[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JPH0460660A - Contact electrifier and image forming device - Google Patents

Contact electrifier and image forming device

Info

Publication number
JPH0460660A
JPH0460660A JP17247690A JP17247690A JPH0460660A JP H0460660 A JPH0460660 A JP H0460660A JP 17247690 A JP17247690 A JP 17247690A JP 17247690 A JP17247690 A JP 17247690A JP H0460660 A JPH0460660 A JP H0460660A
Authority
JP
Japan
Prior art keywords
charging
contact
cleaning
roller
charged
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
JP17247690A
Other languages
Japanese (ja)
Inventor
Michihito Yamazaki
道仁 山崎
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.)
Canon Inc
Original Assignee
Canon Inc
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 Canon Inc filed Critical Canon Inc
Priority to JP17247690A priority Critical patent/JPH0460660A/en
Publication of JPH0460660A publication Critical patent/JPH0460660A/en
Pending legal-status Critical Current

Links

Landscapes

  • Electrostatic Charge, Transfer And Separation In Electrography (AREA)

Abstract

PURPOSE:To prevent the occurrence of the variance in electrification due to pollution of an electrifying member for contact electrification by providing a means which cleans the face of the electrifying member contreting the surface of a body to be electrified. CONSTITUTION:A contact electrifier which brings an electrifying member 12 into contact with the surface of a body 1 to be electrified to electrify this surface is provided with a means 11 which cleans the face of the electrifying member 2 contreting the surface of the body 1 to be electrified. As a result, foreign matters stuck to the surface of the electrifying member 2 are removed by the cleaning means 11 even if foreign matters are transferred from the surface of the body 1 to be electrified to the contact electrifying member 2 or foreign matters are directly stuck by sprinkling. Thus, the occurrence of the variance in electrification due to pollution of the electrifying member 2 or sticking and solidification of pollutive matters is prevented to keep a satisfactory uniform electrifying property, and a picture of good quality is stably outputted.

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、帯電部材を被帯電面に接触させて被帯電体面
を帯電処理(除電処理も含む)する接触式の帯電装置に
関する。また該接触帯電装置を用いた画像形成装置に関
する。
DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a contact-type charging device that charges (including neutralizes) the surface of a charged object by bringing a charging member into contact with the surface to be charged. The present invention also relates to an image forming apparatus using the contact charging device.

(従来の技術) 例えば電子写真装置(複写機・プリンタ・画像表示装置
など)・静電記録装置等の画像形成装置において、感光
体・誘電体等の被帯電体としての像担持体面を帯電処理
する手段機器としてはコロナ帯電器が従来より広く利用
されている。
(Prior art) For example, in image forming apparatuses such as electrophotographic devices (copying machines, printers, image display devices, etc.) and electrostatic recording devices, the surface of an image carrier as a charged body such as a photoreceptor or dielectric is subjected to charging treatment. Corona chargers have been widely used as devices for this purpose.

コロナ帯電器は像担持体等の被帯電体面を所定の極性・
電位に均一に帯電処理する手段機器として有効である。
A corona charger charges the surface of an object to be charged, such as an image carrier, with a predetermined polarity.
It is effective as a device for uniformly charging the potential.

しかし所定の帯電電位を得るために高価な高圧トランス
(6〜8KV程度)を必要とする、コロナ放電により好
ましくないオゾンが゛比較約5く発生するのでその対処
構成に工夫を要する等の問題点を有している。
However, there are problems such as the need for an expensive high-voltage transformer (approximately 6 to 8 KV) to obtain a predetermined charging potential, and the fact that undesirable ozone is generated due to corona discharge, so it is necessary to devise a countermeasure structure. have.

このようなコロナ帯電器に対して、直流電圧、或いは直
流と交流の重畳電圧を印加した帯電部材を被帯電体面に
接触させて被帯電体面を帯電処理する接触帯電装置かあ
り、これは電源の低圧化か図れる、オゾンの発生は微量
である等の長所を有していることから、例えば画像形成
装置において感光体・誘電体等の像担持体やその他の被
帯電体面を帯電処理する、コロナ帯電器に代わる手段機
器として注目され、次第に利用されるようになりできて
いる。
In contrast to such corona chargers, there is a contact charging device that charges the surface of the object by bringing a charging member to which a DC voltage or a superimposed voltage of DC and AC is applied to the surface of the object to be charged. Because it has the advantages of being able to achieve low pressure and generating only a small amount of ozone, it is used, for example, in corona, which is used to charge the surface of image carriers such as photoreceptors and dielectrics, and other objects to be charged in image forming apparatuses. It has attracted attention as an alternative to chargers and is gradually being used.

例えば、被帯電体としての感光体面に帯電部材としての
導電性ローラ(帯電ローラ)を接触させて、該ローラに
数100v〜2KV程度の正又は負の直流電圧、或いは
直流電圧を印加したときの感光体の帯電開始電圧の2倍
以上のピーク間電圧を有する振動電圧(交互電圧二交流
電圧など時間とともに電圧値が周期的に変化する電圧)
と直流電圧との重畳電圧を印加することで感光体面を数
100V〜1.5KVに帯電するものである。
For example, when a conductive roller (charging roller) as a charging member is brought into contact with the surface of a photoreceptor as an object to be charged, and a positive or negative DC voltage of several 100V to 2KV or a DC voltage is applied to the roller. Oscillating voltage that has a peak-to-peak voltage that is more than twice the charging start voltage of the photoreceptor (voltage whose voltage value changes periodically over time, such as alternating voltage and two-ac voltage)
The surface of the photoreceptor is charged to several hundreds of volts to 1.5 kilovolts by applying a superimposed voltage of the voltage and the direct current voltage.

帯電部材はローラ型の他にも、プレート型、ブラシ型・
ロッド型・横長ブロック型・ヘルド型・バット型等の適
宜の形態のものとすることかできる。
In addition to roller type charging members, plate type, brush type,
It can be of any suitable shape, such as a rod type, oblong block type, heald type, or bat type.

(発明が解決しようとする問題点) 接触帯電の帯電部材は被帯電体面に所定の押圧力をもっ
て接触させて帯電を実行させるから被帯電体面上の各種
の付着異物をひろって汚れやすい。
(Problems to be Solved by the Invention) Since the charging member for contact charging performs charging by bringing it into contact with the surface of the object to be charged with a predetermined pressing force, it tends to collect various foreign matters on the surface of the object to be charged and become dirty.

例えば転写式の画像形成装置ではクリーニング手段で清
掃除去されるへき像担持体面上の転写残りの残留現像剤
(トナー)、トナーに外添されるサブミクロンオーダー
(1μm以下)のシリカ粒子、樹脂微粉、転写紙の紙粉
やタルク分、その他の付着異物の一部がクリーニング手
段をくぐり抜けてしまったとき、それが像担持体の帯電
手段として該像担持体面に接触している帯電部材の位置
へ至り、該帯電部材に付着して該帯電部材面を汚す。
For example, in a transfer-type image forming apparatus, residual developer (toner) remaining after transfer on the surface of the image carrier that is cleaned and removed by the cleaning means, silica particles of submicron order (1 μm or less) added externally to the toner, fine resin powder When some of the paper powder, talc, or other foreign matter on the transfer paper passes through the cleaning means, it is transferred to the position of the charging member that is in contact with the surface of the image carrier as a charging means for the image carrier. As a result, it adheres to the charging member and stains the surface of the charging member.

像担持体面のクリーニング手段かクリーニングプレート
を用いるものであるときは時として装置始動時に所謂プ
レートめくれを生しることがあり、そのようなプレート
めくれを生じたときは多量の異物か帯電部材の位置へ至
ってしまい帯電部材面か汚損(汚染)される。
When a cleaning means or a cleaning plate is used for cleaning the surface of the image carrier, so-called plate turning may sometimes occur when the apparatus is started, and when such plate turning occurs, there may be a large amount of foreign matter or the position of the charging member. As a result, the surface of the charging member becomes dirty (contaminated).

プレートめくれ現象は特に、像担持体とクリーニングプ
レートかともに新品のとき装置起動時に両者間に働く摩
擦力か非常に大きいことで発生し易いことから、通常、
新品のブレードのエツジ部にはポリフッ化どニリデン樹
脂(P、V、D、F)粉末等の潤滑剤が塗布処理されて
いるのであるか、像担持体・接触帯電部材・現像器・ク
リーニング手段等を一体のユニットにして画像形成装置
本体に対して着脱交換自在のプロセスカートリッジとし
た構成の装置の場合などでは、該プロセスカートリッジ
の装置本体に対する着脱操作時のショックでブレードに
対して塗布されている潤滑剤の一部が脱落して像担持体
面に付着して接触帯電部材の位置へ至ったり、プレート
が接触帯電部材の路上方に位置した配置構成のものにあ
っては上記の脱落潤滑剤が直接に接触帯電部材にふりか
かり、帯電部材面が脱落潤滑剤で汚される場合もある。
The plate turning phenomenon is particularly likely to occur when the image carrier and cleaning plate are new and the frictional force acting between them is very large when the device is started.
Is the edge of a new blade coated with a lubricant such as polynylidene fluoride resin (P, V, D, F) powder? In the case of an apparatus configured with a process cartridge that is made into an integrated unit and can be detached and replaced from the image forming apparatus main body, the blade may be coated due to the shock when the process cartridge is attached or removed from the apparatus main body. If some of the lubricant falls off and adheres to the surface of the image carrier and reaches the position of the contact charging member, or if the plate is located above the contact charging member, the lubricant may fall off. may fall directly onto the contact charging member, and the surface of the charging member may become contaminated with fallen lubricant.

接触帯電部材の被帯電体に対する接触面が上記のような
ことで汚損されると、被帯電体面の帯電処理に帯電ムラ
を生じさせる結果を招く。
If the contact surface of the contact charging member with respect to the object to be charged is contaminated as described above, this will result in uneven charging in the charging process of the surface of the object to be charged.

また接触帯電の付着汚損物の一部が被帯電体面に強固に
付着固化する事態を生じさせて同じく帯電ムラを生じさ
せることにもなる。そしてそのような帯電ムラは装置が
画像形成装置であれば出力画像の画質劣化となってあら
れれる。
Further, a part of the contaminants that adhere to the contact charging may adhere firmly to the surface of the object to be charged, resulting in uneven charging. If the apparatus is an image forming apparatus, such charging unevenness may result in deterioration of the image quality of the output image.

本発明は接触帯電における帯電部材の汚染化による上記
のような問題を解消することな(問題点を解決するため
の手段) 本発明は下記の構成を特徴とする接触帯電装置及び接触
帯電装置を用いた画像形成装置である。
The present invention does not solve the above problems caused by contamination of the charging member in contact charging (means for solving the problems).The present invention provides a contact charging device and a contact charging device characterized by the following configuration. This is the image forming apparatus used.

(1)帯電部材を被帯電体面に接触させて被帯電体面を
帯電処理する接触式の帯電装置に右いて、帯電部材の被
帯電体面に対する接触面をクリーニングする手段を具備
させたこと特徴とする接触帯電装置。
(1) A contact type charging device that charges the surface of the charged object by bringing the charging member into contact with the surface of the charged object is characterized in that the charging device is equipped with a means for cleaning the contact surface of the charging member with respect to the surface of the charged object. Contact charging device.

(2)帯電部材は回転体であることを特徴とする(1)
項記載の接触帯電装置。
(2) The charging member is a rotating body (1)
The contact charging device described in .

(3)帯電部材に対してクリーニング手段のクリーニン
グ部材が当接しており、クリーニング部材は帯電部材と
の帯電系列上、帯電部材に付着する異物の極性とは逆極
性の摩擦帯電性を有することを特徴とする(1)項又は
(2)項記載の接触帯電装置。
(3) The cleaning member of the cleaning means is in contact with the charging member, and due to the charging sequence with the charging member, the cleaning member has frictional charging property that is opposite in polarity to the polarity of the foreign matter adhering to the charging member. The contact charging device according to feature (1) or (2).

(4)クリーニング部材は回転体である(3)項記載の
接触帯電装置。
(4) The contact charging device according to item (3), wherein the cleaning member is a rotating body.

(5)クリーニング部材に接して、帯電部材からクリー
ニング部材へ移行した異物をクリーニング従って帯電部
材の被帯電体に対する当接面がクリーニング部材上の付
着異物の極性とは逆極性の摩擦帯電性を有することを特
徴とする(3)項又は(4)項記載の接触帯電装置。
(5) Cleaning foreign matter that has migrated from the charging member to the cleaning member when in contact with the cleaning member. Therefore, the surface of the charging member that comes into contact with the charged object has triboelectric charging properties that are opposite in polarity to the polarity of the foreign matter adhering to the cleaning member. The contact charging device according to item (3) or item (4), characterized in that:

(6)少なくとも、像担持体と、該像担持体を帯電処理
する接触式の帯電装置とを装置本体に対して着脱自在の
プロセスカートリッジとした画像形成装置であり、帯電
部材をクリーニングする手段のクリーニング部材に接す
るスクレーパーを該プロセスカートリッジ側に有し、該
クレーパーはプロセスカートリッジの露光用開口部のシ
ャッターを兼ねることを特徴とする画像形成装置。
(6) An image forming apparatus in which at least an image bearing member and a contact type charging device for charging the image bearing member are configured as a process cartridge that can be freely attached to and detached from the main body of the apparatus, and a means for cleaning the charging member is provided. An image forming apparatus characterized in that a scraper in contact with a cleaning member is provided on the process cartridge side, and the scraper also serves as a shutter for an exposure opening of the process cartridge.

(作 用) 被帯電体面から接触帯電部材に対して異物が移行しても
、異物がふりかかる等で直接に付着しても帯電部材表面
の付着異物はクリーニング手段が存在することで該クリ
ーニング手段で除去されて帯電部材面の異物による汚染
が防止される。
(Function) Even if foreign matter transfers from the surface of the object to be charged to the contact charging member, or even if the foreign matter is directly attached to the contact charging member by being sprinkled, the foreign matter adhering to the surface of the charging member will be removed by the presence of the cleaning means. This prevents the surface of the charging member from being contaminated by foreign matter.

部材の汚染化による帯電ムラの発生、被帯電体面の汚染
物強固付着の発生が防止されて、長期にわたって安定し
た均一帯電性が維持される。
The occurrence of charging unevenness due to contamination of the member and the solid adhesion of contaminants to the surface of the charged object are prevented, and stable and uniform charging performance is maintained over a long period of time.

接触帯電装置を利用した画像形成装置にあっては高画質
の維持が可能となる。
In an image forming apparatus using a contact charging device, it is possible to maintain high image quality.

クリーニング手段はクリーニング部材を帯電部材面に接
触させ、この場合該クリーニング部材は帯電部材との帯
電系列上、帯電部材に付着する異物の極性とは逆極性の
摩擦帯電性を有するものとすることで、帯電部材の付着
異物がクリーニング部材側へ静電的に効率的に付着して
除去され、帯電部材のクリーニング部材によるクリーニ
ング効率がよくなる。
The cleaning means brings a cleaning member into contact with the surface of the charging member, and in this case, the cleaning member has a triboelectric charging property that is opposite in polarity to the polarity of the foreign matter adhering to the charging member due to the charging sequence with the charging member. The foreign matter adhering to the charging member is electrostatically and efficiently adhered to the cleaning member side and removed, thereby improving the cleaning efficiency of the charging member by the cleaning member.

またクリーニング部材側へ移行した異物をクリーニング
部材から除去するスクレーパーをクリーニング部材に接
触させて設け、この場合該スクレーパーをクリーニング
部材との帯電系列上、クリーニング部材上の付着異物の
極性とは逆極性の摩擦帯電性を有するものとすることで
、クリーニング部材の付着異物がスクレーパー側へ静電
的に効率的に付着して除去され、クリーニング部材のり
クリーニング効率がよく、クリーニング部材による帯電
部材のクリーニング効率が長期にわたって安定・良好に
維持される。
In addition, a scraper is provided in contact with the cleaning member to remove foreign matter that has migrated to the cleaning member. By having triboelectric properties, foreign matter adhering to the cleaning member is electrostatically and efficiently adhered to the scraper side and removed, the cleaning member has good glue cleaning efficiency, and the efficiency of cleaning the charged member by the cleaning member is improved. Stable and well maintained over a long period of time.

スクレーパーは、像担持体と接触帯電部材を含むプロセ
スカートリッジを装置本体に対して着脱自在に使用する
ようにした画像形成装置におけるプロセスカートリッジ
の露光用開口部のシャッターを兼用させるようにするこ
とで、プロセスカートリッジの簡略化ができる。
The scraper doubles as the shutter of the exposure opening of the process cartridge in an image forming apparatus in which the process cartridge including an image carrier and a contact charging member is detachably attached to the apparatus main body. The process cartridge can be simplified.

(実施例) 〈実施例工〉 第1図は一実施例としての画像形成装置の概略構成図で
ある。
(Example) <Example Work> FIG. 1 is a schematic configuration diagram of an image forming apparatus as an example.

本例の画像形成装置は電子写真プロセス利用のレーザー
ビームプリンタである。
The image forming apparatus of this example is a laser beam printer using an electrophotographic process.

lは被帯電体としての像担持体であり、本例は矢印の反
時計方向に所定の周速度(プロセススど一ト)をもフて
回転駆動されるトラム型のopc感光体(有機半導体、
以下、感光ドラムと記す)である。
1 is an image carrier as an object to be charged, and in this example, a tram-shaped OPC photoreceptor (organic semiconductor ,
(hereinafter referred to as a photosensitive drum).

2はこの感光ドラム1面を一様に一次帯電処理する接触
帯電部材としての帯電ローラである。
Reference numeral 2 denotes a charging roller serving as a contact charging member for uniformly primary charging the surface of the photosensitive drum.

本例の帯電ローラ2は、芯金2aと、該芯金2aのまわ
りに同心一体に成形した、カーボンを分散させた導電ゴ
ムローラ部2bと、その外周に順次に形成した高抵抗被
膜層とナイロン被膜最外層の多層構成よりなる。高抵抗
被膜層は帯電ローラ2か接する感光ドラム1面にどンホ
ール等の欠陥部か生じたときに帯電ローラ2からのに対
応した静電潜像か順次に形成されていく。
The charging roller 2 of this example includes a core metal 2a, a conductive rubber roller portion 2b formed concentrically around the core metal 2a and containing carbon dispersed therein, a high-resistance coating layer formed sequentially on the outer periphery, and a nylon conductive rubber roller portion 2b formed concentrically around the core metal 2a. It consists of a multilayer structure with the outermost layer of the coating. In the high-resistance coating layer, when a defect such as a hole occurs on the surface of the photosensitive drum 1 in contact with the charging roller 2, an electrostatic latent image corresponding to that from the charging roller 2 is sequentially formed.

最外層はゴムローラ部2bからの残留溶剤のしみ出しを
防止する作用をなすもので、1〜20μmの厚さで形成
しである。
The outermost layer serves to prevent residual solvent from seeping out from the rubber roller portion 2b, and is formed to have a thickness of 1 to 20 μm.

この帯電ローラは芯金2aの両端部を不図示の軸受部に
回転自由に軸受保持させて感光トラム1にほぼ並行に配
列し、ばね等の押圧手段2cで感光ドラム1面に対して
所定の押圧力をもって常時圧接させており、感光ドラム
1の回転駆動に伴なって従動回転する。
This charging roller is arranged almost parallel to the photosensitive tram 1 with both ends of a core metal 2a rotatably supported by bearings (not shown), and is pressed against the surface of the photosensitive drum 1 by a pressing means 2c such as a spring. The photosensitive drum 1 is constantly pressed against the photosensitive drum 1 and rotates as the photosensitive drum 1 is rotated.

この帯電ローラ2に対して不図示のバイアス印加電源か
らバイアス電圧が印加されることで回転感光ドラム1の
周面が所定の極性(本例では負)・電位に接触帯電方式
で一様に一次帯電処理される。
By applying a bias voltage to this charging roller 2 from a bias applying power source (not shown), the circumferential surface of the rotating photosensitive drum 1 is uniformly primary charged to a predetermined polarity (negative in this example) and potential using a contact charging method. Charged.

一次帯電処理された感光ドラム1面に対してレーザース
キャナ3から出力される、目的画像情報の時系列電気デ
ジタル画素信号に対応して変調されたレーザーど−ムに
よる走査露光りがなされることで、感光ドラム1面に目
的画像情報次いでその形成静電潜像か現像器4により反
転現像される。4aは現像器箱、4bは現像スリーブ、
tは収容現像剤、4Cは現像剤攪拌板を示している。現
像剤tは本例のものはスチレン−アクリルを主成分とす
る一成分負極性磁性トナーであり、これに流動性の向上
、帯電電荷量の増大・安定を目的として転写ネカシリカ
が0.8重量部外添されている。
By scanning and exposing one surface of the photosensitive drum that has been subjected to the primary charging process using a laser beam that is modulated in accordance with the time-series electric digital pixel signal of the target image information output from the laser scanner 3. Then, the electrostatic latent image formed on the surface of the photosensitive drum is reversely developed by the developing device 4. 4a is a developer box, 4b is a developer sleeve,
t indicates a contained developer, and 4C indicates a developer stirring plate. The developer t in this example is a one-component negative magnetic toner mainly composed of styrene-acrylic, and 0.8 weight of transferred Neka Silica is added to this for the purpose of improving fluidity and increasing and stabilizing the amount of charged charge. It is attached externally.

その反転現像トナー像か感光トラム1と転写手段として
の転写ローラ5との間の転写部に、不図示の給紙手段側
から適切なタイミングで給送された転写材P面に対して
転写されていく。
The reverse developed toner image is transferred onto the surface of the transfer material P fed at appropriate timing from a paper feeding means (not shown) to the transfer portion between the photosensitive tram 1 and the transfer roller 5 as a transfer means. To go.

トナー像の転写を受けた転写材Pは感光ドラム1面から
分離されて不図示の定着器へ導入されて像定着を受け、
画像形成物(プリント)として出力される。
The transfer material P to which the toner image has been transferred is separated from one surface of the photosensitive drum and introduced into a fixing device (not shown), where the image is fixed.
It is output as an image formation (print).

像転写後の感光ドラム面はクリーニング装置6で感光ド
ラム1面の報写残り残留現像剤やその他のドラム面付着
汚染物の除去処理を受けて清浄面化され、再び帯電ロー
ラ2による一次帯電処理以下の作像プロセスを受けて縁
り返して作像に供される。
After the image transfer, the photosensitive drum surface is cleaned by a cleaning device 6 to remove residual developer remaining on the surface of the photosensitive drum and other contaminants attached to the drum surface, and then subjected to primary charging processing by the charging roller 2 again. After undergoing the following image forming process, the edges are turned over and used for image forming.

本例のクリーニング装置6はプレート式であり、6aは
クリーニング器箱、6bはゴム弾性を有するクリーニン
グブレード、6Cはスクイシートを示している。クリー
ニングブレードは感光トラム1の面移動方向に対してカ
ウンターの方向にして先端エツジ部を感光ドラム1面に
圧接させてあり、感光ドラム1面の付着汚染物がこのク
リーニングブレード6bの先端エツジ部で拭掃されてド
ラム面からかき取られクリーニング器箱6a内へ収容さ
れる。
The cleaning device 6 of this example is of a plate type, and 6a is a cleaning device box, 6b is a cleaning blade having rubber elasticity, and 6C is a scoop sheet. The cleaning blade is oriented counter to the direction of surface movement of the photosensitive tram 1, and its leading edge is brought into pressure contact with the surface of the photosensitive drum 1, and contaminants on the surface of the photosensitive drum 1 are removed by the leading edge of the cleaning blade 6b. It is wiped and scraped off the drum surface and stored in the cleaner box 6a.

感光ドラム1とクリーニングブレード6bがともに新品
のときには、前述したように、装置起動時に両者1・6
bの間に働く摩擦力が非常に大きくてプレートめくれ現
像が発生し易いので、通常クリーニングブレード6bの
エツジ部にはP−V−D−F粉末等の潤滑剤が塗布処置
されている。
When the photosensitive drum 1 and the cleaning blade 6b are both new, as described above, both 1 and 6 are connected to each other when the apparatus is started.
Since the frictional force acting between the cleaning blades 6b and 6b is very large and the plate is likely to turn over, a lubricant such as P-V-D-F powder is usually applied to the edge of the cleaning blade 6b.

本例の画像形成装置は、感光トラム1と、帯電ローラ2
と、現像器4と、クリーニング装置6の4つのプロセス
機器を所定の相互配置関係をもって共通のハウジングに
一体に組付けて、画像形成装置に対して着脱自在のプロ
セスカートリッジ10として構成しである。
The image forming apparatus of this example includes a photosensitive tram 1 and a charging roller 2.
Four process devices, namely, a developing device 4 and a cleaning device 6, are assembled into a common housing in a predetermined mutual arrangement to form a process cartridge 10 that can be freely attached to and removed from an image forming apparatus.

本例のプロセスカートリッジ10は感光ドラム1を中に
してその下側に現像器4を、上側にクリーニング装置6
を配列し、下側の現像器箱4aと、上側のクリーニング
器箱6aとの間にレーザービーム導入通路部8(露光用
開口部)を形成させである。
The process cartridge 10 of this example has a photosensitive drum 1 inside, a developing device 4 on the lower side, and a cleaning device 6 on the upper side.
are arranged, and a laser beam introduction passage 8 (exposure opening) is formed between the lower developer box 4a and the upper cleaner box 6a.

また帯電ローラ2は、上側のクリーニング器箱6aの底
面の感光ドラム1寄り部分を上方に凹ませてその凹み空
間内に配列してあり、該帯電ローラ2のほぼ上側にクリ
ーニングプレート6bが位置している。
Further, the charging roller 2 is arranged in the recessed space by recessing the bottom surface of the upper cleaning device box 6a upward toward the photosensitive drum 1, and the cleaning plate 6b is located almost above the charging roller 2. ing.

本例装置の場合は、転写ローラ5・転写材ガイド板7・
定着器(不図示)等を組付は支持させた不図示の可動の
装置前面板を開き操作することで装置本体内を開放状態
(2点鎖線示)にすることができ、その開放状態におい
てプロセスカートリッジ10を矢印a−bの方向て装置
本体に対して着脱操作できる。プロセスカートリッジ1
0を装置本体側の受け1989に所定に受けさせて装着
し、装置前面板を閉じ込むと、装置本体例とプロセスカ
ートリッジ10側とが機械的・電気的にカップリンク化
して装置が動作可能状態になる。
In the case of this example device, the transfer roller 5, the transfer material guide plate 7,
By opening and operating the movable front panel of the device (not shown) that supports the assembly of the fixing device (not shown), etc., the inside of the device main body can be brought into an open state (shown by a two-dot chain line). The process cartridge 10 can be attached to and detached from the main body of the apparatus in the direction of arrows a-b. Process cartridge 1
0 into the receiver 1989 on the device main body side and close the front panel of the device, the device main body and the process cartridge 10 side are mechanically and electrically linked, and the device is ready for operation. become.

11は接触帯電部材としての帯電ローラ2の表面を清掃
するクリーニング手段としての回転ブラシローラである
Reference numeral 11 denotes a rotating brush roller as a cleaning means for cleaning the surface of the charging roller 2 as a contact charging member.

本例装置では該ブラシローラ11は装置本体側に配設し
てあり、プロセスカートリッジ10か装置本体側に正規
に装着されたときプロセスカートリッジ10側の帯電ロ
ーラ2の外面に接触して対応する関係に配設しである。
In the apparatus of this example, the brush roller 11 is disposed on the apparatus main body side, and when the process cartridge 10 is properly installed in the apparatus main body side, it comes into contact with the outer surface of the charging roller 2 on the process cartridge 10 side. It is located in.

プロセスカートリッジ10の着脱移動過程では該ブラシ
ローラ11はプロセスカートリッジ10のレーザーど−
ム導入通路部8に対応してカートリッジ1oとの干渉を
生じないようになりでいる。
During the process of attaching and detaching the process cartridge 10, the brush roller 11
Corresponding to the system introduction passage section 8, interference with the cartridge 1o is prevented.

ブラシローラ11は本例ではカラス繊維を植毛したもの
で、繊維の径は約20μm、長さ3mm、植毛密度90
0本/ c mとした。
In this example, the brush roller 11 is made of flocked glass fibers, and the diameter of the fibers is approximately 20 μm, the length is 3 mm, and the flocking density is 90.
It was set to 0 pieces/cm.

そしてこのブラシローラ11を感光トラム1の回転駆動
に同期させて、感光ドラム1の回転駆動に伴ない従動回
転する帯電ローラ2と同方向に帯電ローラ2の1/4の
回転数で回転駆動し、両ローラ11・2の周速差により
帯電ローラ2の表面をブラシローラ11で摺擦させるよ
うにしである。
The brush roller 11 is synchronized with the rotation of the photosensitive drum 1 and driven to rotate in the same direction as the charging roller 2, which rotates as the photosensitive drum 1 rotates, at 1/4 of the rotation speed of the charging roller 2. , the surface of the charging roller 2 is rubbed by the brush roller 11 due to the difference in circumferential speed between the two rollers 11 and 2.

従ってクリーニングブレード6bをくぐり抜けて、或い
はプレートめくれの発生で帯電ローラ2の位置へ至り、
該ローラ面に付着したトナー・ネカシリカ・樹脂微粉・
紙粉・タルク分等、またクリーニングプレート6bの表
面から脱落して帯電ローラ2に付着したP・■・D−F
粉末などの帯電ローラ付着汚染物は該帯電ローラ2に接
触して摺擦しているブラシローラで帯電ローラ2面から
かき落されて或いは捕集除去されて、帯電ローラ2の感
光ドラム1に対する当接面が長期に渡フて常に清浄面状
態に維持され、帯電ローラ2の表面の汚染化による帯電
ムラの発生、感光ドラム1面の汚染物強固付着化の発生
が防止され、長期にわたり安定した均一帯電性の維持、
高画質の維持が可能となる。
Therefore, it passes through the cleaning blade 6b or reaches the position of the charging roller 2 due to the plate turning over.
Toner, Nekasilica, resin fine powder, etc. adhering to the roller surface
Paper powder, talc, etc., as well as P, ■, and D-F that have fallen off the surface of the cleaning plate 6b and adhered to the charging roller 2.
Contaminants such as powder adhering to the charging roller are scraped off or collected and removed from the surface of the charging roller 2 by a brush roller that is in contact with and rubbing against the charging roller 2, and the charging roller 2 is removed from the surface of the charging roller 2 when it comes into contact with the photosensitive drum 1. The contact surface is always maintained in a clean state over a long period of time, and uneven charging due to contamination on the surface of the charging roller 2 and solid adhesion of contaminants on the surface of the photosensitive drum 1 are prevented, and the surface is stable over a long period of time. Maintaining uniform charging properties,
It becomes possible to maintain high image quality.

また本実施例では、クリーニングプレート6bのエツジ
部に塗布処理しであるP−V−D−F粉末がネガ帯電性
の強い物質であり、この粉末は感光ドラム表面材料であ
るポリカーボネートや帯電ローラ2の最外層であるナイ
ロン被膜と摩擦接触して負極性に帯電することから、ブ
ラシローラ11のブラシは帯電ローラ2の最外層のナイ
ロン被膜との摺擦で正極性に帯電するガラス繊維を使用
しており、帯電ローラ2面に付着した負極性に帯電化し
たP−V−D−F粉末やネガシリカが正極性帯電のガラ
ス繊維ブラシローラ11に効果的に捕集(トラップ)さ
れる。
Further, in this embodiment, the P-V-D-F powder applied to the edge portion of the cleaning plate 6b is a highly negatively chargeable substance, and this powder is applied to polycarbonate, which is the surface material of the photosensitive drum, and the charging roller 2. The brush of the brush roller 11 is made of glass fiber, which is charged to a positive polarity by rubbing against the outermost nylon coating of the charging roller 2. The negatively charged P-V-D-F powder and negative silica adhering to the surface of the charging roller 2 are effectively trapped on the positively charged glass fiber brush roller 11.

トナー微粉やシリカ粒子等で汚染された帯電ローラ2に
より感光ドラム1面の帯電が続けられると、感光体表面
はシリカ粒子を核とした点状のドラム誘着が発生し易い
。これはトナーに対する外添シリカ量・感光トラム表面
材質・使用環境にも大きく依存するが、実験によれば外
添シソ力量が0.8重量部、ドラム表面がポリカーボネ
ート、環境が32.5°c−15%RHのときにはプリ
ントl000〜3000枚でドラム融着か発生した。
When the surface of the photosensitive drum continues to be charged by the charging roller 2 contaminated with toner fine powder, silica particles, etc., dots with silica particles as cores are likely to be attracted to the drum surface on the surface of the photosensitive member. This greatly depends on the amount of externally added silica to the toner, the surface material of the photosensitive drum, and the usage environment, but according to experiments, the amount of externally added silica was 0.8 parts by weight, the drum surface was polycarbonate, and the environment was 32.5°C. At -15% RH, drum fusion occurred after 1,000 to 3,000 prints.

これに対して本実施例の装置においては帯電ローラ2に
クリーニング段11を具備させたことにより、前記ドラ
ム融着が10,000枚以上のプリントにおいても生じ
なかったばかりではなく、プロセスカートリッジ使用初
期に起き易いP−V−D−F粉末による帯電ローラ汚染
をも防ぐことか可能に〈実施例2〉 本実施例(第2図)は実施例1(第1図)のものにおい
てブラシローラ11で帯電ローラ2面からトラップした
シリカ粒子・トナー微粉等をブラシローラ11からスク
レーパー12でスクレープする構成としたものである。
On the other hand, in the apparatus of this embodiment, since the charging roller 2 is equipped with the cleaning stage 11, not only does the drum fusion not occur even when printing more than 10,000 sheets, but also when the process cartridge is initially used. It is also possible to prevent the charging roller from being contaminated easily by P-V-D-F powder (Example 2) This example (Fig. 2) differs from that of Example 1 (Fig. 1) in that the brush roller 11 is The brush roller 11 is configured to scrape silica particles, toner fine powder, etc. trapped from the charging roller 2 surface with a scraper 12.

スフレバー12はプロセスカートリッジ10のクリーニ
ング器箱6aの手前側と奥側の両端板に夫々設けた一対
の並行四辺形リンク機構!3の下端側に、レーザービー
ム導入通路部8内において上下並行移動自由に支持させ
である。
The souffle bar 12 is a pair of parallelogram link mechanisms provided on both the front and back end plates of the cleaning device box 6a of the process cartridge 10! 3 is supported so that it can move vertically and parallelly within the laser beam introduction passage 8.

そして並行四辺形リンク機構13はねじつばね13aで
常時図面上時計方向に回動付勢させて右り、カートリッ
ジ!0が装置本体から外された非装着状態のときは、ス
クレーパー12は並行四辺形リンク機構13の上記の回
動付勢力でクリーニング器箱6aの底板下面に2点鎖線
示のように押し当たり状態になるまでレーザービーム導
入通路部8内を上方へ並行移動して退避した状態に保持
されている。
Then, the parallelogram link mechanism 13 is constantly urged to rotate clockwise in the drawing by the screw spring 13a, and the cartridge is moved to the right! 0 is removed from the main body of the apparatus, the scraper 12 is pressed against the lower surface of the bottom plate of the cleaning device box 6a by the above-mentioned rotation biasing force of the parallelogram link mechanism 13 as shown by the two-dot chain line. The laser beam is moved upward in parallel in the laser beam introduction passage section 8 until the laser beam introduction passage 8 is reached, and is maintained in a retracted state.

プロセスカートリッジ10を装置本体に挿入装着すると
挿入終点の少し手前で並行四辺形リンク機構13側の突
子13bが装置本体側のストッパ14に接して受は止め
られ、その状態でプロセスカートリッジ10か挿入終点
まで挿入されることで並行四辺形リンク機構13かねじ
りばね13aに抗して反時計方向へ回動し、スクレーパ
ー12かレーザーど−ム導入通路8内を下方へ並行移動
して該スクレーパー12の先端辺に辺に沿って設けたポ
リエチレンテレフタートフイルム(シート)やポリエチ
レンフィルム(シート)等の比較的腰のある接触片12
aかブラシローラ11に接触化した状態になり、プロセ
スカートリッジ10か装置本体に装着されている限りそ
の状態が保たれる。
When the process cartridge 10 is inserted into the main body of the apparatus, the protrusion 13b on the side of the parallelogram link mechanism 13 comes into contact with the stopper 14 on the main body of the apparatus a little before the insertion end point, and the receiver is stopped, and in this state, the process cartridge 10 is inserted. When it is inserted to the end point, the parallelogram link mechanism 13 rotates counterclockwise against the torsion spring 13a, and the scraper 12 moves parallel downward in the laser beam introduction passage 8 to remove the scraper 12. A relatively stiff contact piece 12 made of polyethylene tereft film (sheet) or polyethylene film (sheet) provided along the edge of the tip of the
A is brought into contact with the brush roller 11, and this state is maintained as long as the process cartridge 10 is attached to the apparatus main body.

ブラシローラ11は回転時に上記スクレーパー12の接
触片12aでスクレープされる。ブラシローラ11でト
ラップした帯電ローラ2面のシリカ粒子やトナー微粉等
がスクレーパー12の上#jに保持されて機内飛散が最
小限になるように本実施例ではブラシローラ11の回転
方向を帯電ローラ2と逆方向としている。
The brush roller 11 is scraped by the contact piece 12a of the scraper 12 during rotation. In this embodiment, the direction of rotation of the brush roller 11 is set so that the silica particles, toner fine powder, etc. on the surface of the charging roller 2 that are trapped by the brush roller 11 are retained on the top #j of the scraper 12 and scattering inside the machine is minimized. The direction is opposite to 2.

スクレーパー12のブラシローラに対する接触片12a
は前記のようにポリエチレンテレフタレートやポリエチ
レン等のフィルムとしてあり、この接触片12aはブラ
シローラ11のガラス繊維との関係において摩擦帯電系
列上、正極性に帯電する。そのため帯電ローラ2面から
ブラシローラ11にトラップされた負極性のP−V−D
−F粉末やネガシリカがスクレーパーの接触片12a側
に静電的に効率的に移行して帯電ローラ2のクリーニン
グ部材としてのブラシローラ11のリフリーニングが効
率的になされる。
Contact piece 12a for the brush roller of the scraper 12
As described above, the contact piece 12a is a film made of polyethylene terephthalate, polyethylene, or the like, and the contact piece 12a is positively charged due to the frictional charging series in relation to the glass fiber of the brush roller 11. Therefore, the negative polarity P-V-D trapped from the charging roller 2 surface to the brush roller 11
The -F powder and negative silica are electrostatically and efficiently transferred to the contact piece 12a side of the scraper, so that the brush roller 11, which serves as a cleaning member for the charging roller 2, is efficiently refined.

スクレーパー12は上記のようにプロセスカートリッジ
10の装置本体に対する着脱に連動させてブラシローラ
11に対する作用位置と、退避位置とに可動する構成と
したから、プロセスカートリッジ10の着脱移動過程で
スクレーパー12とブラシローラ11とが干渉してカー
トリッジの着脱に支障をきたすことかない。
As described above, the scraper 12 is configured to move between the action position and the retracted position relative to the brush roller 11 in conjunction with the attachment and detachment of the process cartridge 10 to and from the main body of the apparatus. There is no interference between the roller 11 and the roller 11, which interferes with the attachment and detachment of the cartridge.

〈実施例3〉 本実施例(第3図)はブラシローラ11に対するスクレ
ーパー12を、プロセスカートリッジ10が装置本体か
ら抜き外されているときはレーザービーム導入通路部8
の開口部を閉じ状態に保持するシャツタ板を兼ねるよう
にしたものである。
<Embodiment 3> In this embodiment (FIG. 3), the scraper 12 for the brush roller 11 is moved to the laser beam introduction passage 8 when the process cartridge 10 is removed from the apparatus main body.
It is designed to also serve as a shirt flap plate that holds the opening in the closed state.

即ちスクレーパー12は軸12bを中心に回動自由であ
り、カートリッジ10が装置本体から抜き外されている
ときは自重により或いは閉じばねの付勢力で2点鎖線示
のように垂下回動してシャツタ板としてカートリッジ1
0のレーザービーム導入通路部8の開口部を閉塞してい
る。
That is, the scraper 12 is freely rotatable about the shaft 12b, and when the cartridge 10 is removed from the main body of the apparatus, it is moved downward by its own weight or by the biasing force of the closing spring as shown by the two-dot chain line, and the shirt strip is removed. Cartridge 1 as a plate
The opening of the laser beam introduction passage section 8 of No. 0 is closed.

このカートリッジ10を装置本体に挿入装着するとその
挿入過程で挿入に連動してシャツタ板としてのスクレー
パー12が自重に抗して又は閉じばねに抗して実線水の
ように通路部8の内方に略水平にはね上げられてレーザ
ーど−ム導入通路部8の開口部が開放され、プロセスカ
ートリッジが挿入終点に挿入された状態においてはその
スクレーパー12の先端エツジ部か、帯電ローラ2に接
触化したブラシローラ11に接触した状態になり、カー
トリッジ10か装置本体に装着されている限りはその状
態が保たれる。
When this cartridge 10 is inserted into the main body of the apparatus, during the insertion process, the scraper 12 as a shutter plate moves inward of the passage part 8 like a solid line water against its own weight or against the closing spring. When the process cartridge is flipped up almost horizontally to open the opening of the laser beam introduction passage 8 and the process cartridge is inserted at the end of insertion, the tip edge of the scraper 12 or the brush that has come into contact with the charging roller 2 It comes into contact with the roller 11, and this state is maintained as long as the cartridge 10 is attached to the main body of the apparatus.

スクレーパー12はカートリッジ10の装置本体に対す
る挿入時に手動ではね上げて開き状態にロックさせても
よい。
The scraper 12 may be manually flipped up and locked in the open state when the cartridge 10 is inserted into the apparatus main body.

本実施例は低コストで実施例2と同等の効果が得れられ
る。
This embodiment can provide the same effects as the second embodiment at low cost.

実施例1〜3において接触帯電部材はローラ型に限らず
、回動ベルト型・ウェブ型・ブレード型・バッド型・ブ
ロック型・ロッド型等であってもよい。ブレード型等の
静止型の帯電部材の場合、クリーニング手段は該クリー
ニング手段と被帯電体面との接触ニップ部の縁部にたま
る異物をかき落す或いは拭掃して除去清浄する作用をす
るものとすればよい。
In Examples 1 to 3, the contact charging member is not limited to a roller type, but may be a rotating belt type, a web type, a blade type, a pad type, a block type, a rod type, or the like. In the case of a stationary charging member such as a blade type, the cleaning means has the function of scraping or wiping foreign matter accumulated at the edge of the contact nip between the cleaning means and the surface of the object to be charged. Bye.

クリーニング手段としてのブラシローラ11はその他、
回動ベルト体・ブレード体・ウェブ体・バット体等の形
態のものにすることもてきる。
In addition, the brush roller 11 as a cleaning means,
It can also be in the form of a rotating belt body, a blade body, a web body, a bat body, etc.

クリーニング手段11は帯電部材2が実施例1〜3のよ
うに装置本体に着脱されるプロセスカートリッジ10側
に配設されていれば、同しくプロセスカートリッジ10
側に配設具備させてもよい。
If the charging member 2 is disposed on the side of the process cartridge 10 that is attached to and detached from the main body of the apparatus as in the first to third embodiments, the cleaning means 11 is also attached to the process cartridge 10.
Equipment may also be provided on the side.

(発明の効果) 以上のように本発明によれば、接触式の帯電装置につい
て、帯電部材の汚染やその汚染物質の被帯電体面に対す
る付着固化に起因する帯電ムラの発生を防止して良好な
均一帯電性を長期にわたりて維持することができ、該帯
電装置を利用した画像形成装置にあっては帯電ムラに起
因する出力画像の画質低下を防止して良好な画質の画像
を安定に出力させることが可能となる。
(Effects of the Invention) As described above, according to the present invention, a contact-type charging device can prevent charging unevenness caused by contamination of a charging member and the adhesion and hardening of contaminants to the surface of a charged object, thereby achieving good results. Uniform charging properties can be maintained over a long period of time, and image forming apparatuses using this charging device can stably output images of good quality by preventing deterioration in the quality of output images caused by uneven charging. becomes possible.

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

第1図乃至第3図は夫々第1乃至第3の実施例の装置の
概略構成図である。 1は被帯電体としての感光ドラム、2は帯電部材として
の帯電ローラ、11は帯電部材のクリーニング部材とし
てのブラシローラ、12・12aはスクレーパー 代 理 人 同 梨 幸
1 to 3 are schematic configuration diagrams of apparatuses of first to third embodiments, respectively. 1 is a photosensitive drum as an object to be charged, 2 is a charging roller as a charging member, 11 is a brush roller as a cleaning member for the charging member, and 12 and 12a are scraper agent Riyuki Dou.

Claims (6)

【特許請求の範囲】[Claims] (1)帯電部材を被帯電体面に接触させて被帯電体面を
帯電処理する接触式の帯電装置において、帯電部材の被
帯電体面に対する接触面をクリーニングする手段を具備
させたこと特徴とする接触帯電装置。
(1) A contact charging device that charges the surface of the object to be charged by bringing the charging member into contact with the surface of the object to be charged, characterized in that it is equipped with means for cleaning the contact surface of the charging member with respect to the surface of the object to be charged. Device.
(2)帯電部材は回転体であることを特徴とする請求項
1記載の接触帯電装置。
(2) The contact charging device according to claim 1, wherein the charging member is a rotating body.
(3)帯電部材に対してクリーニング手段のクリーニン
グ部材が当接しており、該クリーニング部材は帯電部材
との帯電系列上、帯電部材に付着する異物の極性とは逆
極性の摩擦帯電性を有することを特徴とする請求項1又
は同2記載の接触帯電装置。
(3) The cleaning member of the cleaning means is in contact with the charging member, and the cleaning member has a triboelectric charging property that is opposite in polarity to the polarity of the foreign matter adhering to the charging member due to the charging sequence with the charging member. The contact charging device according to claim 1 or 2, characterized in that:
(4)クリーニング部材は回転体である請求項3記載の
接触帯電装置。
(4) The contact charging device according to claim 3, wherein the cleaning member is a rotating body.
(5)クリーニング部材に接して、帯電部材からクリー
ニング部材へ移行した異物をクリーニング部材から除去
するスクレーパーを有し、該スクレーパーはクリーニン
グ部材との帯電系列上、クリーニング部材上の付着異物
の極性とは逆極性の摩擦帯電性を有することを特徴とす
る請求項3又は同4記載の接触帯電装置。
(5) A scraper is provided in contact with the cleaning member to remove foreign matter transferred from the charging member to the cleaning member, and the scraper has a polarity of the foreign matter adhering to the cleaning member due to the charging sequence with the cleaning member. 5. The contact charging device according to claim 3, wherein the contact charging device has reverse polarity triboelectrification.
(6)少なくとも、像担持体と、該像担持体を帯電処理
する接触式の帯電装置とを装置本体に対して着脱自在の
プロセスカートリッジとした画像形成装置であり、帯電
部材をクリーニングする手段のクリーニング部材に接す
るスクレーパーを該プロセスカートリッジ側に有し、 該クレーパーはプロセスカートリッジの露光用開口部の
シャッターを兼ねることを特徴とする画像形成装置。
(6) An image forming apparatus in which at least an image bearing member and a contact type charging device for charging the image bearing member are configured as a process cartridge that can be freely attached to and detached from the main body of the apparatus, and a means for cleaning the charging member is provided. An image forming apparatus comprising: a scraper in contact with a cleaning member on the process cartridge side; the scraper also serving as a shutter for an exposure opening of the process cartridge.
JP17247690A 1990-06-29 1990-06-29 Contact electrifier and image forming device Pending JPH0460660A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP17247690A JPH0460660A (en) 1990-06-29 1990-06-29 Contact electrifier and image forming device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP17247690A JPH0460660A (en) 1990-06-29 1990-06-29 Contact electrifier and image forming device

Publications (1)

Publication Number Publication Date
JPH0460660A true JPH0460660A (en) 1992-02-26

Family

ID=15942696

Family Applications (1)

Application Number Title Priority Date Filing Date
JP17247690A Pending JPH0460660A (en) 1990-06-29 1990-06-29 Contact electrifier and image forming device

Country Status (1)

Country Link
JP (1) JPH0460660A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1229399A1 (en) 2001-01-25 2002-08-07 Ricoh Company, Ltd. Cleaning device and image forming apparatus
JP2005274623A (en) * 2004-03-22 2005-10-06 Fuji Xerox Co Ltd Image forming apparatus for continuous paper
JP2006268021A (en) * 2005-02-22 2006-10-05 Canon Inc Charging apparatus, process cartridge, and image forming apparatus
JP2007298673A (en) * 2006-04-28 2007-11-15 Kyocera Mita Corp Charging roller cleaning device and image forming apparatus
US7395011B2 (en) 2005-05-27 2008-07-01 Kyocera Mita Corporation Image forming apparatus with cleaning device for removing remaining toner from outer surface of photosensitive member
US7471918B2 (en) 2005-10-31 2008-12-30 Kyocera Mita Corporation Image forming apparatus using an electrophotographic photoconductor and method of using the same
JP2021105738A (en) * 2016-07-22 2021-07-26 キヤノン株式会社 Image forming apparatus, process cartridge, development cartridge and drum cartridge

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1229399A1 (en) 2001-01-25 2002-08-07 Ricoh Company, Ltd. Cleaning device and image forming apparatus
JP2005274623A (en) * 2004-03-22 2005-10-06 Fuji Xerox Co Ltd Image forming apparatus for continuous paper
JP2006268021A (en) * 2005-02-22 2006-10-05 Canon Inc Charging apparatus, process cartridge, and image forming apparatus
US7395011B2 (en) 2005-05-27 2008-07-01 Kyocera Mita Corporation Image forming apparatus with cleaning device for removing remaining toner from outer surface of photosensitive member
US7471918B2 (en) 2005-10-31 2008-12-30 Kyocera Mita Corporation Image forming apparatus using an electrophotographic photoconductor and method of using the same
JP2007298673A (en) * 2006-04-28 2007-11-15 Kyocera Mita Corp Charging roller cleaning device and image forming apparatus
JP2021105738A (en) * 2016-07-22 2021-07-26 キヤノン株式会社 Image forming apparatus, process cartridge, development cartridge and drum cartridge

Similar Documents

Publication Publication Date Title
JPH0980998A (en) Image forming device
JP2004117960A (en) Image forming apparatus
JPH10307456A (en) Image forming device
JPH10307454A (en) Electrifying method and device, image forming device and process cartridge
JP3292155B2 (en) Image forming device
JP3647263B2 (en) Image recording device
JP3320356B2 (en) Image forming device
JPH0460660A (en) Contact electrifier and image forming device
JP4469453B2 (en) Developing apparatus and image recording apparatus
JPH02108091A (en) Image forming device
JPH0143307B2 (en)
JP3327106B2 (en) Image forming device
JP3315642B2 (en) Image forming device
JP3852225B2 (en) Image forming apparatus
JPH0736322A (en) Image forming device
JP3647264B2 (en) Image forming apparatus
JP6632292B2 (en) Image forming device
JP3647265B2 (en) Image forming apparatus
JPS60107675A (en) Cleaning device
JP3805113B2 (en) Charging method, charging device, and image recording apparatus using the charging device
JP2001042732A (en) Image forming device
JPH11153897A (en) Electrifying method, electrifying device, image forming device and process cartridge
JP3359285B2 (en) Charging method, charging device, and image recording apparatus using the charging device
JP2003162160A (en) Image forming apparatus
JPH03228081A (en) Image forming device