JP3872204B2 - Cleaning device - Google Patents

Description

［比較例１］
これに対して、図４に示すように、シール材２８を取り付けない以外は第１の実施の形態と同様のクリーニング装置３４を形成し、［比較例１］とし、これをＬＥＯＤＲＹ６５５０（（株）東芝製複写機）に組み込み、５０００［枚］連続通紙を行った所、表１に示す様な結果を得られ、クリーニング不良は発生しなかったものの複写機内はトナーの飛散により著しく汚染されていた。
【００２１】
［比較例２］
又、図５に示すように、従来例のようにシール材３６の自由端クリーニングブレード２４の裏側に当接する以外は第１の実施の形態と同様のクリーニング装置３７を形成し、［比較例２］とし、これをＬＥＯＤＲＹ６５５０（（株）東芝製複写機）に組み込み、５０００［枚］連続通紙を行った所、表１に示す様な結果を得られ、複写機内の汚染状態のレベルは良好であったが、出力画像にクリーニング不良によるすじ状の画像汚損を発生し、画質が著しく低下された。
【００２２】
この様に構成すれば、一端がケース２３の内壁に貼付され、自由端がブレードホルダ２６の支持端２６ｂに接触されるシール材２８により、ケース２３内のトナー回収空間［Ｂ］が遮蔽される。従って補助ブラシ３２の回転により感光体１１表面から除去した残留トナーがケース２３内で舞い上がっても、ケース２３とブレードホルダ２６とのすき間［Ｃ］からトナーが飛散される事が無く、複写機等画像形成装置の汚損を防止出来る。
【００２３】
しかも、シール材２８の接触に拘わらず感光体１１に対するクリーニングブレード２４の加圧力が影響を受ける事が無く、感光体１１に対するクリーニングブレード２４の加圧力を所定の値で、幅方向の全長に渡り均一に保持出来ることから、感光体１１上の残留トナーを均一且つ良好に除去出来、クリーニング不良を生じる事無く画質を向上出来る。又これらにより、感光体の小径化や、幅の長尺化、装置の高速化等への対応も可能となり、多様な機種への適用可能となる。これと共にクリーニングブレードの摺接により感光体が局所的に摩耗される事も無く、感光体の長寿命化も図れる。又シール材も材質、剛性、厚み等の規制を受ける事が無く材質選択の幅が広がり、低価格化を図ることも可能となる。
【００２４】
次に本発明を図６に示す第２の実施の形態を参照して説明する。本実施の形態は第１の実施の形態において、シール材の形態が異なるものであり、他は第１の実施の形態と同様である事から、第１の実施の形態と同一部分については同一符号を付してその説明を省略する。本実施の形態のクリーニング装置３８にあっては、ケース２３上側の内壁に、クッション材４０を介して厚さ０．２ｍｍのポリエチレンテレフタレート（以下ＰＥＴと略称する。）製フィルムからなるシール材４１の一端を貼付し、シール材４１の自由端を、ブレードホルダ２６の回動端部２６ｃに接触する。
【００２５】
これによりケース２３上方のケース２３とブレードホルダ２６とのすき間［Ｃ］をシール材４１で閉鎖する事によりケース２３内のトナー回収空間［Ｄ］を遮蔽して、トナー飛散を防止している。この時シール材４１によりブレードホルダ２６回動端部２６ｃに働く力ｆ２は、矢印ｗ方向に示す様にブレードホルダ２６の回転軸２６ａ方向に向いている。従って、力ｆ２は、クリーニングブレード２４方向への成分を有しておらず、クリーニングブレード２４の感光体１１に対する加圧力は、ばね２７から受ける力によるもののみとなり、シール材４１との接触の有無に拘わらず変動を受ける事が無い。
【００２６】
この様にして成るクリーニング装置３８では、感光体１１上の残留トナーを除去する間、矢印ｓ方向に回転する感光体２１上の残留卜ナー粒子は、矢印ｔ方向に回転される補助ブラシ３２によりケース２３内で巻き上げられるが、ケース２３内のトナー回収空間［Ｄ］は、クリーニングブレード２４及びシール材４１により外部と遮断されており、ケース２３及びブレードホルダ２６間にすき間［Ｃ］が有っても、すき間［Ｃ］からのトナー飛散は防止される。
【００２７】
この第２の実施の形態におけるクリーニング装置３８をＬＥＯＤＲＹ６５５０（（株）東芝製複写機）に組み込み、５０００［枚］連続通紙後に、複写機内のトナー飛散状態を観察した所、表１に示す様な結果を得られ、複写機内の汚染レベルは良好であり、クリーニング不良も発生せず、良質な画像を得られた。
【００２８】
この様に構成すれば、一端がケース２３上側の内壁に貼付され、自由端がブレードホルダ２６回動端部２６ｃに接触されるシール材４１により、ケース２３内のトナー回収空間［Ｄ］が遮蔽される。従ってケース２３とブレードホルダ２６とのすき間［Ｃ］からトナーが飛散される事が無く、複写機等画像形成装置の汚損を防止出来る。
【００２９】
しかも、シール材４１の接触に拘わらず感光体１１に対するクリーニングブレード２４の加圧力が影響を受ける事が無く、感光体１１に対するクリーニングブレード２４の加圧力を所定の値で、幅方向の全長に渡り均一に保持出来ることから、感光体１１上の残留トナーを均一且つ良好に除去出来、クリーニング不良を生じる事無く画質を向上出来る。又これらから、第１の実施の形態と同様感光体の小径化や、幅の長尺化、装置の高速化等への対応も可能となり、多様な機種への適用可能となる。これと共にクリーニングブレードの摺接により感光体が局所的に摩耗される事も無く、感光体の長寿命化も図れる。従って、シール材も材質、剛性、厚み等の規制を受ける事が無く材質選択の幅が広がり、低価格化を図ることも可能となる。
【００３０】
次に本発明を図７に示す第３の実施の形態を参照して説明する。本実施の形態は第１の実施の形態において、シール材の形態が異なるものであり、他は第１の実施の形態と同様である事から、第１の実施の形態と同一部分については同一符号を付してその説明を省略する。本実施の形態のクリーニング装置４３にあっては、ケース２３下側の内壁に、厚さ０．２ｍｍのポリエチレンテレフタレート（以下ＰＥＴと略称する。）製フィルムからなるシール材４４の一端を貼付し、シール材４４の自由端を、ブレードホルダ２６の回動端部下側２６ｄに接触して、ケース２３内のトナー回収空間［Ｅ］を遮蔽して、ケース２３上方のケース２３とブレードホルダ２６とのすき間［Ｃ］からのトナー飛散を防止している。
【００３１】
この時シール材４４によりブレードホルダ２６回動端部下側２６ｄに働く力ｆ３は、矢印ｘ方向に示す様にブレードホルダ２６の回転軸２６ａ方向に向いている。従って、力ｆ３は、クリーニングブレード２４方向への成分を有しておらず、クリーニングブレード２４の感光体１１に対する加圧力は、ばね２７から受ける力によるもののみとなり、シール材４４との接触の有無に拘わらず変動を受ける事が無い。
【００３２】
この様にして成るクリーニング装置４３では、感光体１１上の残留トナーを除去する間、矢印ｓ方向に回転する感光体２１上の残留卜ナー粒子は、矢印ｔ方向に回転される補助ブラシ３２によりケース２３内で巻き上げられるが、ケース２３内のトナー回収空間［Ｅ］は、クリーニングブレード２４及びシール材４４により外部と遮断されており、ケース２３及びブレードホルダ２６間にすき間［Ｃ］が有っても、すき間［Ｃ］からのトナー飛散は防止される。
【００３３】
この第３の実施の形態におけるクリーニング装置４３をＬＥＯＤＲＹ６５５０（（株）東芝製複写機）に組み込み、５０００［枚］連続通紙後に、複写機内のトナー飛散状態を観察した所、表１に示す様な結果を得られ、複写機内の汚染レベルは良好であり、クリーニング不良も発生せず、良質な画像を得られた。
【００３４】
この様に構成すれば、一端がケース２３下側の内壁に貼付され、自由端がブレードホルダ２６回動端部下側２６ｄに接触されるシール材４４により、ケース２３内のトナー回収空間［Ｅ］が遮蔽される。従ってケース２３とブレードホルダ２６とのすき間［Ｃ］からトナーが飛散される事が無く、複写機等画像形成装置の汚損を防止出来る。
【００３５】
しかも、シール材４４の接触に拘わらず感光体１１に対するクリーニングブレード２４の加圧力が影響を受ける事が無く、感光体１１に対するクリーニングブレード２４の加圧力を所定の値で、幅方向の全長に渡り均一に保持出来ることから、感光体１１上の残留トナーを均一且つ良好に除去出来、クリーニング不良を生じる事無く画質を向上出来る。又これらから、第１の実施の形態と同様感光体の小径化や、幅の長尺化、装置の高速化等への対応も可能となり、多様な機種への適用可能となる。これと共にクリーニングブレードの摺接により感光体が局所的に摩耗される事も無く、感光体の長寿命化も図れる。従って、シール材も材質、剛性、厚み等の規制を受ける事が無く材質選択の幅が広がり、低価格化を図ることも可能となる。
【００３６】
次に本発明を図８に示す第４の実施の形態を参照して説明する。本実施の形態は第１の実施の形態において、シール材の形態が異なるものであり、他は第１の実施の形態と同様である事から、第１の実施の形態と同一部分については同一符号を付してその説明を省略する。本実施の形態のクリーニング装置４６にあっては、ケース２３上側の内壁に、回転軸２６ａを中心とする円筒面状の曲面４７を形成する。そしてブレードホルダ２６の回動端部２６ｃに、厚さ０．２ｍｍのポリエチレンテレフタレート（以下ＰＥＴと略称する。）製フィルムをＬ字型に曲げたシール材４８の一端を貼付し、シール材４８の自由端を、ケース２３の曲面４７に沿って面接触して、ケース２３内のトナー回収空間［Ｆ］を遮蔽して、ケース２３上方のケース２３とブレードホルダ２６とのすき間［Ｃ］からのトナー飛散を防止している。この時ケース２３の曲面４７とシール材４８との接触面において、ブレードホルダ２６と一体的に貼付、固定されているシール材４８に働く力ｆ４は、矢印ｙ方向に示す様にブレードホルダ２６の回転軸２６ａ方向に向いている。従って、力ｆ４は、接線方向への成分を有しておらず、クリーニングブレード２４の感光体１１に対する加圧力は、ばね２７から受ける力によるもののみとなり、シール材４８との接触の有無に拘わらず変動を受ける事が無い。
【００３７】
この様にして成るクリーニング装置４６では、感光体１１上の残留トナーを除去する間、矢印ｓ方向に回転する感光体２１上の残留卜ナー粒子は、矢印ｔ方向に回転される補助ブラシ３２によりケース２３内で巻き上げられるが、ケース２３内のトナー回収空間［Ｆ］は、クリーニングブレード２４及びシール材４８により外部と遮断されており、ケース２３及びブレードホルダ２６間にすき間［Ｃ］が有っても、すき間［Ｃ］からのトナー飛散は防止される。
【００３８】
この第４の実施の形態におけるクリーニング装置４６をＬＥＯＤＲＹ６５５０（（株）東芝製複写機）に組み込み、５０００［枚］連続通紙後に、複写機内のトナー飛散状態を観察した所、表１に示す様な結果を得られ、複写機内の汚染レベルは良好であり、クリーニング不良も発生せず、良質な画像を得られた。
【００３９】
この様に構成すれば、一端がケース２３下側の内壁に貼付され、自由端がブレードホルダ２６回動端部２６ｃに接触されるシール材４８により、ケース２３内のトナー回収空間［Ｆ］が遮蔽される。従ってケース２３とブレードホルダ２６とのすき間［Ｃ］からトナーが飛散される事が無く、複写機等画像形成装置の汚損を防止出来る。更に、シール材４８の自由端が、ケース２３の曲面２７と面接触する事から、トナー回収空間［Ｆ］の遮蔽性がより良好と成る。
【００４０】
しかも、シール材４８の接触に拘わらず感光体１１に対するクリーニングブレード２４の加圧力が影響を受ける事が無く、感光体１１に対するクリーニングブレード２４の加圧力を所定の値で、幅方向の全長に渡り均一に保持出来ることから、感光体１１上の残留トナーを均一且つ良好に除去出来、クリーニング不良を生じる事無く画質を向上出来る。又これらから、第１の実施の形態と同様感光体の小径化や、幅の長尺化、装置の高速化等への対応も可能となり、多様な機種への適用可能となる。これと共にクリーニングブレードの摺接により感光体が局所的に摩耗される事も無く、感光体の長寿命化も図れる。従って、シール材も材質、剛性、厚み等の規制を受ける事が無く材質選択の幅が広がり、低価格化を図ることも可能となる。
【００４１】
尚本発明は、上記実施の形態に限られるもので無く、その趣旨を変えない範囲での変更は可能であって、例えばトナー飛散防止手段の材質、厚さ等は、トナー回収容器のトナー回収空間を遮蔽出来るものであれば限定されない。又クリーニングブレードを支持する支持手段や、トナー回収容器の形状も任意であり、トナー飛散防止手段の接触位置や取り付け方法も、クリーニングブレードの感光体に対する可圧力に影響を与えなければ全く任意である。
【００４２】
【発明の効果】
以上説明したように本発明によれば、トナー飛散防止手段をクリーニングブレードを支持する支持手段及びトナー回収容器の間に掛け渡す事によりトナー回収容器からのトナー飛散を防止出来る。又トナー飛散防止手段による支持手段に対する力が支持手段の回動中心に向いていて回動中心への最短方向と一致し、クリーニングブレード方向への成分を有していない事から、クリーニングブレードは、トナー飛散防止手段からの影響を受ける事が無く、感光体に対して所定の値で、幅方向の全長に渡り均一な可圧力で摺接出来、感光体に掛かるクリーニングブレードからの荷重が適正且つ均一となり、感光体は局所的な摩耗を生じる事無くその長寿命化を得られる。更にクリーニングブレードは局所的なクリーニング不良を生じる事無く感光体上の残留トナーを均一且つ良好に除去出来、形成画像の画質向上を得られる。
【００４３】
またこれにより感光体の小径化、長尺化更には画像形成装置の高速化などへの対応が容易となる上にトナー飛散防止手段の材料選択の幅も広がりその低価格化も可能と成る。
【図面の簡単な説明】
【図１】本発明の第１の実施の形態の画像形成装置の画像形成部を示す概略構成図である。
【図２】本発明の第１の実施の形態のクリーニング装置を示す概略構成図である。
【図３】本発明の第１の実施の形態において、ケース及びブレードホルダ間にシール材を設けない様想定した場合の、トナー飛散の状態を示す概略説明図である。
【図４】本発明の第１の実施の形態に対する［比較例１］のクリーニング装置を示す概略構成図である。
【図５】本発明の第１の実施の形態に対する［比較例２］のクリーニング装置を示す概略構成図である。
【図６】本発明の第２の実施の形態のクリーニング装置を示す概略構成図である。
【図７】本発明の第３の実施の形態のクリーニング装置を示す概略構成図である。
【図８】本発明の第４の実施の形態のクリーニング装置を示す概略構成図である。
【図９】従来のクリーニング装置を示す概略構成図である。
【図１０】従来のクリーニング装置のシール材によりクリーニングブレードが受ける力及び、クリーニングブレードによる感光体への可圧力を示す概略説明図である。
【符号の説明】
１０…画像形成部
１１…感光体
１４…現像装置
２０…クリーニング装置
２３…ケース
２４…クリーニングブレード
２６…ブレードホルダ
２６ａ…回転軸
２７…ばね
２８…シール材
３０…リカバリーブレード
３１…トナーオーガ
３２…補助ブラシ[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cleaning device that removes residual toner on a photoconductor after transfer is completed with a cleaning blade.
[0002]
[Prior art]
In an electrophotographic apparatus such as a copying machine or a printer, a cleaning apparatus that removes toner or paper residue remaining on the surface of a drum-shaped photoconductor after completion of toner image transfer using a cleaning blade is shown in FIG. As shown, a seal material 6 is provided to prevent toner from leaking and scattering from a gap [G] between a rotatable blade holder-2 that supports the cleaning blade 1 and a case 3 that collects residual toner. It was. One end of the sealing material 6 is fixed to the inner wall of the case 3, and the free end is in contact with the back side of the cleaning blade 1 to shield the toner collection space [A] in the case 3.
[0003]
[Problems to be solved by the invention]
However, in the conventional apparatus, since the free end of the sealing material 6 is in contact with the back side of the cleaning blade 1, it is applied to the cleaning blade 1 by the spring 8 in order to remove the residual toner on the photoreceptor 7. The pressure applied to the photoconductor 7 has been changed with respect to the expected value. That is, as shown in FIG. 10, if the pressure F applied to the surface of the photoconductor 7 by the cleaning blade 1 (= the drag force from the photoconductor 7) is only the force by the spring 8, the fulcrum, that is, the rotation of the blade holder-2. The product (= moment) M1 = F1 × L1 of the distance L1 from the shaft 2a to the force point 8a for fixing the spring 8 to the blade holder-2 and the force F1 actually applied by the spring 8, and the rotation shaft 2a to the photosensitive member 7 And the distance L to the contact 7a.
[0004]
However, when the sealing material 6 comes into contact with the cleaning blade 1, a force F <b> 2 acts from the sealing material 6 to the cleaning blade 1. This force F2 can be decomposed into two components, a tangential component F2 ′ and an axial component F2 ″, and a moment M2 = F2 ″ × L2 is newly applied to the photosensitive member 7, and the surface of the photosensitive member 7 by the cleaning blade 1 is applied. The actual pressurizing force F is F = (M1 + M2) / L = {(F1 × L1) + (F2 ″ × L2)} / L by the spring 8 and the sealing material 6 (where L2 is The distance from the rotating shaft 2a to the contact position of the sealing material 6 and the cleaning blade 1)
Since the moment M2 newly applied to the cleaning blade 1 by the sealing material 6 may be a considerable load depending on the material, rigidity, thickness and length of the sealing material 6, the sealing material is excellent in flexibility. In addition, there has been a problem that the price is hindered due to restrictions such as being easy to make a thin film.
[0005]
Moreover, in practice, the load applied to the width direction of the cleaning blade 1 by the sealing material 6 is often non-uniform, resulting in a locally overloaded state and partially promoting the surface of the photoconductor 7. Or a problem of cleaning failure due to uneven pressure. Such a phenomenon becomes more noticeable because the amount of rotation of the photoreceptor increases as the diameter of the photoreceptor decreases, and the effect on the photoreceptor by the cleaning blade decreases as the width of the photoreceptor increases. When the speed of the apparatus is increased, this effect is further increased, causing a problem that the formed image is adversely affected, resulting in poor applicability to diversification of image forming apparatus models.
[0006]
Therefore, the present invention eliminates the above-described problems. When a sealing material is provided in the case of the cleaning device to prevent toner scattering from the gap between the blade holder and the case, the material and thickness of the sealing material are regulated. The load applied to the photoconductor by the cleaning blade is made uniform without being subjected to any damage, thereby preventing local wear of the photoconductor, extending the life of the photoconductor, and ensuring that the residual toner on the photoconductor is uniform and An object of the present invention is to provide a cleaning device that can remove well and improve image quality.
[0007]
[Means for Solving the Problems]
As a means for solving the above-described problems, the present invention provides a cleaning method in which a toner image is pressed and slidably contacted with the image carrier at a position facing the image carrier after transfer is completed, and residual toner on the image carrier is removed. A contact point between the blade, a toner collection container that stores the residual toner dropped from the cleaning blade, a rotatable support unit that supports the cleaning blade above the toner collection container, and the support unit The toner is applied between the toner recovery container and the support means so that the direction of the applied force coincides with the shortest direction of the support means in the rotation fulcrum direction, and the toner from the gap above the toner recovery container and the support means Toner scattering prevention means for preventing scattering is provided.
[0008]
As a means for solving the above-mentioned problems, the present invention removes residual toner on the image carrier by pressing and contacting the image carrier at a position facing the image carrier after the transfer of the toner image. A cleaning blade; a toner collection container for storing the residual toner dropped from the cleaning blade; a rotatable blade support means for supporting the cleaning blade above the toner collection container; and the blade support means. The blade support means above the toner collection container is spanned between the toner collection container and the blade support means so that the direction of the force applied to the contact portion coincides with the shortest direction in the direction of the rotation fulcrum of the blade support means. And a toner scattering prevention means made of a flexible sheet for preventing toner scattering from the gap.
[0009]
As a means for solving the above-mentioned problems, the present invention removes residual toner on the image carrier by pressing and contacting the image carrier at a position facing the image carrier after the transfer of the toner image. A cleaning blade, a toner collection container for storing the residual toner dropped from the cleaning blade, an auxiliary cleaning brush supported by the toner collection container and in sliding contact with the image carrier before reaching the cleaning blade, A rotatable blade support means for supporting the cleaning blade above the toner recovery container, and the direction of the force applied to the contact point between the blade support means and the shortest direction of the blade support means in the rotation fulcrum direction The blade is placed between the toner collection container and the blade support means so as to be above the toner collection container. Is intended to provide a toner scattering prevention means consist of a sheet having flexibility to prevent toner scattering from the gap between the lifting means.
[0010]
By the above means, the present invention makes the toner scattering prevention means come into contact with the blade support means for supporting the cleaning blade, and the pressure applied to the contact point is made to coincide with the shortest direction in the direction of the rotation fulcrum of the blade support means. In addition, no load is applied to the cleaning blade by the toner scattering prevention means, the load on the photoconductor by the cleaning blade can be made uniform, local wear of the photoconductor is prevented, the cleaning performance is not impaired, and the quality is high. It is intended to obtain an image and extend the life of the photoreceptor.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below with reference to the first embodiment shown in FIGS. FIG. 1 is a schematic diagram showing an image forming unit 10 of an image forming apparatus such as a copying machine. A charger 12 is provided around an image carrier 11 serving as an image carrier, and the photoconductor 11 is scanned by converting image information into optical information. An exposure unit 13, a developing device 14, a transfer device 16, a peeling device 17, a peeling claw 18, a cleaning device 20, and a static eliminator 21 of an exposure device (not shown) for exposure are sequentially arranged along the rotation direction. Reference numeral 22 denotes a registration roller that conveys a sheet supplied from a sheet feeding cassette device or a sheet feeding tray (not shown) in the direction of the transfer unit 16 in synchronization with a toner image formed on the photosensitive member 11.
[0012]
Next, the cleaning device 20 will be described in detail. Above the case 23 which is a toner recovery container, a blade holder 26 which is a blade support means for supporting an elastic cleaning blade 24 is provided so as to be rotatable around a rotation shaft 26a which is a rotation fulcrum. The blade holder 26 is fixed by a spring 27 in a state where the blade 24 is rotated by a predetermined angle about the rotation shaft 26a so that the cleaning blade 24 is brought into contact with the surface of the photoconductor 11 with a predetermined pressure.
[0013]
Reference numeral 28 denotes a sealing material, which is a toner scattering prevention means, formed by bending a flexible polyethylene terephthalate (hereinafter abbreviated as PET) film having a thickness of 0.2 mm into an L-shape. The bent portion at one end of the sealing material 28 is affixed to the inner wall of the case 23, while the free end is in contact with the blade holder 26 support end 26 b to shield the toner recovery space [B] in the case 23, The toner scattering from the gap [C] between the case 23 and the blade holder 26 is prevented.
[0014]
At this time, the force f1 exerted on the support end 26b of the blade holder 26 by the sealing material 28 is directed in the direction of the rotation axis 26a of the blade holder 26 as indicated by the arrow v direction. Accordingly, the force f1 does not have a component in the direction of the cleaning blade 24, and the pressure applied to the photosensitive member 11 by the cleaning blade 24 is only due to the force received from the spring 27, and whether or not there is contact with the sealing material 28. Regardless of the fluctuations. Reference numeral 30 is a recovery blade, 31 is a toner auger for conveying residual toner collected on the bottom surface of the case 23 to one side of the case 23, and 32 is an auxiliary brush for removing residual toner on the photoconductor 11.
[0015]
Next, the operation will be described. As the photoconductor 11 rotates in the direction of the arrow s in response to the copy start signal, the photoconductor 11 is uniformly charged by the charger 12, and the exposure unit 13 scans and exposes light information corresponding to the image information from the computer. An electrostatic latent image is formed and reaches the developing device 14 to form a toner image. Thereafter, the photoconductor 11 transfers the toner image onto a sheet paper (not shown) conveyed in synchronism with the toner image by the transfer device 16, the sheet paper is peeled off by the peeling device 17, and a cleaning device. 20, the copy operation is finished through the static eliminator 21, and the next print is waited. On the other hand, after the sheet paper is peeled off, a copy image is completed and discharged through a fixing device (not shown).
[0016]
During this copying operation, in the cleaning device 20, the residual toner on the surface of the photoconductor 11 that has passed through the recovery blade 30 is lifted or scraped off by the auxiliary brush 32 that rotates in the direction of arrow t, and further the cleaning blade 24. The surface of the photoconductor 11 is cleaned.
[0017]
At this time, the sealing material 28 is in contact with the blade holder 26 support end 26b, but the force f1 of the sealing material 28 against the blade holder 26 support end 26b is directed in the direction of the rotation axis 26a of the blade holder 26. The force f1 does not act on the cleaning blade 24, and only a uniform force by the spring 27 acts on the cleaning blade 24. Therefore, the pressing force of the cleaning blade is uniformly applied to the photoconductor 11. The residual toner removed by the auxiliary brush 32 and the cleaning blade 24 is conveyed to one side of the case 23 by the toner auger 31 on the bottom surface of the case 23 and is collected in a waste toner collecting container (not shown).
[0018]
In this way, while cleaning the residual toner on the photoconductor 11, the residual toner particles on the photoconductor 21 rotating in the arrow s direction are wound up in the case 23 by the auxiliary brush 32 rotated in the arrow t direction, If there is no sealing material 28, it is scattered in the direction of the arrow u as shown in FIG. 3, but the toner collection area [B] in the case 23 is blocked from the outside by the cleaning blade 24 and the sealing material 28. Even if there is a gap [C] between the blade 23 and the blade holder 26, toner scattering from the gap [C] is prevented.
[0019]
The cleaning device 20 according to the first embodiment is incorporated in a LEODRY 6550 (Toshiba Co., Ltd.), and the toner scattering state in the copying machine is visually determined after 5000 sheets are continuously fed. Table 1 As a result, the contamination level in the copying machine was good, no poor cleaning occurred, and a good image was obtained.
[0020]
[Table 1]

[Comparative Example 1]
On the other hand, as shown in FIG. 4, a cleaning device 34 similar to that of the first embodiment except that the sealing material 28 is not attached is formed as [Comparative Example 1], which is referred to as LEODRY 6550 (Co., Ltd.). Incorporated in Toshiba copier), 5000 [sheets] of continuous paper was passed, and the results shown in Table 1 were obtained. Although the cleaning failure did not occur, the inside of the copier was significantly contaminated by the scattering of toner. It was.
[0021]
[Comparative Example 2]
Further, as shown in FIG. 5, a cleaning device 37 similar to that of the first embodiment is formed except that it contacts the back side of the free end cleaning blade 24 of the sealing material 36 as in the conventional example. This was incorporated into LEODRY 6550 (Toshiba Co., Ltd. copier), and 5000 [sheets] were continuously passed. The results shown in Table 1 were obtained, and the level of contamination in the copier was good. However, streak-like image contamination due to poor cleaning occurred in the output image, and the image quality was significantly deteriorated.
[0022]
With this configuration, the toner collection space [B] in the case 23 is shielded by the sealing material 28 having one end attached to the inner wall of the case 23 and the free end contacting the support end 26b of the blade holder 26. . Therefore, even if the residual toner removed from the surface of the photoconductor 11 by the rotation of the auxiliary brush 32 rises in the case 23, the toner is not scattered from the gap [C] between the case 23 and the blade holder 26, and the copying machine or the like. It is possible to prevent the image forming apparatus from being soiled.
[0023]
In addition, the pressing force of the cleaning blade 24 against the photosensitive member 11 is not affected regardless of the contact of the sealing material 28, and the pressing force of the cleaning blade 24 against the photosensitive member 11 is a predetermined value over the entire length in the width direction. Since the toner can be held uniformly, the residual toner on the photoconductor 11 can be removed uniformly and satisfactorily, and the image quality can be improved without causing cleaning failure. In addition, it is possible to cope with a reduction in the diameter of the photosensitive member, an increase in width, an increase in the speed of the apparatus, and the like, which can be applied to various models. At the same time, the photosensitive member is not locally worn by the sliding contact of the cleaning blade, and the life of the photosensitive member can be extended. In addition, the sealing material is not subject to restrictions on the material, rigidity, thickness, etc., so that the range of material selection is widened and the cost can be reduced.
[0024]
Next, the present invention will be described with reference to a second embodiment shown in FIG. This embodiment is different from the first embodiment in the form of the sealing material, and the other parts are the same as those in the first embodiment, and therefore the same parts as those in the first embodiment are the same. Reference numerals are assigned and explanations thereof are omitted. In the cleaning device 38 according to the present embodiment, a sealing material 41 made of a polyethylene terephthalate (hereinafter abbreviated as PET) film having a thickness of 0.2 mm is provided on the inner wall on the upper side of the case 23 with a cushion material 40 interposed therebetween. One end is affixed, and the free end of the sealing material 41 is brought into contact with the rotating end portion 26 c of the blade holder 26.
[0025]
As a result, the clearance [C] between the case 23 and the blade holder 26 above the case 23 is closed by the sealing material 41, thereby shielding the toner recovery space [D] in the case 23 and preventing toner scattering. At this time, the force f2 acting on the rotation end portion 26c of the blade holder 26 by the sealing material 41 is directed in the direction of the rotation axis 26a of the blade holder 26 as shown by the arrow w direction. Accordingly, the force f2 does not have a component in the direction of the cleaning blade 24, and the pressure applied to the photosensitive member 11 by the cleaning blade 24 is only due to the force received from the spring 27, and whether or not there is contact with the sealing material 41. Regardless of the fluctuations.
[0026]
In the cleaning device 38 configured as described above, the residual toner particles on the photosensitive member 21 rotating in the direction of the arrow s while the residual toner on the photosensitive member 11 is removed by the auxiliary brush 32 rotated in the direction of the arrow t. The toner collection space [D] in the case 23 is cut off from the outside by the cleaning blade 24 and the sealing material 41, and there is a gap [C] between the case 23 and the blade holder 26. However, toner scattering from the gap [C] is prevented.
[0027]
As shown in Table 1, the cleaning device 38 according to the second embodiment was incorporated in a LEODRY 6550 (Toshiba Co., Ltd.) and the toner scattering state in the copying machine was observed after continuous feeding of 5000 sheets. As a result, the contamination level in the copying machine was good, no cleaning failure occurred, and a good image was obtained.
[0028]
With this configuration, the toner recovery space [D] in the case 23 is shielded by the sealing material 41 whose one end is attached to the inner wall on the upper side of the case 23 and whose free end is in contact with the rotating end portion 26c of the blade holder 26. Is done. Therefore, toner is not scattered from the gap [C] between the case 23 and the blade holder 26, and the image forming apparatus such as a copying machine can be prevented from being damaged.
[0029]
In addition, the pressing force of the cleaning blade 24 against the photosensitive member 11 is not affected regardless of the contact of the sealing material 41, and the pressing force of the cleaning blade 24 against the photosensitive member 11 is a predetermined value over the entire length in the width direction. Since the toner can be held uniformly, the residual toner on the photoconductor 11 can be removed uniformly and satisfactorily, and the image quality can be improved without causing cleaning failure. From these, it is possible to cope with a reduction in the diameter of the photosensitive member, an increase in width, an increase in the speed of the apparatus, and the like, as in the first embodiment, and it can be applied to various models. At the same time, the photosensitive member is not locally worn by the sliding contact of the cleaning blade, and the life of the photosensitive member can be extended. Therefore, the sealing material is not subject to restrictions on the material, rigidity, thickness, etc., and the range of material selection is widened, and the cost can be reduced.
[0030]
Next, the present invention will be described with reference to a third embodiment shown in FIG. This embodiment is different from the first embodiment in the form of the sealing material, and the other parts are the same as those in the first embodiment, and therefore the same parts as those in the first embodiment are the same. Reference numerals are assigned and explanations thereof are omitted. In the cleaning device 43 of the present embodiment, one end of a sealing material 44 made of a polyethylene terephthalate (hereinafter abbreviated as PET) film having a thickness of 0.2 mm is attached to the inner wall below the case 23, The free end of the seal material 44 is brought into contact with the rotating end lower side 26d of the blade holder 26 to shield the toner recovery space [E] in the case 23, so that the case 23 above the case 23 and the blade holder 26 are separated from each other. Toner scattering from the gap [C] is prevented.
[0031]
At this time, the force f3 exerted on the lower side 26d of the rotating end of the blade holder 26 by the sealing material 44 is directed in the direction of the rotation axis 26a of the blade holder 26 as shown by the arrow x direction. Accordingly, the force f3 does not have a component in the direction of the cleaning blade 24, and the pressure applied to the photosensitive member 11 by the cleaning blade 24 is only due to the force received from the spring 27, and whether or not there is contact with the sealing material 44. Regardless of the fluctuations.
[0032]
In the cleaning device 43 configured as described above, the residual toner particles on the photosensitive member 21 rotating in the direction of the arrow s are removed by the auxiliary brush 32 rotated in the direction of the arrow t while the residual toner on the photosensitive member 11 is removed. The toner collection space [E] in the case 23 is cut off from the outside by the cleaning blade 24 and the sealing material 44, and there is a gap [C] between the case 23 and the blade holder 26. However, toner scattering from the gap [C] is prevented.
[0033]
As shown in Table 1, the cleaning device 43 according to the third embodiment is incorporated in a LEODRY 6550 (Toshiba Co., Ltd.) and the toner scattering state in the copying machine is observed after continuous feeding of 5000 sheets. As a result, the contamination level in the copying machine was good, no cleaning failure occurred, and a good image was obtained.
[0034]
With this configuration, the toner collection space [E] in the case 23 is sealed by the seal member 44 whose one end is affixed to the inner wall on the lower side of the case 23 and whose free end is in contact with the lower side 26d of the rotating end of the blade holder 26. Is shielded. Therefore, toner is not scattered from the gap [C] between the case 23 and the blade holder 26, and the image forming apparatus such as a copying machine can be prevented from being damaged.
[0035]
In addition, the pressing force of the cleaning blade 24 against the photosensitive member 11 is not affected regardless of the contact of the sealing material 44, and the pressing force of the cleaning blade 24 against the photosensitive member 11 is a predetermined value over the entire length in the width direction. Since the toner can be held uniformly, the residual toner on the photoconductor 11 can be removed uniformly and satisfactorily, and the image quality can be improved without causing cleaning failure. From these, it is possible to cope with a reduction in the diameter of the photosensitive member, an increase in width, an increase in the speed of the apparatus, and the like, as in the first embodiment, and it can be applied to various models. At the same time, the photosensitive member is not locally worn by the sliding contact of the cleaning blade, and the life of the photosensitive member can be extended. Therefore, the sealing material is not subject to restrictions on the material, rigidity, thickness, etc., and the range of material selection is widened, and the cost can be reduced.
[0036]
Next, the present invention will be described with reference to a fourth embodiment shown in FIG. This embodiment is different from the first embodiment in the form of the sealing material, and the other parts are the same as those in the first embodiment, and therefore the same parts as those in the first embodiment are the same. Reference numerals are assigned and explanations thereof are omitted. In the cleaning device 46 of the present embodiment, a cylindrical curved surface 47 centering on the rotation shaft 26 a is formed on the inner wall on the upper side of the case 23. Then, one end of a sealing material 48 obtained by bending a film made of polyethylene terephthalate (hereinafter abbreviated as PET) having a thickness of 0.2 mm into an L shape is attached to the rotating end portion 26 c of the blade holder 26. The free end is brought into surface contact with the curved surface 47 of the case 23 to shield the toner collection space [F] in the case 23 and from the gap [C] between the case 23 and the blade holder 26 above the case 23. Toner scattering is prevented. At this time, on the contact surface between the curved surface 47 of the case 23 and the sealing material 48, the force f4 acting on the sealing material 48 attached and fixed integrally with the blade holder 26 is applied to the blade holder 26 as shown by the arrow y direction. It faces in the direction of the rotating shaft 26a. Accordingly, the force f4 does not have a component in the tangential direction, and the pressure applied to the photosensitive member 11 by the cleaning blade 24 is only due to the force received from the spring 27, regardless of the presence or absence of contact with the sealing material 48. There is no fluctuation.
[0037]
In the cleaning device 46 configured as described above, the residual toner particles on the photosensitive member 21 rotating in the direction of the arrow s while the residual toner on the photosensitive member 11 is removed by the auxiliary brush 32 rotated in the direction of the arrow t. The toner collection space [F] in the case 23 is blocked from the outside by the cleaning blade 24 and the sealing material 48, and there is a gap [C] between the case 23 and the blade holder 26. However, toner scattering from the gap [C] is prevented.
[0038]
As shown in Table 1, the cleaning device 46 according to the fourth embodiment is incorporated in a LEODRY 6550 (Toshiba Co., Ltd. copier) and the toner scattering state in the copier was observed after continuous feeding of 5000 sheets. As a result, the contamination level in the copying machine was good, no cleaning failure occurred, and a good image was obtained.
[0039]
With this configuration, the toner collection space [F] in the case 23 is formed by the sealing material 48 having one end affixed to the inner wall on the lower side of the case 23 and the free end in contact with the rotating end portion 26c of the blade holder 26. Shielded. Therefore, toner is not scattered from the gap [C] between the case 23 and the blade holder 26, and the image forming apparatus such as a copying machine can be prevented from being damaged. Furthermore, since the free end of the sealing material 48 comes into surface contact with the curved surface 27 of the case 23, the shielding property of the toner recovery space [F] becomes better.
[0040]
In addition, the pressing force of the cleaning blade 24 against the photosensitive member 11 is not affected regardless of the contact of the sealing material 48, and the pressing force of the cleaning blade 24 against the photosensitive member 11 is a predetermined value over the entire length in the width direction. Since the toner can be held uniformly, the residual toner on the photoconductor 11 can be removed uniformly and satisfactorily, and the image quality can be improved without causing cleaning failure. From these, it is possible to cope with a reduction in the diameter of the photosensitive member, an increase in width, an increase in the speed of the apparatus, and the like, as in the first embodiment, and it can be applied to various models. At the same time, the photosensitive member is not locally worn by the sliding contact of the cleaning blade, and the life of the photosensitive member can be extended. Therefore, the sealing material is not subject to restrictions on the material, rigidity, thickness, etc., and the range of material selection is widened, and the cost can be reduced.
[0041]
The present invention is not limited to the above-described embodiment, and can be changed within a range that does not change the gist thereof. For example, the material and thickness of the toner scattering preventing means are the same as those of the toner collecting container. There is no limitation as long as it can shield the space. Also, the support means for supporting the cleaning blade and the shape of the toner collection container are arbitrary, and the contact position and attachment method of the toner scattering prevention means are completely arbitrary as long as they do not affect the possible pressure of the cleaning blade on the photosensitive member. .
[0042]
【The invention's effect】
As described above, according to the present invention, toner scattering from the toner recovery container can be prevented by spanning the toner scattering prevention means between the support means for supporting the cleaning blade and the toner recovery container. Further, since the force on the support means by the toner scattering prevention means is directed to the rotation center of the support means and coincides with the shortest direction to the rotation center, and does not have a component toward the cleaning blade, It is not affected by the toner scattering prevention means, can be slidably contacted with the photoconductor at a predetermined value over the entire length in the width direction with uniform pressure, and the load from the cleaning blade applied to the photoconductor is appropriate and It becomes uniform, and the photoreceptor can have a long life without causing local wear. Further, the cleaning blade can uniformly and satisfactorily remove the residual toner on the photoreceptor without causing local cleaning failure, thereby improving the image quality of the formed image.
[0043]
As a result, it is possible to easily cope with the reduction in the diameter and length of the photosensitive member and the increase in the speed of the image forming apparatus, and the material selection range of the toner scattering prevention means can be widened and the cost can be reduced.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram illustrating an image forming unit of an image forming apparatus according to a first embodiment of the present invention.
FIG. 2 is a schematic configuration diagram illustrating a cleaning device according to a first embodiment of the present invention.
FIG. 3 is a schematic explanatory diagram showing a state of toner scattering when it is assumed that no sealing material is provided between the case and the blade holder in the first embodiment of the present invention.
FIG. 4 is a schematic configuration diagram showing a cleaning device of [Comparative Example 1] with respect to the first embodiment of the present invention.
FIG. 5 is a schematic configuration diagram showing a cleaning device of [Comparative Example 2] with respect to the first embodiment of the present invention.
FIG. 6 is a schematic configuration diagram illustrating a cleaning device according to a second embodiment of the present invention.
FIG. 7 is a schematic configuration diagram illustrating a cleaning device according to a third embodiment of the present invention.
FIG. 8 is a schematic configuration diagram illustrating a cleaning device according to a fourth embodiment of the present invention.
FIG. 9 is a schematic configuration diagram illustrating a conventional cleaning device.
FIG. 10 is a schematic explanatory view showing the force received by the cleaning blade by the sealing material of the conventional cleaning device and the pressure that can be applied to the photosensitive member by the cleaning blade.
[Explanation of symbols]
10. Image forming unit
11 ... Photoconductor
14 ... Developing device
20 ... Cleaning device
23 ... Case
24. Cleaning blade
26 ... Blade holder
26a ... rotating shaft
27 ... Spring
28 ... Sealing material
30 ... Recovery blade
31 ... Toner Auger
32 ... Auxiliary brush

Claims (6)

A cleaning blade that presses and slides on the image carrier at a position facing the image carrier after completion of transfer of the toner image to remove residual toner on the image carrier, and the residual toner dropped from the cleaning blade The direction of the force applied to the contact point of the support means is the direction of the fulcrum of the support means. And a toner scattering preventing means that is spanned between the toner collecting container and the supporting means so as to coincide with the shortest direction to the toner and prevents toner scattering from a gap with the supporting means above the toner collecting container. A cleaning device characterized by. A cleaning blade that presses and slides on the image carrier at a position facing the image carrier after completion of transfer of the toner image to remove residual toner on the image carrier, and the residual toner dropped from the cleaning blade A toner collecting container for storing the toner, a rotatable blade supporting means for supporting the cleaning blade above the toner collecting container, and a direction of a force applied to a contact portion with the blade supporting means. Flexibility between the toner collection container and the blade support means so as to coincide with the shortest direction toward the moving fulcrum, and preventing toner scattering from a gap with the blade support means above the toner collection container. And a toner scattering prevention means comprising a sheet having the cleaning device. A cleaning blade that presses and slides on the image carrier at a position facing the image carrier after completion of transfer of the toner image to remove residual toner on the image carrier, and the residual toner dropped from the cleaning blade A toner collection container for storing the toner, an auxiliary cleaning brush supported by the toner collection container and in sliding contact with the image carrier before reaching the cleaning blade, and a rotation for supporting the cleaning blade above the toner collection container The blade support means and the force applied to the contact point between the blade support means and the toner collection container and the blade support means so that the direction of the force coincides with the shortest direction of the blade support means toward the rotation fulcrum. Flexibility to prevent toner scattering from the gap with the blade support means above the toner collection container Cleaning apparatus, characterized in that comprises a toner scattering prevention means consist of a sheet having a. 4. A cleaning apparatus according to claim 2, wherein one end of the toner scattering preventing means is fixed to a toner collecting container, and a free end of the toner scattering preventing means is brought into contact with the blade supporting means. 4. A cleaning apparatus according to claim 2, wherein one end of the toner scattering preventing means is fixed to the blade supporting means, and a free end of the toner scattering preventing means is brought into contact with the toner recovery container. The toner recovery container has a cylindrical inner wall centering on the rotation fulcrum of the blade support means, and the free end of the toner scattering preventing means is brought into contact with the cylindrical inner wall by surface contact. The cleaning device according to claim 5, wherein:

Images