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JPS5993469A - Electrophotographic device - Google Patents

Electrophotographic device

Info

Publication number
JPS5993469A
JPS5993469A JP57203003A JP20300382A JPS5993469A JP S5993469 A JPS5993469 A JP S5993469A JP 57203003 A JP57203003 A JP 57203003A JP 20300382 A JP20300382 A JP 20300382A JP S5993469 A JPS5993469 A JP S5993469A
Authority
JP
Japan
Prior art keywords
exposure
electrophotographic apparatus
surface potential
light
photoreceptor
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
JP57203003A
Other languages
Japanese (ja)
Inventor
Yasuo Nishiwaki
保夫 西脇
Masaichiro Tachikawa
雅一郎 立川
Toshiharu Sasaki
俊治 佐々木
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 JP57203003A priority Critical patent/JPS5993469A/en
Publication of JPS5993469A publication Critical patent/JPS5993469A/en
Pending legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G15/00Apparatus for electrographic processes using a charge pattern
    • G03G15/04Apparatus for electrographic processes using a charge pattern for exposing, i.e. imagewise exposure by optically projecting the original image on a photoconductive recording material
    • G03G15/043Apparatus for electrographic processes using a charge pattern for exposing, i.e. imagewise exposure by optically projecting the original image on a photoconductive recording material with means for controlling illumination or exposure

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Exposure Or Original Feeding In Electrophotography (AREA)
  • Control Or Security For Electrophotography (AREA)

Abstract

PURPOSE:To adjust at least either of copy density and contrast by detecting the surface potential of recording information on a photosensitive body after exposure and adjusting the amount of exposure of the 2nd exposing means according to the detected value. CONSTITUTION:An original 14 is exposed to the surface of the photosensitive drum 4 to form an electrostatic latent image on the drum 4. The potential of this latent image is detected by a surface potential detecting means 20. The detecting means 20 consists of plural PLZT elements, etc., so as to measure the latent images as divided picture elements. Signals from the respective elements of the detecting means are operated by an operation control means 22 and then stored. The 2nd exposing means 21 have light emitting diodes corresponding to the elements of the detecting means. When said latent image reaches the 2nd exposure position, respective elements are driven by the stored signals and the amount of the 2nd exposure is adjusted for every picture element. The 2nd exposing means 21 may consist of the 2nd light source and elements which vary in the quantity of transmitted light with impressed voltages.

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、電子写真式により普通紙に複写を行なう、い
わゆる普通紙複写式の電子写真装置に関するものである
DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a so-called plain paper copying electrophotographic apparatus that makes copies on plain paper using an electrophotographic method.

従来例の構成とその問題点 第1図は従来の電子写真装置の一例の要部側断面図であ
る。同図において、1は光源、2は原稿の載置台、3は
結像手段としてのレンズ、4は感光体ドラム、5はコロ
ナ放電により感光体ドラム4に一様に帯電を行なう一様
帯電用コロトロン、6は現像用のトナー溜、7はトナー
16を感光体ドラム40表面に運ぶ現像スリーブ、8は
被複写紙、9a 、9bは被複写紙8を感光体ドラム4
の表面に運ぶ搬送ローラ、1Qは感光体ドラム4土の現
像トナーを被複写紙8に転写するための転写用コロトロ
ン、111L、11bはトナーを被複写紙8に定着する
加熱力面E用ローラ、12は除電用コロトロン、13は
トナーの転写残りをかき落すブレードである。
Structure of the conventional example and its problems FIG. 1 is a side sectional view of the main part of an example of a conventional electrophotographic apparatus. In the figure, 1 is a light source, 2 is a document mounting table, 3 is a lens as an imaging means, 4 is a photosensitive drum, and 5 is a uniform charging device that uniformly charges the photosensitive drum 4 by corona discharge. A corotron, 6 is a toner reservoir for development, 7 is a developing sleeve that conveys the toner 16 to the surface of the photoreceptor drum 40, 8 is a copy paper, 9a and 9b are used to transfer the copy paper 8 to the photoreceptor drum 4
1Q is a transfer corotron for transferring the developed toner on the photosensitive drum 4 onto the copying paper 8; 111L and 11b are rollers for the heating surface E that fixes the toner on the copying paper 8. , 12 is a corotron for static elimination, and 13 is a blade for scraping off residual toner transfer.

以上のように構成された従来の電子写真装置の動作を次
に説明する。
The operation of the conventional electrophotographic apparatus configured as described above will be described next.

透明な原稿g置台2に複写面が接触するように直かれた
原稿14が、原稿載置台2の右方向への移動によって走
査すると、原稿14の複写面を反射面として光源1から
出た光が反射され、レンズ3を通った後、感光体ドラム
4土に複写像を結ぶ。
When the original 14, which has been straightened so that its copying surface is in contact with the transparent original placing table 2, is scanned by moving the original placing table 2 to the right, the light emitted from the light source 1 is reflected by the copying surface of the original 14 as a reflective surface. After being reflected and passing through the lens 3, a copy image is formed on the photosensitive drum 4.

感光体ドラム4は矢印A方向に回転を行なっており、前
記反射光が照射する前に、一様帯電用コロトロン5によ
って一様な電位に帯電しており、前記反射光を照射する
と、照射された部分は照射光量に応じて電位を減少する
。従って原稿4の走査61.−2゜ にともない反射面を逐次変化させながら、反射光を感光
体ドラム4に照射して行くと、感光体ドラム4の表面上
には原稿14の記録面に対応した静電潜像が記録される
。トナー溜6および現像スリーブ7を含めて構成された
現像部は、帯電さぜたトナー15を前記感光体ドラム4
土の静電潜像に付層して現像した後、搬送ローラ91L
、9bにより搬入された被複写紙8が、現像された感光
体ドラム4と転写用コロトロン1oの間に挿入された状
態で、転写用コロトロン10はコロナ放電により感光体
ドラム4の表面上のトナーを被複写紙80表面に静電的
に吸引し、トナーの被複写紙8への転写を行なう。トナ
ーが転写された被複写紙8は定沼用の加熱加圧用ローラ
11!L、11bにより定着される。
The photosensitive drum 4 rotates in the direction of arrow A, and is charged to a uniform potential by a uniform charging corotron 5 before being irradiated with the reflected light. The potential of the exposed portion decreases depending on the amount of irradiated light. Therefore, scanning 61 of the original 4. When the reflected light is irradiated onto the photoreceptor drum 4 while changing the reflective surface sequentially as the angle of the image changes to −2°, an electrostatic latent image corresponding to the recording surface of the original 14 is recorded on the surface of the photoreceptor drum 4. be done. A developing section including a toner reservoir 6 and a developing sleeve 7 transfers charged toner 15 to the photoreceptor drum 4.
After applying a layer to the electrostatic latent image of soil and developing it, the transport roller 91L
, 9b is inserted between the developed photoreceptor drum 4 and the transfer corotron 1o, and the transfer corotron 10 removes the toner on the surface of the photoreceptor drum 4 by corona discharge. The toner is electrostatically attracted to the surface of the copy paper 80, and the toner is transferred onto the copy paper 8. The copy paper 8 to which the toner has been transferred is heated and pressed by a heating and pressing roller 11! It is fixed by L, 11b.

一方、転写後の感光体ドラム4は、除電用コロトロン1
2により除電された後、それに残留するトナーをブレー
ド13によりかき落され、再び一様帯電を待つ初期の状
態にもどる。
On the other hand, the photoreceptor drum 4 after the transfer is transferred to the corotron 1 for static elimination.
After the charge is removed by step 2, the remaining toner is scraped off by the blade 13, and the device returns to its initial state of waiting for uniform charging.

この様な電子写真式の複写機は、普通紙に簡易に複写が
とれるため、その普及は■ざ1しく、幅広い分野で利用
されている。しかし、コントラストの小さい1県稿の複
写を行なった場合、同様にコントラストの小さい複写に
なったり、また極端な場合には複写がとれず、コントラ
ストのない白っぽい複写になるなどの問題を有している
。このため、現状では現像の際にトナー側の電位を調整
し、感光体ドラム面上の帯電面とトナーの静電的な吸引
力を増加させ、全体的に濃1更を高めるなどの対策が行
なわれているが、これでも原稿の白い)18分が複写に
より黒ずんで地汚れが発生することがあり、根本的な対
応策とはなっていない。
Since such electrophotographic copying machines can easily make copies on plain paper, they are rapidly becoming popular and are used in a wide range of fields. However, when copying a single prefecture manuscript with low contrast, there are problems such as the same low contrast, or in extreme cases, the copy cannot be made and the copy becomes whitish with no contrast. There is. For this reason, current countermeasures include adjusting the potential on the toner side during development, increasing the electrostatic attraction between the charged surface on the photoreceptor drum surface and the toner, and increasing the overall density. However, even with this method, the white part of the original (18 minutes) may turn dark due to copying, resulting in background smudges, and it is not a fundamental countermeasure.

発明の目的 本発明は、そのような従来の問題点を解決するものであ
り、第1蕗光手段により感光体面上に記録された情報の
表面電位を表面電位検出手段により電気信号として検出
し、前記電気信号に応じて第2露光手段によジ調整蕗光
を行なうことによシ。
OBJECTS OF THE INVENTION The present invention solves such conventional problems, and includes detecting the surface potential of information recorded on the photoreceptor surface by the first photoreceptor as an electric signal by using the surface potential detecting means; By adjusting the exposure by the second exposure means in accordance with the electric signal.

複写ノ濃度とコントラストの少なくとも一方を調整する
ことが可能な普通紙複写に適した電子写真7ヘージ 装置を提供せんとするものである。
It is an object of the present invention to provide an electrophotographic 7hage device suitable for copying on plain paper and capable of adjusting at least one of the density and contrast of the copy.

発明の構成 本発明の電子写真装置は、光による情報を記録し得る感
光体と、前記感光体に原稿面の情報を光学的に照射する
第1露光手段と、所定の駆動信号の入力により前記感光
体の表向に直接的に露光を行なう第2露光手段と、前記
第2露光手段に前記駆動信号を供給する演算制御手段と
、前記感光体の表面電位を検知し、前記演算制御手段に
前記表面電位に対応した制御信号を供給する表面電位検
出手段を具備し、かつ、前記表面電位検出手段と前記第
2露光手段は、前記原稿面を画素分割して処理するため
に互に対応した画素処理部を有するとともに、前記画素
処理部ごとに、前記第1露光手段により前記感光体面上
に記録した前記原稿面の静電潜像の情報を前記表面電位
検出手段が検出し、制御信号として前記演算制御手段に
供給し、前記演算制御手段は前記制御信号にもとづき所
定の演算を行なって前記第2露光手段に駆動信号を供給
し、前記第2蕗光手段は前記静電潜像の上に前記駆動信
号にもとづ< ’rp2光を行なうことによυ、前記原
稿iffの濃度とコントラストの少なくとも一方を調整
することが可T正なように構成したものである。
Structure of the Invention The electrophotographic apparatus of the present invention includes a photoreceptor capable of recording information using light, a first exposure means for optically irradiating information on a document surface onto the photoreceptor, and a a second exposure means for directly exposing the surface of the photoreceptor; a calculation control means for supplying the drive signal to the second exposure means; a calculation control means for detecting the surface potential of the photoreceptor; surface potential detection means for supplying a control signal corresponding to the surface potential, and the surface potential detection means and the second exposure means correspond to each other in order to process the document surface by dividing it into pixels. a pixel processing section, and for each pixel processing section, the surface potential detection section detects information about an electrostatic latent image on the surface of the document recorded by the first exposure section on the surface of the photoreceptor, and outputs the detected information as a control signal. The arithmetic control means performs a predetermined arithmetic operation based on the control signal and supplies a drive signal to the second exposure means, and the second exposure means By performing <'rp2 light on the basis of the drive signal, it is possible to adjust at least one of the density and contrast of the document if.

実施例の説明 以下、不発明の実施例について、図面を参照しながら説
明する。
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.

第21菌は不発明の一実施i+t+に係る′電子写真装
置の安V!I’l1llI mi而面を示したものであ
る。なお、第2図において第1図で説明したものと同様
のものは同一の符号を付し、そのここでの重複する説明
は省略する。第2図において、第1露光手段は、光源1
、原稿載置台2.レンズ3よりなり、原稿14を反射面
として前記原稿載置台2に乗せて走査しつつ感光体ドラ
ム4の表向上に光照射による静電潜像を記録する。20
は前ハ1シ静電潜像の表面電位を検知し、′電気信号に
変換する表+r+1軍位検出手段であり、これは第3図
に示fように、感光体ドラム4の表面の表面電位による
電界の大きさに対応した電圧を出力するPLZT素子な
どの′I狂気光学9・・−ジ 効果を有する複数の素子20+!L 、20b 、20
C。
The 21st bacterium relates to one implementation of the non-invention i+t+'The safety of electrophotographic equipment V! It shows the face of I'l1llI mi. Components in FIG. 2 that are similar to those explained in FIG. 1 are designated by the same reference numerals, and redundant explanation thereof will be omitted. In FIG. 2, the first exposure means includes a light source 1
, document mounting table 2. The lens 3 records an electrostatic latent image by light irradiation on the upper surface of the photosensitive drum 4 while scanning the document 14 placed on the document mounting table 2 with the document 14 as a reflective surface. 20
is a table+r+1 position detection means that detects the surface potential of the electrostatic latent image on the front side and converts it into an electric signal, and as shown in FIG. ``Insanity Optics 9'' such as a PLZT element that outputs a voltage corresponding to the magnitude of the electric field due to the electric potential 20+! L, 20b, 20
C.

・・・を前記静電潜像を画素分割して表面電位を測定す
るために配列することにより構成されている。
... are constructed by dividing the electrostatic latent image into pixels and arranging them to measure the surface potential.

21は第1露光手段による静電潜像の表面電位を調整す
るだめの光の照射を行なう第2露光手段で、これは第3
図に示すように印加電圧に対応して発光量を変化さぜう
る発光ダイオード(LED)などの素子21a、21b
、21c、・・・を前記表面電位検出手段の素子に対応
させて配列することにより構成されている。22は上記
表面電位検出手段2Qに、Jl:l変換された静電潜像
のそれぞれの画素の表面′電位に対応した電気信号をも
とに、前記静電潜像のそれぞれの画素に対応した第2露
光手段21の素子を制御する印加電圧を設定するための
演算制御手段であり、これは第3図に例示するように、
所定の演算を行なう演算部22&と、前記演算結果を記
憶するメモリ一部22bと、前記メモリ一部内の演算結
果をもとに所定のタイミングで制御信号を第2露光手P
i21の各素子に出力するディレィfEA220を含め
て成る。
21 is a second exposure means for irradiating light for adjusting the surface potential of the electrostatic latent image produced by the first exposure means;
As shown in the figure, elements 21a and 21b such as light emitting diodes (LEDs) whose light emission amount can be changed according to the applied voltage.
, 21c, . . . are arranged in correspondence with the elements of the surface potential detection means. Reference numeral 22 supplies the surface potential detection means 2Q with a signal corresponding to each pixel of the electrostatic latent image based on an electric signal corresponding to the surface potential of each pixel of the electrostatic latent image converted to Jl:l. This is an arithmetic control means for setting the applied voltage to control the elements of the second exposure means 21, and as illustrated in FIG.
A calculation unit 22& that performs a predetermined calculation, a memory part 22b that stores the calculation result, and a second exposure unit P that outputs a control signal at a predetermined timing based on the calculation result in the memory part.
It includes a delay fEA220 that outputs to each element of i21.

10゜ 次に、これらの9素による動作について、コントラスト
の悪い、つ捷り明暗の差がはっきりしない、完稿を複写
(−で、コントラストの高い複写を得る揚台の一例につ
いて説明を行なI5゜第4図は、一様に帯電された感光
体ドラムの露光特性の一例を示したものであり、横軸に
露光量(βア・5ea)、横軸に表面電位(V)をとっ
ている。露光量(β工・SθC)は光の照度い6)と照
射時間(sec)との積であられされ、一般的には照射
時間はほぼ一定に作たれるので、露光量の変化は光の照
度の変化に比例すると考えられる。壕だ、前記露光は光
源からの光が原稿の複写面を反射面として反射したもの
であり、反射面の濃度が小さくなる程照度は小さく、逆
に濃度が小さくなる程照j現は大きくなる。
10゜Next, regarding the operation of these 9 elements, we will explain an example of a platform for copying a complete manuscript with poor contrast and unclear differences in brightness and darkness.゜Figure 4 shows an example of the exposure characteristics of a uniformly charged photoreceptor drum, where the horizontal axis represents the exposure amount (βa・5ea) and the horizontal axis represents the surface potential (V). The exposure amount (β-SθC) is the product of the light illuminance (6) and the irradiation time (sec), and since the irradiation time is generally kept almost constant, changes in the exposure amount are It is thought that it is proportional to the change in the illuminance of light. Well, the above exposure is when light from a light source is reflected from the copy surface of the original as a reflective surface, and the lower the density of the reflective surface, the lower the illuminance, and conversely, the lower the density, the higher the illumination. .

一方、感光体ドラムの表向電位は高い程トナーを引き付
は易く、零に近づくとほとんどトナーを吸引しなくなる
。第4図では、感光体ドラムの表面電位は感光体ドラム
への露光量の増加、つまりは露光の照度が増加するにつ
れて減少する傾向が117\−ジ 示されているが、これは反射面の濃度が小さくなる(白
に近づく)程、表面電位が減少することを示しており、
図中のa点は一様に帯電された状態、0点は十分な照度
が得られ、表面電位が零に近くなった状態である。いま
、新聞などの下地もある程度濃度をもっているような原
稿を、前記表面電位検出手段20、第2露光手段21、
演算制御手段22よりなろ濃度調整手段を用いずに複写
すると、印字部の濃度の高い部分は第4図のa点、紙面
の部分はb点付近となり、b点の表面電位はa点と0点
の中間にあるため、現像時の感光体ドラムとトナーの静
電引力が弱いながらも発生し、トナーを吸引して紙に付
着させるため、原稿同様に本来白くなるべき紙面の部分
に地汚れが発生し、コントラストが低くなってしまう。
On the other hand, the higher the surface potential of the photoreceptor drum, the easier it is to attract toner, and when it approaches zero, it hardly attracts toner. Figure 4 shows that the surface potential of the photoreceptor drum tends to decrease as the amount of exposure to the photoreceptor drum increases, that is, as the illuminance of exposure increases, but this is due to the This shows that the smaller the concentration (closer to white), the lower the surface potential.
Point a in the figure is a state where the surface is uniformly charged, and point 0 is a state where sufficient illuminance is obtained and the surface potential is close to zero. Now, the surface potential detection means 20, the second exposure means 21,
When copying is performed without using the density adjustment means by the arithmetic control means 22, the high-density portion of the printed area is at point a in FIG. Because it is located between the dots, the electrostatic attraction between the photoreceptor drum and the toner during development is weak but occurs, and the toner is attracted and adhered to the paper, causing background stains on the paper surface that should be white, just like originals. occurs, and the contrast becomes low.

一方、前記濃度調整手段を用いて、表面電位検出手段2
oにより静電潜像の表面電位を測定し、所定の表面電位
以下の部分については、第2蕗光手段21による露光の
際に第2蕗光手段21により露光を行なうように演算制
御手段22を動作させると、紙面の部分に対応した静電
潜像の表面電位はb点からC点付近捷で減少し、現像を
行なった場合、紙面部の表面電位が0点、文字部の表面
電位がa点であるから、原稿と比較して非常にコントラ
ストのよい複写を得ることができる。
On the other hand, using the concentration adjusting means, the surface potential detecting means 2
The arithmetic control means 22 controls the surface potential of the electrostatic latent image to be measured by o, and for the portions below a predetermined surface potential, the second light exposure means 21 performs exposure when the second light exposure means 21 is exposed. When operated, the surface potential of the electrostatic latent image corresponding to the paper area decreases from point B to near point C, and when development is performed, the surface potential of the paper area becomes 0 point, and the surface potential of the character area decreases. Since this is point a, it is possible to obtain a copy with very good contrast compared to the original.

第5図は本発明の別の実施例を示1〜、これは第2図の
電子写真装置の第2露光手段21に相当する第2露光手
段21′を、光源23と、レンズ24と、光量調整手段
26により構成したものである。
FIG. 5 shows another embodiment of the present invention 1 to 1, in which a second exposure means 21' corresponding to the second exposure means 21 of the electrophotographic apparatus shown in FIG. 2 is provided with a light source 23, a lens 24, It is constructed by a light amount adjusting means 26.

光源23を出た光はレンズ24により感光体ドラム4土
に結像するが、この際、印加電圧に対応して光の透過量
を変化させることが可能なPLZT素子のような電気光
学効果を有する複数の素子を表面電位検出手段20の素
子に対応させて配列することにより構成された光量−整
手段26のそれぞれの素子に前記表面電位検出手段2o
の各素子により検出された表面電位に基づく、演算制御
手段22の制御信号を電圧の形で入力することにより、
第2蕗光手段21′ による露光量を所定の値に制御す
るもので、このようにしても第2図の実13  、。
The light emitted from the light source 23 forms an image on the photoreceptor drum 4 by the lens 24, but at this time, an electro-optic effect such as a PLZT element that can change the amount of light transmitted according to the applied voltage is used. Each element of the light amount adjusting means 26 is configured by arranging a plurality of elements corresponding to the elements of the surface potential detecting means 20.
By inputting a control signal in the form of voltage to the arithmetic control means 22 based on the surface potential detected by each element,
The amount of exposure by the second flashing means 21' is controlled to a predetermined value.

ベーン 施例と同様の効果が得られる。vane The same effects as in the example can be obtained.

発明の効果 以上のように本発明によれば、第1露光手段により感光
体面上に記録された情報の表面電位を表面電位検出手段
により電気信号として検出し、前記電気信号に応じて第
2露光手段により調整露光を行なうことにより、複写の
濃度とコントラストの少なくとも一方を容易に、かつ確
実に調整することが可能であるという、極めてすぐれた
効果を有する電子写真装置を実現し得るものである。
Effects of the Invention As described above, according to the present invention, the surface potential of information recorded on the photoreceptor surface by the first exposure means is detected as an electric signal by the surface potential detection means, and the second exposure is performed according to the electric signal. By performing adjustment exposure using the means, it is possible to realize an electrophotographic apparatus that has an extremely excellent effect in that it is possible to easily and reliably adjust at least one of the density and contrast of a copy.

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

第1図は従来の電子写真装置の一例の要部側断面図、第
2図は本発明の一実施例に係る電子写真装置の要部側断
面図、第3図は第2図の要部構成図、第4図は感光体ド
ラムの露光特性図、第6図は本発明の別の実施例の要部
側断面図である。 1・・・・・・光源、3・・・・・・レンズ、4・・・
・・・感光体ドラム、20・・・・・・表面電位検出手
段、21.21’  ・・・・・・第2露光手段、22
・・・・・・演算制御手段、23・・・・・・光源、2
4・・・・・・レンズ、26・・・・・・光量調整手段
。 第1図 第2[
FIG. 1 is a side sectional view of a main part of an example of a conventional electrophotographic apparatus, FIG. 2 is a side sectional view of a main part of an electrophotographic apparatus according to an embodiment of the present invention, and FIG. 3 is a main part of the main part of FIG. FIG. 4 is a diagram showing the exposure characteristics of the photosensitive drum, and FIG. 6 is a sectional side view of a main part of another embodiment of the present invention. 1...Light source, 3...Lens, 4...
... Photosensitive drum, 20 ... Surface potential detection means, 21.21' ... Second exposure means, 22
......Arithmetic control means, 23...Light source, 2
4...Lens, 26...Light amount adjustment means. Figure 1 2 [

Claims (1)

【特許請求の範囲】 (1)光による情報を記録し得る感光体と、前記感光体
に原稿面の情報を光学的に照射する第1露光手段と、所
定の駆動信号の入力により前記感光体の表面に直接的に
露光を行なう第2露光手段と、前記第2露光手段に前記
駆動信号を供給する演算制御手段と、前記感光体の表面
電位を検知し、前記演算制御手段に前記表面電位に対応
した制御信号を供給する表面電位検出手段を具備し、か
つ、前記表面電位検出手段と前記第2露光手段は、前記
原稿面を画素分割して処理するために互に対応した画素
処理部を有するとともに、前記対応した画素処理部ごと
に、前記第1露光手段により前記感光体面上に記録した
前記原稿面の静電漕法の情報を前記表面電位検出手段が
検出し、開脚信号として前記演算制御手段に供給し、前
記演算制御手段は前記制御信弓にもとづき所定の演算を
行なって前記第2露光手段に駆動信号を供帖し、前記第
2露光〕=段は前記静電漕法の土に前n己駆励信号にも
とづく露光を行なうことにより、前記原稿面の゛濃度と
コントラストの少なくとも一万を調整するように構成さ
れていることを特徴とする電子写真装置。 <21  表面′亀位検出手段は嘔気光学効果を有する
複9i9.個の素子により1表面′亀位に応じた軍気信
号を出力するように構成されていることを特徴とする特
許請求の範囲第(1)項記載の電子写真装置。 (3)第2露光手段は、光源と、電圧の印加に応じて光
の透過量が変化する電気光学効果を有する複e個の素子
を含み、前記電気光学効果を有する素子で前記光源から
の光量を調整し、感光体上に照射するように構成されて
いることを特徴とする特許請求の範囲第(1)項または
第(2)項記載の電子写真装置。 (4)  第2蕗元手段は複数個の発光ダイオードによ
り構成されていることを特徴とする特許請求の3ぺ−1 範囲第(1)項または第(2)項記載の電子写真装置。 (6)  演算制御手段は、所定の表面電位以下の表面
電位検出手段からの電気信号に対して制御信号を出力し
て、第2露光手段に所定の露光を感光体に行なわせ、表
面電位を零に近づける制御を行なうように構成されてい
ることを特徴とする特許請求の範囲第(1)項または第
(2)項記載の電子写真装置。
Scope of Claims: (1) a photoreceptor capable of recording information using light; a first exposure means for optically irradiating information on the surface of a document onto the photoreceptor; a second exposure means for directly exposing the surface of the photoreceptor; a calculation control means for supplying the drive signal to the second exposure means; and a calculation control means for detecting the surface potential of the photoconductor, and The surface potential detection means and the second exposure means are provided with pixel processing units corresponding to each other in order to process the document surface by dividing it into pixels. In addition, for each of the corresponding pixel processing sections, the surface potential detection means detects the electrostatic rowing information of the document surface recorded on the photoreceptor surface by the first exposure means, and outputs the information as an open leg signal. the arithmetic control means performs a predetermined arithmetic operation based on the control signal and supplies a drive signal to the second exposure means; An electrophotographic apparatus characterized in that the electrophotographic apparatus is configured to adjust the density and contrast of the document surface by at least 10,000 by performing exposure based on a self-excitation signal. <21 The surface position detection means is a compound 9i9. having a nausea optical effect. An electrophotographic apparatus according to claim 1, wherein the electrophotographic apparatus is configured to output a military air signal according to the position of one surface by each element. (3) The second exposure means includes a light source and a plurality of elements having an electro-optic effect in which the amount of light transmitted changes according to the application of a voltage, and the second exposure means includes a light source and a plurality of elements having an electro-optic effect in which the amount of light transmitted changes according to the application of a voltage, and the element having the electro-optic effect is used to emit light from the light source. An electrophotographic apparatus according to claim 1 or 2, wherein the electrophotographic apparatus is configured to adjust the amount of light and irradiate it onto a photoreceptor. (4) The electrophotographic apparatus as set forth in claim 3, page 1, item (1) or item (2), wherein the second light source means is constituted by a plurality of light emitting diodes. (6) The arithmetic control means outputs a control signal in response to an electric signal from the surface potential detection means having a predetermined surface potential or less, causes the second exposure means to perform a predetermined exposure on the photoreceptor, and increases the surface potential. An electrophotographic apparatus according to claim (1) or (2), characterized in that the electrophotographic apparatus is configured to perform control to approach zero.
JP57203003A 1982-11-18 1982-11-18 Electrophotographic device Pending JPS5993469A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP57203003A JPS5993469A (en) 1982-11-18 1982-11-18 Electrophotographic device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP57203003A JPS5993469A (en) 1982-11-18 1982-11-18 Electrophotographic device

Publications (1)

Publication Number Publication Date
JPS5993469A true JPS5993469A (en) 1984-05-29

Family

ID=16466716

Family Applications (1)

Application Number Title Priority Date Filing Date
JP57203003A Pending JPS5993469A (en) 1982-11-18 1982-11-18 Electrophotographic device

Country Status (1)

Country Link
JP (1) JPS5993469A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS61500690A (en) * 1983-10-03 1986-04-10 イ−ストマン・コダック・カンパニ− electrophotographic copying device
JPS63309978A (en) * 1987-06-10 1988-12-19 Canon Inc Image forming device
JPH0282271A (en) * 1988-09-20 1990-03-22 Ricoh Co Ltd Copying machine
JPH0267342U (en) * 1988-11-08 1990-05-22
JPH02284172A (en) * 1989-04-25 1990-11-21 Mita Ind Co Ltd Image forming device

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5030538A (en) * 1973-03-30 1975-03-26
JPS5363021A (en) * 1976-11-18 1978-06-06 Ricoh Co Ltd Image control method
JPS5589859A (en) * 1978-12-28 1980-07-07 Canon Inc Method and apparatus for forming stable image

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5030538A (en) * 1973-03-30 1975-03-26
JPS5363021A (en) * 1976-11-18 1978-06-06 Ricoh Co Ltd Image control method
JPS5589859A (en) * 1978-12-28 1980-07-07 Canon Inc Method and apparatus for forming stable image

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS61500690A (en) * 1983-10-03 1986-04-10 イ−ストマン・コダック・カンパニ− electrophotographic copying device
JPH0525112B2 (en) * 1983-10-03 1993-04-09 Eastman Kodak Co
JPS63309978A (en) * 1987-06-10 1988-12-19 Canon Inc Image forming device
JPH0282271A (en) * 1988-09-20 1990-03-22 Ricoh Co Ltd Copying machine
JPH0267342U (en) * 1988-11-08 1990-05-22
JPH02284172A (en) * 1989-04-25 1990-11-21 Mita Ind Co Ltd Image forming device

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