carrier shown in FIG.
It is sectional drawing of an example.
【図6】スリーブゴーストの発生原理図である。FIG. 6 is a diagram illustrating the principle of sleeve ghost generation.
1 潜像保持体 2 第1磁界形成手段(現像剤供給手段) 3 現像剤供給用電極ローラ 4 第1電界電源 5 帯電部材 6 第2電界電源(電界電源) 7 現像剤回収部材(現像剤回収手段) 8 第3電界電源(現像剤回収手段) 9 第2磁界形成手段(現像剤回収手段) 10 現像剤 10′ 現像剤ポット 10″ 磁性現像剤穂 11 現像剤溜 21 随伴流 22 往復運動 23 循環流 1 Latent Image Holder 2 First Magnetic Field Forming Means (Developer Supply Means) 3 Developer Supply Electrode Roller 4 First Electric Field Power Supply 5 Charging Member 6 Second Electric Field Power Supply (Electric Field Power Supply) 7 Developer Collection Member (Developer Collection) Means) 8 Third electric field power source (developer collecting means) 9 Second magnetic field forming means (developer collecting means) 10 Developer 10 'Developer pot 10 "Magnetic developer spike 11 Developer sump 21 Adjoint flow 22 Reciprocating motion 23 Circulating flow
Claims (2)
保持体と、前記潜像保持体表面の静電潜像全面に現像剤
を直接供給する現像剤供給手段と、前記潜像保持体表面
に所定間隙を隔てて対向して配され前記潜像保持体表面
に随伴して搬送される現像剤がこの所定間隙に搬入され
る側の前記所定間隙の間隙が搬出される側の前記所定間
隙の間隙よりも広い帯電部材と、この帯電部材と前記潜
像保持体間に交番電界を形成し、この帯電部材と前記潜
像保持体間を通過する現像剤を前記潜像保持体の表面上
で帯電する電界電源と、前記潜像保持体の表面の前記静
電潜像の非画像部分に付着している現像剤を回収する現
像剤回収手段とを有することを特徴とする画像形成装
置。1. A latent image carrier that holds and moves an electrostatic latent image on the surface, a developer supply unit that directly supplies a developer to the entire surface of the electrostatic latent image on the surface of the latent image carrier, and the latent image carrier. The developer, which is disposed opposite to the surface of the image carrier with a predetermined gap, and is conveyed along with the surface of the latent image carrier, is introduced into the predetermined gap. A charging member wider than the predetermined gap, and an alternating electric field is formed between the charging member and the latent image holding member, and the developer passing between the charging member and the latent image holding member is held by the latent image holding member. It has an electric field power source charged on the surface of the body, and a developer collecting means for collecting the developer adhering to the non-image portion of the electrostatic latent image on the surface of the latent image holding member. Image forming apparatus.
所定間隙の間隙が、現像剤搬入側から搬出側に向かって
徐々に変化する形状を有する請求項1に記載の画像形成
装置。2. The image forming apparatus according to claim 1, wherein the charging member has a shape in which a predetermined gap between the charging member and the latent image holding member gradually changes from the developer carrying-in side to the carrying-out side. .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4258169A JPH06110314A (en) | 1992-09-28 | 1992-09-28 | Image forming device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4258169A JPH06110314A (en) | 1992-09-28 | 1992-09-28 | Image forming device |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH06110314A true JPH06110314A (en) | 1994-04-22 |
Family
ID=17316492
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4258169A Pending JPH06110314A (en) | 1992-09-28 | 1992-09-28 | Image forming device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH06110314A (en) |
-
1992
- 1992-09-28 JP JP4258169A patent/JPH06110314A/en active Pending
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