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JPS6271970A - Color electrophotographic method - Google Patents

Color electrophotographic method

Info

Publication number
JPS6271970A
JPS6271970A JP60212927A JP21292785A JPS6271970A JP S6271970 A JPS6271970 A JP S6271970A JP 60212927 A JP60212927 A JP 60212927A JP 21292785 A JP21292785 A JP 21292785A JP S6271970 A JPS6271970 A JP S6271970A
Authority
JP
Japan
Prior art keywords
toner
photoreceptor
developing
image
electrostatic latent
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
Application number
JP60212927A
Other languages
Japanese (ja)
Inventor
Hajime Yamamoto
肇 山本
Yuji Takashima
祐二 高島
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP60212927A priority Critical patent/JPS6271970A/en
Priority to US06/910,985 priority patent/US4809038A/en
Priority to EP86113152A priority patent/EP0216374B1/en
Priority to DE8686113152T priority patent/DE3678079D1/en
Publication of JPS6271970A publication Critical patent/JPS6271970A/en
Priority to KR1019910006817A priority patent/KR920003907B1/en
Pending legal-status Critical Current

Links

Abstract

PURPOSE:To prevent a developing unit from contamination due to a different kind of toner and to obtain stably a clear color copy by forming a solid image independent of an image signal in the axial direction of a photosensitive body in the front of an image area. CONSTITUTION:A solid part 25, i.e. a fully exposed part with low electric poten tial in case of inversional development, is formed in the front of an image area 24 on which an electrostatic latent image on the photosensitive body 1 is written in the advancing direction and toner in a developing part on the surface of the 1st developing unit 23 is previously removed by the solid part 25 to remove its developing capability. Consequently, the 2nd electrostatic latent image is developed only by the 2nd developing unit 23' and a fine image can be obtained without the generation of color turbidity due to the 1st developing device 23 and density reduction due to the reverse dispersion of toner 20a devel oped on the photosensitive body 1 to the 1st developing device 23.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、カラーの複写機あるいはプリンタに利用でき
るカラー電子写真装置に関する。
DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a color electrophotographic apparatus that can be used in a color copying machine or printer.

従来の技術 従来、帯電・露光・現像を複数回繰り返し、電子写真感
光体(以下、感光体という)上に予め色の異なる複数の
トナー像を形成゛した後、トナー像を普通紙に一括転写
してカラー画像を得るカラー電子写真装置が種々提案さ
れている。
Conventional technology Conventionally, charging, exposure, and development are repeated multiple times to form multiple toner images of different colors on an electrophotographic photoreceptor (hereinafter referred to as photoreceptor), and then the toner images are transferred all at once to plain paper. Various color electrophotographic apparatuses for obtaining color images have been proposed.

このようなカラー電子写真装置の従来列を第3図に示す
。図において、1は矢印方向に回転するSθ−To感光
体、2は感光体1の表面を一様に正帯電するコロナ帯電
器、3はレーザビームスキャナ、4〜7は各々イエロ(
Y)、マゼンタ(M)。
A conventional array of such color electrophotographic devices is shown in FIG. In the figure, 1 is an Sθ-To photoreceptor that rotates in the direction of the arrow, 2 is a corona charger that uniformly charges the surface of the photoreceptor 1, 3 is a laser beam scanner, and 4 to 7 are yellow (
Y), magenta (M).

シアン(C)、プラック(Bl)のトナーが別々に入っ
ている現(象器、8は普通紙、9はトナー像を普通紙8
に静電転写し易くする為の除電ランプ、1oはトナー像
を普通紙8に静電転写する為のコロナ帯電器、11は加
熱定着器、12はトナー像を普通紙8に静電転写したの
ち感光体1に残留するトナーを除去する為のクリーニン
グブレード、13は感光体の表面電位を初期状態にする
為の除電ランプである。
Cyan (C) and black (Bl) toners are contained separately.
1o is a corona charger for electrostatically transferring the toner image onto plain paper 8; 11 is a heat fixing device; 12 is electrostatically transferring the toner image onto plain paper 8. A cleaning blade 13 is used to remove toner remaining on the photoreceptor 1, and a discharge lamp 13 is used to bring the surface potential of the photoreceptor to an initial state.

次に現像器4〜7の具体的な構成列を第4図に示す。第
4図において、14は正帯電性のトナーと磁性キャリヤ
の混合物から成る2成分現像剤(以下、現像剤という)
、16はアルミニウムなどの非磁性材料から成る現像ス
リーブ、16は複数の磁極を有するマグロール、17は
現像スリーブ15上の現像剤14の層厚を規制する層厚
規制グレード、18は現像後、現像スリーブ15上の現
像剤14を掻き落とす掻き落とし板、19は現像剤14
を撹拌する回転羽根、20は補給用のトナー、21はト
ナー補給ローラ、1は現像スリーブ15上の現像剤14
と接触しない位置に間隙をあけて設置した感光体、22
は現像スリーブ15上の現像剤14からトナーを感光体
1に向けて電気的に飛翔させる為の電源である。
Next, a concrete arrangement of the developing units 4 to 7 is shown in FIG. In FIG. 4, 14 is a two-component developer (hereinafter referred to as developer) consisting of a mixture of positively charged toner and magnetic carrier.
, 16 is a developing sleeve made of a non-magnetic material such as aluminum, 16 is a mag roll having a plurality of magnetic poles, 17 is a layer thickness regulating grade for regulating the layer thickness of the developer 14 on the developing sleeve 15, and 18 is a developing sleeve after development. A scraping plate 19 scrapes off the developer 14 on the sleeve 15;
20 is a toner for replenishment, 21 is a toner replenishment roller, 1 is a developer 14 on the developing sleeve 15
A photoconductor installed with a gap at a position where it does not come into contact with the photoreceptor, 22
is a power source for electrically flying toner from the developer 14 on the developing sleeve 15 toward the photoreceptor 1.

ここで現像器を現像可能な状態にするには、電源に正の
直流電圧に高圧の交流電圧を重畳した電圧を発生させる
ものを用い現像スリーブ15・と電源22を接続する。
To bring the developing device into a state capable of developing, the developing sleeve 15 and the power source 22 are connected using a power source that generates a voltage that is a combination of a positive DC voltage and a high-voltage AC voltage.

また、現像器を現像に供さない状態にするには、現像ス
リーブ15を電気的に浮かすか、接地するかあるいは現
像スリーブ15に負の直流電圧を印加する。
Further, in order to put the developing device into a state where it is not used for development, the developing sleeve 15 is electrically floated, grounded, or a negative DC voltage is applied to the developing sleeve 15.

次に上述したカラー電子写真装置を用いてカラー画像を
形成する方法について説明する。まずコロナ帯電器2で
感光体1を正帯電した後、レーザビームスキャナ3でイ
エロの画像信号をスキャニング露光し、ネガの静電潜像
(画線部が露光されて感光体の表面電位が減衰している
)を形成する。
Next, a method of forming a color image using the color electrophotographic apparatus described above will be described. First, the photoreceptor 1 is positively charged with the corona charger 2, and then a yellow image signal is scanned and exposed using the laser beam scanner 3, and a negative electrostatic latent image (the image area is exposed and the surface potential of the photoreceptor is attenuated) form).

そして、静電潜像をYトナーの入っている現像器4でネ
ガ・ポジ反転現像し、感光体1上にイエロのトナー像を
形成する。この時、Yトナーの入っている現像器4だけ
が電源22に接続されているが、その他の現像器6〜7
はトナーが飛翔しない状態に調整されている。Yトナー
で現像した後、感光体1を除電ランプ13で全面照射し
、イエロの静電潜像を光除電する。
Then, the electrostatic latent image is reversely developed into a negative/positive state using a developing device 4 containing Y toner, thereby forming a yellow toner image on the photoreceptor 1. At this time, only the developing device 4 containing the Y toner is connected to the power supply 22, but the other developing devices 6 to 7 are connected to the power source 22.
is adjusted so that toner does not fly away. After development with the Y toner, the entire surface of the photoconductor 1 is irradiated with a discharge lamp 13 to optically eliminate the yellow electrostatic latent image.

次に、イエロのトナー像を形成した方法と同様の方法に
よシ、帯電・露光・現像・光除電の工程を繰り返し、感
光体1上にY、M、C及びBlのトナー像を形成する。
Next, the steps of charging, exposure, development, and photostatic discharge are repeated in the same manner as the method used to form the yellow toner image, to form Y, M, C, and Bl toner images on the photoreceptor 1. .

全てのトナー現像が終了した後、予め除電ランプ9で静
電潜像を光除電し、コロナ帯電器2でトナー像を普通紙
8に静電転写する。普通紙8に転写したトナー像は、加
熱定着器11で加熱し、定着される。一方、静電転写後
窓光体1上に残留したトナーは、クリーニングブレード
で除去されカラー画像形成の1サイクルが完了する(例
えば、特開昭60−95456号公報)。
After all toner development is completed, the electrostatic latent image is optically neutralized in advance using a static eliminating lamp 9, and the toner image is electrostatically transferred onto plain paper 8 using a corona charger 2. The toner image transferred to the plain paper 8 is heated and fixed by a heat fixing device 11. On the other hand, the toner remaining on the window light body 1 after electrostatic transfer is removed by a cleaning blade, completing one cycle of color image formation (for example, Japanese Patent Laid-Open No. 60-95456).

発明が解決しようとする問題点 第3図で説明した従来のカラー電子写真装置を連続運転
した場合、コピー量に比的して現像器が異種トナーで汚
染される問題点があった。この問題点の原因について検
討したところ、トナー(蒙を有する感光体が再帯電及び
像露光された後、現像に供さない現像器を通過した際、
感光体上のトナー像の一部のトナーが現像スリーブに逆
飛翔することが判明した。このトナーの逆飛翔現象につ
いて図面に基つき更に詳しく説明する。
Problems to be Solved by the Invention When the conventional color electrophotographic apparatus described in FIG. 3 is operated continuously, there is a problem in that the developing device is contaminated with toner of different types in proportion to the amount of copies to be made. When we investigated the cause of this problem, we found that when the photoconductor containing toner (containing toner) passes through a developing device that is not used for development after being recharged and imagewise exposed,
It has been found that some of the toner in the toner image on the photoreceptor flies back to the developing sleeve. This reverse flight phenomenon of toner will be explained in more detail with reference to the drawings.

第5〜7図は、トナー像を有する感光体が再帯電及び像
露光された後、現像に供さない現像器を通過した際の感
光体及び現像スリーブ上の各トナーの挙動を模式的に示
した図である。
Figures 5 to 7 schematically show the behavior of each toner on the photoreceptor and the developing sleeve when the photoreceptor carrying a toner image is recharged and exposed to light and then passes through a developing device that is not used for development. FIG.

第5図は現像スリーブ16を接地したときの様子を示す
。ム及びC領域における感光体1は、再帯電によって正
に帯電されている。また感光体1上のトナーは、再帯電
の際コロナ帯電器によってより正に帯電されている。従
って、C領域におけるトナーは、感光体の正電荷による
電荷の反発力と感光体と現像スリーブとの間に生じた電
界の作用によって、現像スリーブに向かって逆飛翔する
FIG. 5 shows the situation when the developing sleeve 16 is grounded. The photoreceptor 1 in the area C and area C is positively charged by recharging. Furthermore, the toner on the photoreceptor 1 is more positively charged by the corona charger during recharging. Therefore, the toner in area C flies back toward the developing sleeve due to the repulsive force of the positive charges on the photoreceptor and the electric field generated between the photoreceptor and the developing sleeve.

第6図は現像スリーブに負の直流電圧を印加したときの
様子を示す。この場合、現像スリーブ15上の正帯電の
トナー2oは、負の電圧が印加されている現像スリーブ
15に静電的に強く引きつけられている為、現像スリー
ブ16から感光体1へのトナー飛翔を防止するには非常
に効果的である。
FIG. 6 shows the situation when a negative DC voltage is applied to the developing sleeve. In this case, the positively charged toner 2o on the developing sleeve 15 is strongly electrostatically attracted to the developing sleeve 15 to which a negative voltage is applied, so that the toner does not fly from the developing sleeve 16 to the photoreceptor 1. It is very effective in preventing.

しかし、C領域における感光体と現像スリーブとの間の
電界強度は、第6図のC領域に比べてより大きくなって
いる。従って、C領域の感光体1上のトナー2oは第5
図に比べてよシ多く逆飛翔することになる。また現像ス
リーブ15に印加する直流電圧を高くしていくとC領域
の感光体1上のトナー20’も逆飛翔する。
However, the electric field strength between the photoreceptor and the developing sleeve in region C is greater than that in region C in FIG. Therefore, the toner 2o on the photoreceptor 1 in the C area is the fifth
Compared to the illustration, it will fly much more backwards. Further, as the DC voltage applied to the developing sleeve 15 is increased, the toner 20' on the photoreceptor 1 in the C region also flies backwards.

第7図は現像スリーブを電気的に浮かしたときの様子を
示す。感光体1上の正の電荷によって現像スリーブ15
は図のように分極される。従って、B領域における現像
スリーブ15上のトナー2゜の一部は、感光体1に向か
って飛翔する。また、C領域における感光体1上のトナ
ー20’の一部は、現像スリーブ15に向かって逆飛翔
する。
FIG. 7 shows the state when the developing sleeve is electrically floated. The developing sleeve 15 is caused by the positive charge on the photoreceptor 1.
is polarized as shown. Therefore, a portion of the toner 2° on the developing sleeve 15 in area B flies toward the photoreceptor 1. Further, a part of the toner 20' on the photoreceptor 1 in the C area flies back toward the developing sleeve 15.

以上説明した通シ、従来の装置では現像器の異種トナー
による汚染を防止することができず、鮮明なカラーコピ
ーを安定して得ることができないという問題点があった
As described above, the conventional apparatus has a problem in that it is not possible to prevent the developing device from being contaminated by different types of toner, and it is not possible to stably obtain clear color copies.

従って本発明の目的は、現像器の異種トナーによる汚染
を防止し、鮮明なカラーコピーが安定して得られるカラ
ー電子写真法を提供することにある。
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a color electrophotographic method that prevents contamination of a developing device with different types of toner and can stably produce clear color copies.

問題点を解決するための手段 本発明は粉体トナー層を担持したトナー担持体を感光体
に対向させて非接触で現像する現像器を感光体周辺に複
数個配置し、帯電、露光、現像を繰り返し、感光体上に
複数色のトナー像を形成する電子写真法に於いて、画像
領域に先行して、感光体の軸方向に画像信号と関係のな
いベタ画像を形成しておき、かつ現像に寄与しない現像
器のトナー担持体に感光体の非画像部の表面電位と略同
電位の現像バイアス電圧を印加し、かつ現像に寄与しな
いトナー担持体の駆動を止めるカラー電子写真方法であ
る。
Means for Solving the Problems The present invention includes a plurality of developing devices arranged around the photoreceptor for developing a toner carrier carrying a powder toner layer in a non-contact manner while facing the photoreceptor. In electrophotography, which repeatedly forms toner images of multiple colors on a photoreceptor, a solid image unrelated to the image signal is formed in the axial direction of the photoreceptor prior to the image area, and This is a color electrophotographic method in which a developing bias voltage having approximately the same potential as the surface potential of a non-image area of a photoreceptor is applied to a toner carrier of a developing device that does not contribute to development, and the driving of the toner carrier that does not contribute to development is stopped. .

作用 第1図を用い、本発明の詳細な説明する。action The present invention will be explained in detail with reference to FIG.

感光体1の第1の静電潜像には既にトナー20aが現像
されており、再帯電後筒2の静電潜像が形成さnている
。第1の現像器23は静止しており第2の現像器23′
は回転している。感光体1上のトナー20aの現像器2
3への逆飛翔を防ぐためには、第1の現像器23にもバ
イアス22を印加する。このとき第1の現像器23が回
転するとトナーが供給され静電潜像を現像してしまうの
で、この現像器23は静止させる。しかし、こうして静
止させても、感光体1と対向する現像器23表面に付−
着しているトナーは静電潜像を現像してしまい画像に色
の濁シを生ずるため、このトナーを予め除去しておく必
要がある。このため、感光体1上の静電潜像が書かれた
画像領域24よシ進行方向前側にベタ部25、すなわち
反転現像の場合、電位の低い全面露光部を形成しておき
、このベタ部25によって、第、1の現像器23の表面
の現像部のトナーを予め除去しておき、現像能力を無く
しておく。このようにして、第2の静電潜像は第2の現
1ψ器23′のみによって現像され、第1の現像器23
による色濁シも発生せず、しかも既に感光体1上に現像
された第1の現像器23のトナー20aが第1の現像器
23に逆飛翔することによる濃度低下もなく良好な画像
が得られる。
The first electrostatic latent image on the photoreceptor 1 has already been developed with the toner 20a, and an electrostatic latent image on the cylinder 2 is formed after recharging. The first developer 23 is stationary and the second developer 23'
is rotating. Developing device 2 for toner 20a on photoreceptor 1
In order to prevent the reverse flight to 3, a bias 22 is also applied to the first developing device 23. At this time, when the first developing device 23 rotates, toner is supplied and the electrostatic latent image is developed, so this developing device 23 is kept stationary. However, even if it is kept stationary in this way, the surface of the developing device 23 facing the photoreceptor 1 is
It is necessary to remove this toner in advance because the toner that adheres to the image will develop the electrostatic latent image and cause the image to become cloudy. For this reason, a solid area 25, that is, an entire exposed area with a low potential in the case of reversal development, is formed on the front side of the image area 24 on which the electrostatic latent image is written on the photoreceptor 1, and this solid area 25, the toner in the developing section on the surface of the first developing device 23 is removed in advance to eliminate the developing ability. In this way, the second electrostatic latent image is developed only by the second developer 23';
A good image can be obtained without causing any color turbidity due to the toner 20a of the first developing device 23, which has already been developed on the photoconductor 1, and without any decrease in density due to the toner 20a of the first developing device 23 that has already been developed on the photoreceptor 1 flying back to the first developing device 23. It will be done.

実施例 本発明に用いることのできる感光体としては、無定形セ
レン、CdS、ZnO,a−8i等を用いることができ
る。現像器としては、感光体上の静電層(pに対し、対
向電極効果を有し、現像剤層と静電潜像とが非接触状態
で現像できるものであればいずれでも適用できる。例え
ば、現像ローラ上に帯電したトナー層を担持した1成分
現像器、トナーと磁性キャリヤを混合した2成分現像器
などがある。また本発明の実施例では、反転現像法の場
合を説明しているが、正規現像法にも適用できる。
EXAMPLE As the photoreceptor that can be used in the present invention, amorphous selenium, CdS, ZnO, a-8i, etc. can be used. As the developing device, any device can be used as long as it has a counter electrode effect with respect to the electrostatic layer (p) on the photoreceptor and can develop the electrostatic latent image without contacting the developer layer. For example, , a single-component developer in which a charged toner layer is supported on a developing roller, and a two-component developer in which a toner and a magnetic carrier are mixed.Also, in the embodiments of the present invention, the case of a reversal development method is explained. However, it can also be applied to regular development methods.

本発明の実施例を第2図を用い詳細に説明する。An embodiment of the present invention will be described in detail using FIG.

直径100ffffの無定形5e−To感光体ドラム1
を周速7tsyttm/sで回転させ、帯電器2(コロ
ナ電圧+7kV、グリフ)’26の電圧子850V )
i用い表面電位子500Vに帯電させた。次に出カフμ
W、波長670nHの発光ダイオード27を発光させセ
ルフォックレンズ28を通し露光し、進行方向中10M
Mの全面べダ部を形成し、その後発光ダイオード2了に
よって黄に対応する信号光を露光し静電潜像を形成した
Amorphous 5e-To photosensitive drum 1 with a diameter of 100ffff
Rotate at a circumferential speed of 7 tsyttm/s, charger 2 (corona voltage +7 kV, glyph) '26 voltage element 850 V)
It was charged to a surface potential of 500 V using i. Next, the cuff μ
W, the light emitting diode 27 with a wavelength of 670 nH is emitted and exposed through the SELFOC lens 28, and the distance is 10 M in the traveling direction.
A solid surface of M was formed on the entire surface, and then the light emitting diode 2 was exposed to signal light corresponding to yellow to form an electrostatic latent image.

次にこの静電潜像を、表面に電荷量3μC/g、平均粒
径10μmの黄トナー(トナー層厚30μm)を担持し
た現像ローラ23a(直径16朋1周速75 MM/ 
S 、  進行方向は感光体1と同方向)と現像ギヤ、
プ150μm開は対向させ、直流電源22&より現像バ
イアス+700Vを印加したところ、黄トナーは現像ロ
ーラ232Lから感光体1上の潜像部に向込飛翔し付着
した。この後、黄現像された感光体1は、静止し+as
ovのバイアスを印加したマゼンタ現像器23bとシア
ン現像器23C’i通過する。この時マゼンタとシアン
の現像器の現像ニップ部のトナーは予め感光体1上の画
像領域前のベタ部によって除去されているので、感光体
1の表面電位と略同電位のバイアス(+5sOV)が印
加されていても静電潜像を現像することはない。こうし
て23b 、23Cの現像器を通過した感光体1上のト
ナー像は紙に転写せず、一度除電ランプ13で感光体1
を全面除電した後、再びコロナ帯電器2で帯電する。コ
ロナ帯電によシ、黄トナーが付着していない裸の感光体
1は+5oovに、黄トナーが付着している感光体1も
同じ(−4−aooVに帯電した。ここで黄トナーが付
着している感光体1の表面電位のうち、トナーの電位は
SOV程度で、感光体1自体は750v帯電していた。
Next, this electrostatic latent image is transferred to a developing roller 23a (diameter 16 x 1 circumferential speed 75 MM/cm) carrying yellow toner (toner layer thickness 30 μm) with a charge amount of 3 μC/g and an average particle size of 10 μm on the surface.
S, the direction of travel is the same as the photoreceptor 1) and the developing gear,
When a developing bias of +700 V was applied from the DC power source 22&, the yellow toner flew from the developing roller 232L toward the latent image area on the photoreceptor 1 and adhered thereto. After this, the yellow-developed photoreceptor 1 stands still and +as
It passes through a magenta developer 23b and a cyan developer 23C'i to which a bias of ov is applied. At this time, since the toner in the developing nip of the magenta and cyan developing devices has been removed in advance by the solid area in front of the image area on the photoconductor 1, a bias (+5 sOV) of approximately the same potential as the surface potential of the photoconductor 1 is applied. Even if it is applied, the electrostatic latent image will not be developed. In this way, the toner image on the photoconductor 1 that has passed through the developing devices 23b and 23C is not transferred to paper, but is once applied to the photoconductor 1 by the static elimination lamp 13.
After completely eliminating static electricity, it is charged again by the corona charger 2. Due to corona charging, the bare photoconductor 1 with no yellow toner attached was charged to +5oOV, and the photoconductor 1 with yellow toner attached was also charged to -4-aooV. Among the surface potentials of the photoconductor 1, the potential of the toner was approximately SOV, and the photoconductor 1 itself was charged at 750V.

次にこの感光体1に、発光ダイオード27によシ再びベ
タ部潜像を形成した後、マゼンタに対応する信号光を照
射した。黄トナーの付着していない感光体1の表面電位
は約30Vに低下した。黄トナーの付着している部分で
は、露光によシ感光体の表面電位は約soVに低下した
。これは発光ダイオード27の波長が670nmである
ため、黄トナーはほとんどこの波長の光を透過し、感光
体1上にトナーが存在しても感光体1の表面電位の光減
衰に影響を与えないためである。次にこの黄トナーで現
像され、かつマゼンタに対応する静電潜像を持つ感光体
1は、最初黄現像器2°31Lを通過する。このとき、
黄現像器23′&は+860vのバイアスが印加された
まま静止しているため、黄現像器23a上の感光体1に
対向する部分の黄トナーは、予め先行する感光体上のベ
タ部によって除去されている。そのため、感光体1上の
黄トナーが付着しかつ露光されていない部分からの黄現
像器23aへの逆飛翔は発生せず、同時に感光体1上の
マゼンタの静電潜像を黄トナーで現像することも防げる
。次に、感光体1ば+7001の現像バイアスを印加し
たマゼンタ現像−23b ()、ナー電荷量3μC;/
g。
Next, a solid latent image was again formed on the photoreceptor 1 by the light emitting diode 27, and then a signal light corresponding to magenta was irradiated. The surface potential of the photoreceptor 1 to which yellow toner was not attached decreased to about 30V. In the area where the yellow toner was attached, the surface potential of the photoreceptor decreased to about soV due to exposure. This is because the wavelength of the light emitting diode 27 is 670 nm, so most of the yellow toner transmits light of this wavelength, and even if toner exists on the photoreceptor 1, it does not affect the optical attenuation of the surface potential of the photoreceptor 1. It's for a reason. Next, the photoreceptor 1, which has been developed with this yellow toner and has an electrostatic latent image corresponding to magenta, first passes through the yellow developer 2° 31L. At this time,
Since the yellow developing device 23'& remains stationary with a bias of +860V applied, the yellow toner on the portion of the yellow developing device 23a facing the photoreceptor 1 is removed in advance by the solid area on the preceding photoreceptor. has been done. Therefore, the yellow toner on the photoconductor 1 does not adhere and fly back to the yellow developing device 23a from the unexposed area, and at the same time, the magenta electrostatic latent image on the photoconductor 1 is developed with the yellow toner. It can also be prevented. Next, magenta development was performed by applying a developing bias of photoconductor 1 +7001 -23b (), toner charge amount 3 μC; /
g.

平均粒径10μm1層厚30μm)を通過し、マゼンタ
トナーにょシ現像される。最後に感光体1は、シアン現
像器230を通過する。このときシアン現1ψ器230
は黄現像器23&と同様に、+85゜Vのバイアスを印
加したまま静止しておシ、また感光体1に対向する部分
のシアントナーは感光体1上のベタ部分によって予め除
去されているため、マゼンタの静電潜像を現象すること
はない。次に感光体1を再び帯電器2によシ+5oov
に帯電し、発光ダイオード27によシ再びベタ部潜像を
形成した後、シアンに対応する信号光を照射し静電潜像
を形成した。今度は黄とマゼンタの現像器231L 、
23bを+850V(7)バイアスヲ印゛加したままで
静止させ、静電潜像を現像することのないように、また
トナーが感光体1から逆飛翔することもないようにして
おき、−f−7001の現像バイアスを印加したシアン
現像器230 ()ナー電荷量3μC,Q 、平均粒径
10μm、)ナ一層厚30μm)で現像する。
The average particle size is 10 μm and the thickness of each layer is 30 μm), and the magenta toner is developed. Finally, the photoreceptor 1 passes through a cyan developer 230. At this time, cyan current 1ψ device 230
Like the yellow developer 23 &, it stands still with a +85°V bias applied, and the cyan toner in the area facing the photoreceptor 1 has been removed by the solid area on the photoreceptor 1 in advance. , no magenta electrostatic latent image occurs. Next, put the photoconductor 1 back into the charger 2 for +5oov.
After the light emitting diode 27 was used to form a solid latent image, a signal light corresponding to cyan was irradiated to form an electrostatic latent image. This time, yellow and magenta developer 231L,
23b with a bias of +850V (7) applied to it so as not to develop the electrostatic latent image and to prevent the toner from flying backwards from the photoreceptor 1. Developing is carried out using a cyan developer 230 to which a developing bias of 7001 is applied.

こうして感光体1上に得たカラートナー像は転写前除電
ランプ9によって感光体1を全面除電した後、転写帯電
器1oによって紙8に転写した後、剥離帯電器29によ
シ感光体1から紙8を剥離し、その後熱定着した。感光
体1上のトナーを紙8に転写した後、感光体1の表面を
除電器3oにより除電し、クリーニング装置12により
転写残りのトナーを除去し再使用した。得られたカラー
画像は最高濃度が1.7と高くしかも色濁りのない良質
なものであった。またこのプロセスを300Q枚連続し
たが、現像器内に異種のトナーが混入することもなかっ
た。
The color toner image thus obtained on the photoreceptor 1 is discharged from the entire surface of the photoreceptor 1 by the pre-transfer static elimination lamp 9, transferred to the paper 8 by the transfer charger 1o, and then removed from the photoreceptor 1 by the peeling charger 29. Paper 8 was peeled off and then heat-fixed. After the toner on the photoreceptor 1 was transferred to the paper 8, the surface of the photoreceptor 1 was neutralized by the static eliminator 3o, and the remaining toner was removed by the cleaning device 12, and the photoreceptor 1 was reused. The color image obtained had a high maximum density of 1.7 and was of good quality with no color turbidity. Further, even though this process was repeated for 300Q sheets, no different types of toners were mixed into the developing device.

発明の効果 本発明によれば、感光体上に直接カラートナー像を重ね
合わせてカラープリントを得る電子゛写真プロセスにお
いて現像器の異種トナーによる汚染を防止し、鮮明なカ
ラーコピーを安定して得ることができる。
Effects of the Invention According to the present invention, in an electrophotographic process in which color prints are obtained by directly superimposing color toner images on a photoreceptor, contamination of a developing device by different types of toner can be prevented and clear color copies can be stably obtained. be able to.

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

第1図は本発明のカラー電子写真方法の原理を説明する
ために示した装置の要部の断面図、第2図は同方法によ
るカラー電子写真プリンタの断面図、第3図、第4図、
第6図、第6図、第7図は従来例におけるカラー電子写
真方法を説明するための装置およびトナーの挙動を示す
図である。 1・・・・・・感光体、2・・・・・帯電器、2o・・
・・・・トナー、22・・・・・・バイアス電源、23
・・・・・・現像器、25・・・・・ベタ部面、像部。 代理人の氏名 弁理士 中 尾 敏 男 ほか1名第1
図 12 図 第 3 図 第4図 Zθ 第5図 第7図
FIG. 1 is a sectional view of the main parts of an apparatus shown to explain the principle of the color electrophotographic method of the present invention, FIG. 2 is a sectional view of a color electrophotographic printer using the same method, and FIGS. 3 and 4. ,
FIG. 6, FIG. 6, and FIG. 7 are diagrams showing the behavior of an apparatus and toner for explaining a conventional color electrophotographic method. 1...Photoreceptor, 2...Charger, 2o...
... Toner, 22 ... Bias power supply, 23
...Developer, 25...Solid area, image area. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure 12 Figure 3 Figure 4 Zθ Figure 5 Figure 7

Claims (1)

【特許請求の範囲】[Claims] 粉体トナー層を担持したトナー担持体を感光体に対向さ
せて非接触で現像する現像器を感光体周辺に複数個配置
し、帯電、露光、現像を繰り返し、感光体上に複数色の
トナー像を形成する電子写真法に於いて、画像領域に先
行して、感光体の軸方向に画像信号と関係のないベタ画
像を形成しておき、かつ現像に寄与しない現像器のトナ
ー担持体に感光体の非画像部の表面電位と略同電位の現
像バイアス電圧を印加し、かつ現像に寄与しないトナー
担持体の駆動を止めるカラー電子写真方法。
A plurality of developing devices are arranged around the photoconductor to develop a toner carrier carrying a powder toner layer in a non-contact manner while facing the photoconductor, and charging, exposure, and development are repeated to form toner of multiple colors on the photoconductor. In the electrophotographic method of forming an image, a solid image unrelated to the image signal is formed in the axial direction of the photoreceptor in advance of the image area, and a solid image is formed on the toner carrier of the developing device that does not contribute to development. A color electrophotographic method in which a developing bias voltage having approximately the same potential as the surface potential of a non-image area of a photoreceptor is applied and driving of a toner carrier that does not contribute to development is stopped.
JP60212927A 1985-09-26 1985-09-26 Color electrophotographic method Pending JPS6271970A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
JP60212927A JPS6271970A (en) 1985-09-26 1985-09-26 Color electrophotographic method
US06/910,985 US4809038A (en) 1985-09-26 1986-09-24 Color electrophotographic apparatus and method
EP86113152A EP0216374B1 (en) 1985-09-26 1986-09-24 Color electrophotographic apparatus
DE8686113152T DE3678079D1 (en) 1985-09-26 1986-09-24 ELECTROPHOTOGRAPHIC COLOR DEVICE.
KR1019910006817A KR920003907B1 (en) 1985-09-26 1991-04-27 Color electronic photography apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP60212927A JPS6271970A (en) 1985-09-26 1985-09-26 Color electrophotographic method

Publications (1)

Publication Number Publication Date
JPS6271970A true JPS6271970A (en) 1987-04-02

Family

ID=16630590

Family Applications (1)

Application Number Title Priority Date Filing Date
JP60212927A Pending JPS6271970A (en) 1985-09-26 1985-09-26 Color electrophotographic method

Country Status (1)

Country Link
JP (1) JPS6271970A (en)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58205173A (en) * 1982-05-25 1983-11-30 Ricoh Co Ltd Magnetic brush developing device
JPS6046575A (en) * 1983-08-24 1985-03-13 Fujitsu Ltd Bicolor electronic recording device

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS58205173A (en) * 1982-05-25 1983-11-30 Ricoh Co Ltd Magnetic brush developing device
JPS6046575A (en) * 1983-08-24 1985-03-13 Fujitsu Ltd Bicolor electronic recording device

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