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JP5046810B2 - Developing device and image forming apparatus - Google Patents

Developing device and image forming apparatus Download PDF

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JP5046810B2
JP5046810B2 JP2007229869A JP2007229869A JP5046810B2 JP 5046810 B2 JP5046810 B2 JP 5046810B2 JP 2007229869 A JP2007229869 A JP 2007229869A JP 2007229869 A JP2007229869 A JP 2007229869A JP 5046810 B2 JP5046810 B2 JP 5046810B2
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carrier
developing
latent image
supply
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康彦 菅野
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Ricoh Co Ltd
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Description

本発明は、複写機、ファクシミリ、プリンタ等に用いられる現像装置に係り、詳しくは、トナーと磁性キャリアからなる2成分現像剤を用いる現像装置およびこれを用いた画像形成装置に関するものである。   The present invention relates to a developing device used for a copying machine, a facsimile, a printer, and the like, and more particularly to a developing device using a two-component developer composed of toner and a magnetic carrier and an image forming apparatus using the same.

従来、トナーと磁性キャリアからなる2成分現像剤を用いる現像装置が広く用いられている。この現像装置では、現像ローラの回転に伴い現像ローラ表面に発生した気流が、現像領域下流側の現像ローラとケーシングとの隙間から装置内に流れ込む。流れ込んだ気流は、装置内で逃げ場がないので内圧を上昇させる。内圧が上昇すると、外圧との圧力差により、現像領域下流側の現像ローラとケーシングとの隙間から逆に装置外へ噴き出す気流を発生させしてしまう。この噴き出し気流により、ケーシング内のキャリアによる静電気的拘束力が弱いトナーがケーシング外へと噴き出され、トナー飛散という不具合を引き起こす。   Conventionally, developing devices using a two-component developer composed of toner and a magnetic carrier have been widely used. In this developing device, an air flow generated on the surface of the developing roller as the developing roller rotates flows into the device through a gap between the developing roller and the casing on the downstream side of the developing region. The airflow that flows in increases the internal pressure because there is no escape in the device. When the internal pressure rises, an air flow that is jetted out of the apparatus from the gap between the developing roller and the casing on the downstream side of the developing region is generated due to a pressure difference with the external pressure. Due to the jetted airflow, toner having a weak electrostatic binding force by the carrier in the casing is jetted out of the casing, causing a problem of toner scattering.

このようなトナー飛散を防止するために、現像ローラとケーシングとの隙間を狭くすることがおこなわれているが、隙間をなくしてしまうことはできず、狭くするだけではトナー飛散を抑える効果に限界がある。そこで、噴き出し気流の原因となる現像装置の内圧上昇を抑制してトナー飛散を抑制しようとするものが提案されている。例えば、特許文献1には、現像領域下流側の現像ローラとケーシングとの間から流れ込んだ空気が、ケーシングに設けられた排気用開口部から装置外に排出されるように空気の流路を形成するものが記載されている。また、特許文献2には、トナー飛散の顕著な現像ローラ両端部で現像ローラとケーシングとの隙間を狭くする共に、現像ローラ中央部で現像ローラとケーシングとの隙間を広くして中央部における流れ込み気流の流速を低くして内圧上昇を抑制するものが記載されている。   In order to prevent such toner scattering, the gap between the developing roller and the casing is narrowed. However, the gap cannot be eliminated, and the effect of suppressing the toner scattering is limited only by narrowing the gap. There is. Therefore, there has been proposed an apparatus that suppresses toner scattering by suppressing an increase in the internal pressure of the developing device that causes a jet air flow. For example, in Patent Document 1, an air flow path is formed so that air flowing from between the developing roller and the casing on the downstream side of the developing region is discharged out of the apparatus from an exhaust opening provided in the casing. What to do is described. Further, in Patent Document 2, the gap between the developing roller and the casing is narrowed at both ends of the developing roller where toner scattering is remarkable, and the gap between the developing roller and the casing is widened at the central portion of the developing roller to flow into the central portion. A device that suppresses an increase in internal pressure by reducing the flow velocity of the airflow is described.

特開2005−346035号公報JP 2005-346035 A 特開2006−113408号公報JP 2006-113408 A

ところで、従来の2成分現像剤を用いる現像装置では、現像剤担持体である現像ローラに現像剤を供給する搬送路と現像剤を攪拌する搬送路とを分けて設けており、2つの搬送路で現像剤を逆方向に搬送することにより現像剤を循環させている。現像ローラは、内包する磁界発生手段の磁力により供給された現像剤を磁気ブラシとして担持して、ケーシングに設けられた開口部より現像ローラが露出して潜像担持体である感光体との対向する現像領域まで搬送し、感光体上の潜像を現像する。   By the way, in a conventional developing device using a two-component developer, a conveyance path for supplying a developer to a developing roller as a developer carrying member and a conveyance path for stirring the developer are provided separately, and two conveyance paths are provided. The developer is circulated by conveying the developer in the reverse direction. The developing roller carries the developer supplied by the magnetic force of the magnetic field generating means contained therein as a magnetic brush, and the developing roller is exposed from an opening provided in the casing so as to face the photosensitive member as a latent image carrier. The latent image on the photoreceptor is developed by transporting it to the developing area.

ところが、この現像装置では、現像ローラに現像剤を供給する搬送路と、現像ローラに供給され現像領域を通過した現像剤を回収する搬送路とが共通であるため、現像ローラに供給する搬送路の搬送方向下流側ほど現像ローラに供給する現像剤のトナー濃度が低下するという問題があった。現像ローラに供給するトナー濃度が低下すると、現像時の画像濃度も低下となる。   However, in this developing apparatus, the conveyance path for supplying the developer to the developing roller and the conveyance path for collecting the developer that has been supplied to the developing roller and passed through the development region are common, and therefore the conveyance path for supplying the developing roller. There is a problem in that the toner concentration of the developer supplied to the developing roller decreases toward the downstream side in the transport direction. When the toner density supplied to the developing roller decreases, the image density during development also decreases.

このような問題を解決するために、現像ローラに現像剤を供給する搬送路(以下、供給搬送路という)と、現像領域を通過した現像剤を現像ローラから回収する搬送路(以下、回収搬送路という)とを別に設けた現像装置が知られている。この現像装置では、現像済みの現像剤は回収搬送路に回収されるため、供給搬送路に混入することがない。よって、供給搬送路内の現像剤のトナー濃度が下流側でも変化することなく、現像ローラに供給される現像剤のトナー濃度も一定となり、現像時の画像濃度の不均一や画像濃度の低下を防止することができる。   In order to solve such problems, a conveyance path for supplying the developer to the developing roller (hereinafter referred to as a supply conveyance path) and a conveyance path for collecting the developer that has passed through the development area from the developing roller (hereinafter referred to as collection conveyance). There is known a developing device provided with a separate path). In this developing device, the developed developer is collected in the collection conveyance path, so that it does not enter the supply conveyance path. Therefore, the toner density of the developer in the supply conveyance path does not change even on the downstream side, and the toner density of the developer supplied to the developing roller is also constant, resulting in uneven image density and reduced image density during development. Can be prevented.

回収搬送路を別に設けた現像装置においては、上記現像ローラの回転に伴う流れ込み気流が現像領域下流側となる回収搬送路に流れ込み、内圧上昇が発生する。回収搬送路では、ほぼ均一に現像剤が回収されるが、回収された現像剤は、回収搬送路上流から下流へ向けて搬送されるため、回収搬送路上流側に比べて、下流側の現像剤量が多くなる。これにより回収搬送路内の空隙が上流側では広く、下流側では狭くなっており、流れ込み気流による内圧は、下流側が上流側に比べて上昇しやすい。このため、回収搬送路の搬送方向下流側で内圧上昇に起因する噴き出し気流が発生しやすくなり、下流側で著しいトナー飛散が生じやすい。このような、回収搬送路の搬送方向に関する内圧上昇の偏りは、上記特許文献1または特許文献2の装置で解決することは難しい。   In a developing device provided with a separate collection conveyance path, an inflow air flow accompanying the rotation of the developing roller flows into the collection conveyance path on the downstream side of the development region, and an internal pressure rises. The developer is collected almost uniformly on the collection conveyance path. However, since the collected developer is conveyed from the upstream of the collection conveyance path to the downstream side, the developer on the downstream side is compared with the upstream side of the collection conveyance path. The dosage is increased. As a result, the gap in the collection conveyance path is wide on the upstream side and narrow on the downstream side, and the internal pressure due to the inflow airflow is likely to rise on the downstream side as compared with the upstream side. For this reason, it is easy to generate a blown air flow due to an increase in internal pressure on the downstream side in the transport direction of the recovery transport path, and toner scattering is likely to occur on the downstream side. Such a bias of an increase in internal pressure with respect to the transport direction of the recovery transport path is difficult to solve with the apparatus of Patent Document 1 or Patent Document 2.

本発明は、以上の背景に鑑みなされたものであり、その目的とするところは、2成分現像剤を用い、現像剤担持体に現像剤を供給する搬送路と、現像領域を通過した現像剤を現像剤担持体から回収する搬送路とを別に設けた現像装置において、現像剤担持体の回転による装置の内圧上昇が現像剤搬送方向により偏ることを抑制し、トナー飛散を抑制することのできる現像装置および画像形成装置を提供することである。   The present invention has been made in view of the above background. The object of the present invention is to use a two-component developer, a conveyance path for supplying the developer to the developer carrying member, and a developer that has passed through the development region. In the developing device separately provided with the transport path for collecting the toner from the developer carrier, the increase in the internal pressure of the device due to the rotation of the developer carrier can be suppressed from being biased in the developer transport direction, and toner scattering can be suppressed. A developing device and an image forming apparatus are provided.

上記目的を達成するために、請求項1の発明は、複数の磁極を有する磁界発生手段を内包する回転可能なスリーブからなり、磁性キャリアとトナーとからなる2成分現像剤を表面に担持して該潜像担持体との対向部へ搬送し、該潜像担持体上の潜像を現像する現像剤担持体と、該潜像担持体に対向する位置で該現像剤担持体を露出する開口部を有する現像ケーシングと、該現像剤担持体の軸線方向に沿って現像剤を搬送し、該現像剤担持体に現像剤を供給する現像剤供給搬送部材を備えた現像剤供給搬送路と、該潜像担持体と対向する箇所を通過後の該現像剤担持体上から回収された該現像剤を該現像剤担持体の軸線方向に沿って、且つ、該現像剤供給搬送部材と同方向に搬送する現像剤回収搬送部材を備えた現像剤回収搬送路と、現像に用いられずに該現像剤供給搬送路の搬送方向の最下流側まで搬送された余剰現像剤と、該現像剤担持体から回収され該現像剤回収搬送路の搬送方向の下流側まで搬送された回収現像剤との供給を受け、該現像剤担持体の軸線方向に沿って、且つ、該余剰現像剤と該回収現像剤とを攪拌しながら該現像剤供給搬送部材とは逆方向に搬送する現像剤攪拌搬送部材を備え、該現像剤を該現像剤供給搬送路に供給する現像剤攪拌搬送路とを備えた現像装置において、上記現像剤担持体と、上記開口部よりも現像剤担持体回転方向下流側の現像ケーシングとの間隙が、上記回収現像剤搬送路の現像剤搬送方向に関して下流側が上流側より大きいことを特徴とするものである。
また、請求項の発明は、複数の磁極を有する磁界発生手段を内包する回転可能なスリーブからなり、磁性キャリアとトナーとからなる2成分現像剤を表面に担持して該潜像担持体との対向部へ搬送し、該潜像担持体上の潜像を現像する現像剤担持体と、該潜像担持体に対向する位置で該現像剤担持体を露出する開口部を有する現像ケーシングと、該現像剤担持体の軸線方向に沿って現像剤を搬送し、該現像剤担持体に現像剤を供給する現像剤供給搬送部材を備えた現像剤供給搬送路と、該潜像担持体と対向する箇所を通過後の該現像剤担持体上から回収された該現像剤を該現像剤担持体の軸線方向に沿って、且つ、該現像剤供給搬送部材と同方向に搬送する現像剤回収搬送部材を備えた現像剤回収搬送路と、現像に用いられずに該現像剤供給搬送路の搬送方向の最下流側まで搬送された余剰現像剤と、該現像剤担持体から回収され該現像剤回収搬送路の搬送方向の下流側まで搬送された回収現像剤との供給を受け、該現像剤担持体の軸線方向に沿って、且つ、該余剰現像剤と該回収現像剤とを攪拌しながら該現像剤供給搬送部材とは逆方向に搬送する現像剤攪拌搬送部材を備え、該現像剤を該現像剤供給搬送路に供給する現像剤攪拌搬送路とを備えた現像装置において、上記現像剤担持体と、上記開口部よりも現像剤担持体回転方向下流側の現像ケーシングとの間隙が、上記回収現像剤搬送路の現像剤搬送方向に関して現像剤量が多い側が少ない側より大きいことを特徴とするものである。
また、請求項の発明は、請求項1または2の現像装置において、上記開口部よりも現像剤担持体回転方向下流側の現像ケーシングが、該現像剤担持体と同心円となる円弧形状であることを特徴とするものである。
また、請求項の発明は、少なくとも潜像担持体と、該潜像担持体表面を帯電させるための帯電手段と、該潜像担持体上に静電潜像を形成するための潜像形成手段と、該静電潜像を現像してトナー像化するための現像手段とを有する画像形成装置において、上記現像手段として、請求項1、2または3の何れかの現像装置を用いることを特徴とするものである。
In order to achieve the above object, the invention of claim 1 comprises a rotatable sleeve containing a magnetic field generating means having a plurality of magnetic poles, and carrying a two-component developer comprising a magnetic carrier and toner on the surface. A developer carrier that is transported to a portion facing the latent image carrier and develops the latent image on the latent image carrier, and an opening that exposes the developer carrier at a position facing the latent image carrier A developer casing having a portion, a developer supply transport path including a developer supply transport member that transports the developer along the axial direction of the developer carrier and supplies the developer to the developer carrier, The developer recovered from the developer carrier after passing through the portion facing the latent image carrier is along the axial direction of the developer carrier and in the same direction as the developer supply / conveying member. A developer recovery transport path with a developer recovery transport member that transports the And excess developer conveyed to the most downstream side in the transport direction of the developer supply conveyance path without being, conveyed from the developer carrying member to the lower stream side in the conveying direction of the collected developer collection conveyance path The supply with the collected developer is received, and the developer is conveyed along the axial direction of the developer carrier in the opposite direction to the developer supply and conveyance member while stirring the excess developer and the collected developer. In a developing device including a developer agitating / conveying member and a developer agitating / conveying path for supplying the developer to the developer supply / conveying path, the developer carrying body and the developer carrying body from the opening. gap between the developing casing in the downstream side in the rotational direction is one in which the lower stream side in respect developer conveying direction of the collected developer conveying path is equal to or greater than the upstream side.
According to a second aspect of the present invention, there is provided a rotatable sleeve containing a magnetic field generating means having a plurality of magnetic poles, and a two-component developer comprising a magnetic carrier and a toner is carried on the surface and the latent image carrier. A developer carrying member that is conveyed to the opposite portion of the latent image carrier and develops the latent image on the latent image carrier, and a developing casing having an opening that exposes the developer carrier at a position facing the latent image carrier. A developer supply transport path including a developer supply transport member that transports the developer along the axial direction of the developer support and supplies the developer to the developer support, and the latent image support; Developer recovery for transporting the developer recovered from the developer carrier after passing through the opposite part along the axial direction of the developer carrier and in the same direction as the developer supply transport member A developer recovery conveyance path provided with a conveyance member, and the developer supply without being used for development; Supply of excess developer transported to the most downstream side in the transport direction of the transport path and recovered developer recovered from the developer carrier and transported to the downstream side in the transport direction of the developer recovery transport path A developer agitating and conveying member that conveys in the direction opposite to the developer supply and conveying member while stirring the surplus developer and the recovered developer along the axial direction of the developer carrying member; In the developing device including the developer agitating / conveying path for supplying the developer to the developer supplying / conveying path, the developer carrying member, and a developing casing on the downstream side in the developer carrying member rotating direction with respect to the opening, Is characterized in that the side with a larger amount of developer is larger than the side with a smaller amount in the developer transport direction of the recovered developer transport path .
According to a third aspect of the present invention, in the developing device according to the first or second aspect , the developing casing on the downstream side in the rotation direction of the developer carrier relative to the opening has an arc shape concentric with the developer carrier. It is characterized by this.
According to a fourth aspect of the present invention, there is provided at least a latent image carrier, charging means for charging the surface of the latent image carrier, and formation of a latent image for forming an electrostatic latent image on the latent image carrier. And a developing device for developing the electrostatic latent image into a toner image, the developing device according to claim 1, 2 or 3 being used as the developing device. It is a feature.

本発明においては、現像領域下流側の現像ケーシングとの現像剤担持体との間隙の大きさが回収現像剤搬送路の現像剤搬送方向に関して異なるようにすることにより、この間隙より現像装置内への流れ込む気流の流速を現像剤搬送方向に関して異なるようにすることができる。これにより、現像剤搬送方向に関する回収現像剤搬送路内の空隙の大きさに差異があったとしても、これに対応して上記間隙の大きさを異なるようにすることで、流れ込み気流の流速に差異を設けて、流れ込み気流による内圧上昇の偏りを抑制することができる。   In the present invention, the size of the gap between the developing casing on the downstream side of the developing region and the developer carrying member is made different with respect to the developer carrying direction of the recovered developer carrying path, so that the gap enters the developing device. The flow velocity of the air flowing in can be made different with respect to the developer transport direction. As a result, even if there is a difference in the size of the gap in the collected developer conveyance path in the developer conveyance direction, the size of the gap is made different correspondingly, so that the flow velocity of the inflowing air current is increased. By providing the difference, it is possible to suppress the bias of the internal pressure increase due to the inflow airflow.

本発明によれば、2成分現像剤を用い、現像剤担持体に現像剤を供給する搬送路と、現像領域を通過した現像剤を現像剤担持体から回収する搬送路とを別に設けた現像装置において、現像剤担持体の回転による装置の内圧上昇が現像剤搬送方向により偏ることを抑制し、トナー飛散を抑制することのできるという優れた効果がある。   According to the present invention, development using a two-component developer and separately providing a conveyance path for supplying the developer to the developer carrier and a conveyance path for collecting the developer that has passed through the development area from the developer carrier. In the apparatus, it is possible to suppress the increase in the internal pressure of the apparatus due to the rotation of the developer carrying member from being biased in the developer transport direction and to suppress toner scattering.

以下、本発明を適用した画像形成装置として、複数の感光体が並行配設されたタンデム型のカラーレーザー複写機(以下、単に「複写機」という)の一実施形態について説明する。
図1は、本実施形態に係る複写機の概略構成図である。この複写機はプリンタ部100、これを載せる給紙装置200、プリンタ部100の上に固定されたスキャナ300などを備えている。また、このスキャナ300の上に固定された原稿自動搬送装置400なども備えている。
Hereinafter, as an image forming apparatus to which the present invention is applied, an embodiment of a tandem type color laser copying machine (hereinafter simply referred to as “copying machine”) in which a plurality of photoconductors are arranged in parallel will be described.
FIG. 1 is a schematic configuration diagram of a copying machine according to the present embodiment. The copier includes a printer unit 100, a paper feeding device 200 on which the printer unit 100 is placed, a scanner 300 fixed on the printer unit 100, and the like. An automatic document feeder 400 fixed on the scanner 300 is also provided.

上記プリンタ部100は、イエロー(Y)、マゼンダ(M)、シアン(C)、黒(K)の各色の画像を形成するための4組のプロセスカートリッジ18Y,M,C,Kからなる画像形成ユニット20を備えている。各符号の数字の後に付されたY,M,C,Kは、イエロー、シアン、マゼンダ、ブラック用の部材であることを示している(以下同様)。プロセスカートリッジ18Y,M,C,Kの他には、光書込ユニット21、中間転写ユニット17、二次転写装置22、レジストローラ対49、定着装置25などが配設されている。   The printer unit 100 forms an image including four sets of process cartridges 18Y, 18M, 18C, and 18K for forming images of each color of yellow (Y), magenta (M), cyan (C), and black (K). A unit 20 is provided. Y, M, C, and K attached to the numbers of the respective symbols indicate members for yellow, cyan, magenta, and black (the same applies hereinafter). In addition to the process cartridges 18Y, 18M, 18C, and 18K, an optical writing unit 21, an intermediate transfer unit 17, a secondary transfer device 22, a registration roller pair 49, a fixing device 25, and the like are disposed.

プロセスカートリッジ18Y,M,C,Kは、ドラム状の感光体1、帯電器、現像装置4、ドラムクリーニング装置、除電器などを有している。   The process cartridges 18Y, 18M, 18C, and 18K include a drum-shaped photosensitive member 1, a charger, a developing device 4, a drum cleaning device, a static eliminator, and the like.

以下、イエロー用のプロセスカートリッジ18について説明する。
帯電手段たる帯電器によって、感光体1Yの表面は一様帯電される。帯電処理が施された感光体1Yの表面には、光書込ユニット21によってレーザ光が照射され、感光体1Yの表面にY用の静電潜像が形成される。形成されたY用の静電潜像は現像手段たる現像装置4Yによって現像されてYトナー像となる。Y用の感光体1Y上に形成されたYトナー像は、後述の中間転写ベルト110に一次転写される。一次転写後の感光体1Yの表面は、ドラムクリーニング装置によって転写残トナーがクリーニングされる。
Y用のプロセスカートリッジ18Yにおいて、ドラムクリーニング装置によってクリーニングされた感光体1Yは、除電器によって除電される。そして、帯電器によって一様帯電せしめられて、初期状態に戻る。以上のような一連のプロセスは、他のプロセスカートリッジ(18M,C,K)についても同様である。
Hereinafter, the yellow process cartridge 18 will be described.
The surface of the photoreceptor 1Y is uniformly charged by a charger as charging means. The surface of the photoreceptor 1Y subjected to the charging process is irradiated with laser light by the optical writing unit 21, and an electrostatic latent image for Y is formed on the surface of the photoreceptor 1Y. The formed electrostatic latent image for Y is developed by the developing device 4Y as developing means to become a Y toner image. The Y toner image formed on the Y photoconductor 1Y is primarily transferred to an intermediate transfer belt 110 described later. The surface of the photoreceptor 1Y after the primary transfer is cleaned of the transfer residual toner by a drum cleaning device.
In the Y process cartridge 18Y, the photoconductor 1Y cleaned by the drum cleaning device is discharged by the charge eliminator. Then, it is uniformly charged by the charger and returns to the initial state. The series of processes as described above is the same for the other process cartridges (18M, C, K).

次に、中間転写ユニットについて説明する。
中間転写ユニット17は、中間転写ベルト110やベルトクリーニング装置90、一次転写バイアスローラ62Y,M,C,Kなどを有している。中間転写ベルト110は、図中時計回りに無端移動せしめられる。4つの一次転写バイアスローラ62Y,M,C,Kは、それぞれ中間転写ベルト110の内周面側に接触するように配設され、図示しない電源から一次転写バイアスの印加を受ける。また、中間転写ベルト110をその内周面側から感光体1Y,M,C,Kに向けて押圧してそれぞれ一次転写ニップを形成する。各一次転写ニップには、一次転写バイアスの影響により、感光体と一次転写バイアスローラとの間に一次転写電界が形成される。
Y用の感光体1Y上に形成された上述のYトナー像は、この一次転写電界やニップ圧の影響によって中間転写ベルト110上に一次転写される。このYトナー像の上には、M,C,K用の感光体1M,C,K上に形成されたM,C,Kトナー像が順次重ね合わせて一次転写される。この重ね合わせの一次転写により、中間転写ベルト110上には多重トナー像たる4色重ね合わせトナー像(以下、4色トナー像という)が形成される。
中間転写ベルト110上に重ね合わせ転写された4色トナー像は、後述の二次転写ニップで図示しない記録シートたる転写紙に二次転写される。二次転写ニップ通過後の中間転写ベルト110の表面に残留する転写残トナーは、図中左側の駆動ローラ15との間にベルトを挟み込むベルトクリーニング装置90によってクリーニングされる。
Next, the intermediate transfer unit will be described.
The intermediate transfer unit 17 includes an intermediate transfer belt 110, a belt cleaning device 90, primary transfer bias rollers 62Y, M, C, and K. The intermediate transfer belt 110 is endlessly moved clockwise in the drawing. The four primary transfer bias rollers 62Y, 62M, 62C, and 62K are disposed so as to be in contact with the inner peripheral surface side of the intermediate transfer belt 110, respectively, and receive primary transfer bias from a power source (not shown). Further, the intermediate transfer belt 110 is pressed toward the photoreceptors 1Y, 1M, 1C, and 1K from the inner peripheral surface side to form primary transfer nips. In each primary transfer nip, a primary transfer electric field is formed between the photosensitive member and the primary transfer bias roller due to the influence of the primary transfer bias.
The above-described Y toner image formed on the Y photoconductor 1Y is primarily transferred onto the intermediate transfer belt 110 due to the influence of the primary transfer electric field and nip pressure. On the Y toner image, the M, C, K toner images formed on the M, C, K photoconductors 1M, C, K are sequentially superposed and primarily transferred. By this primary transfer of superposition, a four-color superposed toner image (hereinafter referred to as a four-color toner image) that is a multiple toner image is formed on the intermediate transfer belt 110.
The four-color toner image superimposed and transferred onto the intermediate transfer belt 110 is secondarily transferred onto a transfer sheet (not shown) as a recording sheet at a secondary transfer nip described later. Transfer residual toner remaining on the surface of the intermediate transfer belt 110 after passing through the secondary transfer nip is cleaned by a belt cleaning device 90 that sandwiches the belt with the driving roller 15 on the left side in the drawing.

次に、二次転写装置22について説明する。
中間転写ユニット17の図中下方には、2本の張架ローラ23によって紙搬送ベルト24を張架している二次転写装置22が配設されている。紙搬送ベルト24は、図中反時計回りに無端移動せしめられる。2本の張架ローラ23のうち、図中右側に配設された一方のローラは、中間転写ユニット17の二次転写バックアップローラ16との間に、中間転写ベルト110及び紙搬送ベルト24を挟み込んでいる。この挟み込みにより、中間転写ユニット17の中間転写ベルト110と、二次転写装置22の紙搬送ベルト24とが接触する二次転写ニップが形成されている。そして、この一方の張架ローラ23には、トナーと逆極性の二次転写バイアスが図示しない電源によって印加される。この二次転写バイアスの印加により、二次転写ニップには中間転写ユニット17の中間転写ベルト110上の4色トナー像をベルト側からこの一方の張架ローラ23側に向けて静電移動させる二次転写電界が形成される。後述のレジストローラ対49によって中間転写ベルト110上の4色トナー像に同期するように二次転写ニップに送り込まれた転写紙には、この二次転写電界やニップ圧の影響を受けた4色トナー像が二次転写せしめられる。
Next, the secondary transfer device 22 will be described.
Below the intermediate transfer unit 17 in the figure, a secondary transfer device 22 is disposed in which a paper conveying belt 24 is stretched by two stretching rollers 23. The paper conveying belt 24 is moved endlessly counterclockwise in the drawing. One of the two stretching rollers 23 arranged on the right side in the drawing sandwiches the intermediate transfer belt 110 and the paper transport belt 24 between the secondary transfer backup roller 16 of the intermediate transfer unit 17. It is out. By this sandwiching, a secondary transfer nip is formed in which the intermediate transfer belt 110 of the intermediate transfer unit 17 and the paper transport belt 24 of the secondary transfer device 22 are in contact with each other. A secondary transfer bias having a polarity opposite to that of the toner is applied to the one stretching roller 23 by a power source (not shown). By applying this secondary transfer bias, the four-color toner image on the intermediate transfer belt 110 of the intermediate transfer unit 17 is electrostatically moved from the belt side toward the one stretching roller 23 side in the secondary transfer nip. A next transfer electric field is formed. The transfer paper fed into the secondary transfer nip so as to synchronize with the four-color toner image on the intermediate transfer belt 110 by a registration roller pair 49 to be described later has four colors affected by the secondary transfer electric field and nip pressure. The toner image is secondarily transferred.

複写機本体の下部に設けられた給紙装置200には、内部に複数の転写紙を紙束の状態で複数枚重ねて収容可能な給紙カセット44が、鉛直方向に複数重なるように配設されている。それぞれの給紙カセット44より、一番上の転写紙を給紙路46に向けて送り出される。   In the paper feeding device 200 provided at the lower part of the copying machine main body, a plurality of paper feeding cassettes 44 in which a plurality of transfer sheets can be stacked and accommodated in a bundle of sheets are arranged so as to overlap in the vertical direction. Has been. The uppermost transfer paper is sent out from each paper feed cassette 44 toward the paper feed path 46.

給紙カセット44から送り出された転写紙を受け入れる給紙路46は、複数の搬送ローラ対47と、その路内の末端付近に設けられたレジストローラ対49とを有している。そして、転写紙をレジストローラ対49に向けて搬送する。レジストローラ対49に向けて搬送された転写紙は、レジストローラ対49のローラ間に挟まれる。一方、上記中間転写ユニット17において、中間転写ベルト110上に形成された4色トナー像は、ベルトの無端移動に伴って上記二次転写ニップに進入する。レジストローラ対49は、ローラ間に挟み込んだ転写紙を二次転写ニップにて4色トナー像に密着させ得るタイミングで送り出す。これにより、二次転写ニップでは、中間転写ベルト110上の4色トナー像が転写紙に密着する。そして、転写紙上に二次転写されて、白色の転写紙上でフルカラー画像となる。このようにしてフルカラー画像が形成された転写紙は、紙搬送ベルト24の無端移動に伴って二次転写ニップを出た後、紙搬送ベルト24上から定着装置25に送られる。 定着装置25は、紙搬送ベルト24から受け取った転写紙を挟み込み、熱と圧力により、フルカラー画像を転写紙に定着する。   The paper feed path 46 that receives the transfer paper fed from the paper feed cassette 44 has a plurality of conveying roller pairs 47 and a registration roller pair 49 provided near the end in the path. Then, the transfer paper is conveyed toward the registration roller pair 49. The transfer sheet conveyed toward the registration roller pair 49 is sandwiched between the rollers of the registration roller pair 49. On the other hand, in the intermediate transfer unit 17, the four-color toner image formed on the intermediate transfer belt 110 enters the secondary transfer nip as the belt moves endlessly. The registration roller pair 49 sends out the transfer paper sandwiched between the rollers at a timing at which the transfer paper can be brought into close contact with the four-color toner image at the secondary transfer nip. Thereby, in the secondary transfer nip, the four-color toner image on the intermediate transfer belt 110 is in close contact with the transfer paper. Then, it is secondarily transferred onto the transfer paper and becomes a full color image on the white transfer paper. The transfer paper on which the full-color image is formed in this manner exits the secondary transfer nip as the paper transport belt 24 moves endlessly, and then is sent from the paper transport belt 24 to the fixing device 25. The fixing device 25 sandwiches the transfer paper received from the paper transport belt 24 and fixes the full-color image on the transfer paper by heat and pressure.

次に、4つのプロセスカートリッジ18(Y,M,C,K)について説明する。なお、4つのプロセスカートリッジ18(Y,M,C,K)は、それぞれ扱うトナーの色が異なる点の他がほぼ同様の構成になっているので、以下、Y,M,C,Kという添字を省略して説明する。感光体1は図中矢印方向に回転しながら、その表面を不図示の帯電装置により帯電される。帯電された感光体1の表面は不図示の露光装置より照射されたレーザ光により静電潜像を形成された潜像に現像装置4からトナーを供給され、トナー像を形成する。   Next, the four process cartridges 18 (Y, M, C, K) will be described. The four process cartridges 18 (Y, M, C, K) have substantially the same configuration except that the colors of the toners to be handled are different from each other. The description is omitted. The surface of the photoreceptor 1 is charged by a charging device (not shown) while rotating in the direction of the arrow in the drawing. The charged surface of the photoreceptor 1 is supplied with toner from the developing device 4 to a latent image on which an electrostatic latent image is formed by laser light emitted from an exposure device (not shown), thereby forming a toner image.

次に、現像装置4について説明する。図2は、現像装置の概略構成図である。現像装置4は、図2中矢印b方向に表面移動しながら感光体1の表面の潜像にトナーを供給する、現像する現像剤担持体として、複数の磁極を有する磁界発生手段としてのマグネットローラを内包する回転可能な現像スリーブからなる現像ローラ5を有している。また、現像ローラ5に現像剤を供給しながら、図2の奥方向に現像剤を搬送する現像剤供給搬送部材としての供給スクリュ8を備えた供給搬送路9を有している。現像ローラ5の供給スクリュ8との対向部から表面移動方向下流側には、現像ローラ5に供給された現像剤を現像に適した厚さに規制する現像剤規制部材としての現像ドクタ12を備えている。現像ローラ5は、供給スクリュ8により供給された現像剤を磁力により磁気ブラシとして担持して、回転により搬送する。現像剤は、途中、現像ドクタ12により層厚を規制されて適当な層厚となる。感光体1と対向する位置では、現像ケーシンング13に設けられた開口部より現像ローラ5が露出して現像領域を形成している。この現像領域では、マグネットローラの主極が配置されており、この磁界により2成分現像剤で磁気ブラシを形成し、磁気ブラシからトナーを感光体1上に供給して潜像を現像する。また、現像領域下流側には、現像領域を通過した現像済みの現像剤を回収し、回収した回収現像剤を供給スクリュ8と同方向に搬送する現像剤回収搬送部材としての回収スクリュ6を備えた回収搬送路7を有している。なお、図2の現像装置では、供給搬送路9は現像ローラ5の横方向に、回収搬送路7は現像ローラ5の下方に並設されている。また、供給搬送路9の下方で回収搬送路7に並列して、現像剤攪拌搬送路である攪拌搬送路10を設けている。攪拌搬送路10は、現像剤を攪拌しながら供給スクリュ8とは逆方向である図中手前側に搬送する現像剤攪拌搬送部材としての攪拌スクリュ11を備えている。   Next, the developing device 4 will be described. FIG. 2 is a schematic configuration diagram of the developing device. The developing device 4 supplies a toner to the latent image on the surface of the photoreceptor 1 while moving in the direction of arrow b in FIG. 2, and as a developer carrier for developing, a magnet roller as a magnetic field generating means having a plurality of magnetic poles The developing roller 5 includes a rotatable developing sleeve that encloses the toner. Further, a supply conveyance path 9 having a supply screw 8 as a developer supply conveyance member that conveys the developer in the depth direction of FIG. 2 while supplying the developer to the developing roller 5 is provided. A developing doctor 12 as a developer regulating member for regulating the developer supplied to the developing roller 5 to a thickness suitable for development is provided on the downstream side of the surface moving direction from the portion facing the supply screw 8 of the developing roller 5. ing. The developing roller 5 carries the developer supplied by the supply screw 8 as a magnetic brush by magnetic force, and conveys it by rotation. In the middle of the developer, the layer thickness is regulated by the developing doctor 12 to an appropriate layer thickness. At a position facing the photoreceptor 1, the developing roller 5 is exposed from an opening provided in the developing casing 13 to form a developing region. In this development area, the main pole of the magnet roller is disposed. By this magnetic field, a magnetic brush is formed with a two-component developer, and toner is supplied from the magnetic brush onto the photoreceptor 1 to develop the latent image. Further, on the downstream side of the development area, a recovery screw 6 is provided as a developer recovery transport member that recovers the developed developer that has passed through the development area and transports the recovered developer in the same direction as the supply screw 8. In addition, it has a collection conveyance path 7. In the developing device of FIG. 2, the supply conveyance path 9 is juxtaposed in the lateral direction of the development roller 5, and the collection conveyance path 7 is juxtaposed below the development roller 5. Further, a stirring conveyance path 10 which is a developer agitation conveyance path is provided below the supply conveyance path 9 in parallel with the collection conveyance path 7. The agitating and conveying path 10 includes an agitating screw 11 as a developer agitating and conveying member that conveys the developer to the front side in the figure, which is in the opposite direction to the supply screw 8 while agitating the developer.

供給搬送路9と、攪拌搬送路10と、回収搬送路7とは、それぞれ仕切り部材によって仕切られている。なお、供給搬送路9と、攪拌搬送路10とを仕切る仕切り部材は、図中手前側と奥側との両端は開口部となっており、供給搬送路9と攪拌搬送路10とが連通している。また、供給搬送路9と回収搬送路7とを仕切る仕切り部材には開口部を設けていない。また、攪拌搬送路10と回収搬送路7とを仕切る仕切り部材は、図中手前側が開口部となっており、攪拌搬送路10と回収搬送路7とが連通している。   The supply conveyance path 9, the agitation conveyance path 10, and the collection conveyance path 7 are each partitioned by a partition member. In addition, the partition member which partitions the supply conveyance path 9 and the agitation conveyance path 10 has openings at the front side and the back side in the drawing, and the supply conveyance path 9 and the agitation conveyance path 10 communicate with each other. ing. Further, the partition member that partitions the supply conveyance path 9 and the collection conveyance path 7 is not provided with an opening. In addition, the partition member that divides the agitation conveyance path 10 and the collection conveyance path 7 has an opening on the front side in the figure, and the agitation conveyance path 10 and the collection conveyance path 7 communicate with each other.

現像ローラ5上に現像ドクタ12によって層厚を規制された現像剤を現像領域まで搬送し現像を行う。現像後の現像剤は回収搬送路7にて回収を行い、図2中の断面手前側に搬送され、非画像領域部に設けられた仕切り部材の開口部で、攪拌搬送路10へ現像剤が移送される。なお、攪拌搬送路10における現像剤搬送方向上流側の仕切り部材の開口部の付近で攪拌搬送路10の上側に設けられたトナー補給口から攪拌搬送路10にトナーが供給される。   On the developing roller 5, the developer whose layer thickness is regulated by the developing doctor 12 is conveyed to the developing area and development is performed. The developer after development is collected in the collection conveyance path 7, conveyed to the front side of the cross section in FIG. 2, and the developer is supplied to the agitation conveyance path 10 through the opening of the partition member provided in the non-image area portion. Be transported. The toner is supplied to the stirring and conveying path 10 from a toner replenishing port provided on the upper side of the stirring and conveying path 10 in the vicinity of the opening of the partition member on the upstream side in the developer conveying direction in the stirring and conveying path 10.

次に、3つの現像剤搬送路内での現像剤の循環について説明する。なお、図2中の矢印d1、d2、d3、d4は、現像装置4内の現像剤の流れを示している。   Next, the circulation of the developer in the three developer conveyance paths will be described. Note that arrows d1, d2, d3, and d4 in FIG. 2 indicate the flow of the developer in the developing device 4.

攪拌搬送路10から現像剤の供給(図2中矢印d1)を受けた供給搬送路9では、現像ローラ5に現像剤を供給(図2中矢印d2)しながら、供給スクリュ8の搬送方向下流側に現像剤を搬送する。そして、現像ローラ5に供給され現像に用いられず供給搬送路9の搬送方向下流端まで搬送された余剰現像剤は仕切り部材の開口部より攪拌搬送路10に供給される。また、現像ローラ5から回収搬送路7に送られ(図2中矢印d3)、回収スクリュ6によって回収搬送路7の搬送方向下流端まで搬送された回収現像剤は仕切り部材の開口部より攪拌搬送路10に供給(図2中矢印d4)される。そして、攪拌搬送路10は、供給された余剰現像剤と回収現像剤とを攪拌し、攪拌スクリュ11の搬送方向下流側であり、供給スクリュ8の搬送方向上流側に搬送し、仕切り部材の開口部より供給搬送路9に供給(図2中矢印d1)される。   In the supply conveyance path 9 that has received the developer supply (arrow d1 in FIG. 2) from the agitation conveyance path 10, while supplying the developer to the developing roller 5 (arrow d2 in FIG. 2), the supply screw 8 is downstream in the conveyance direction. Transport developer to the side. Then, the excess developer that is supplied to the developing roller 5 and is not used for development and transported to the downstream end in the transport direction of the supply transport path 9 is supplied to the stirring transport path 10 from the opening of the partition member. Further, the collected developer fed from the developing roller 5 to the collection conveyance path 7 (arrow d3 in FIG. 2) and conveyed to the downstream end in the conveyance direction of the collection conveyance path 7 by the collection screw 6 is stirred and conveyed from the opening of the partition member. It is supplied to the path 10 (arrow d4 in FIG. 2). The agitating and conveying path 10 agitates the supplied surplus developer and the recovered developer, conveys the agitating screw 11 to the downstream side in the conveying direction, and conveys it to the upstream side in the conveying direction of the supplying screw 8, and opens the partition member. Is supplied to the supply conveyance path 9 (arrow d1 in FIG. 2).

攪拌搬送路10では攪拌スクリュ11によって、回収現像剤、余剰現像剤及び移送部で必要に応じて補給されるトナーを、回収搬送路7及び供給搬送路9の現像剤と逆方向に攪拌搬送する。そして、搬送方向下流側で連通している供給搬送路9の搬送方向上流側に攪拌された現像剤を移送する。なお、攪拌搬送路10の下方には、不図示のトナー濃度センサが設けられ、センサ出力により不図示のトナー補給制御装置を作動し、不図示のトナー収容部からトナー補給を行っている。   In the agitating and conveying path 10, the agitating screw 11 agitates and conveys the collected developer, the surplus developer, and the toner replenished as necessary in the transfer unit in the direction opposite to the developer in the collecting and conveying path 7 and the supply conveying path 9. . Then, the agitated developer is transferred to the upstream side in the conveyance direction of the supply conveyance path 9 communicating with the downstream side in the conveyance direction. A toner concentration sensor (not shown) is provided below the agitation transport path 10, and a toner supply control device (not shown) is operated by the sensor output to supply toner from a toner storage portion (not shown).

図2に示す現像装置4では、供給搬送路9と回収搬送路7とを備え、現像剤の供給と回収とを異なる現像剤搬送路で行うので、現像済みの現像剤が供給搬送路9に混入することがない。よって、供給搬送路9の搬送方向下流側ほど現像ローラ5に供給される現像剤のトナー濃度が低下することを防止することができる。また、回収搬送路7と攪拌搬送路10とを備え、現像剤の回収と攪拌とを異なる現像剤搬送路で行うので、現像済みの現像剤が攪拌の途中に落ちることがない。よって、十分に攪拌がなされた現像剤が供給搬送路9に供給されるため、剤供給搬送路9に供給されるの現像剤が攪拌不足となることを防止することができる。このように、供給搬送路9内の現像剤のトナー濃度が低下することを防止し、供給搬送路9内の現像剤が攪拌不足となることを防止することができるので現像時の画像濃度を一定にすることができる。   In the developing device 4 shown in FIG. 2, a supply conveyance path 9 and a recovery conveyance path 7 are provided, and developer supply and collection are performed in different developer conveyance paths, so that the developed developer is supplied to the supply conveyance path 9. There is no contamination. Accordingly, it is possible to prevent the toner density of the developer supplied to the developing roller 5 from decreasing toward the downstream side of the supply conveyance path 9 in the conveyance direction. Further, since the recovery conveyance path 7 and the agitation conveyance path 10 are provided and the developer recovery and agitation are performed in different developer conveyance paths, the developed developer does not fall during the agitation. Therefore, since the sufficiently agitated developer is supplied to the supply conveyance path 9, it is possible to prevent the developer supplied to the agent supply conveyance path 9 from being insufficiently agitated. In this way, the toner density of the developer in the supply conveyance path 9 can be prevented from decreasing, and the developer in the supply conveyance path 9 can be prevented from being insufficiently stirred. Can be constant.

ここで、参考例として、図7に従来の一般的な現像装置の概略構成図を、図8に従来の一般的な現像装置に採用される現像ローラの磁力分布図を示す。従来の現像装置では、現像ローラ5に現像剤を搬送しながら供給する供給スクリュ3を収容する供給搬送路と、現像剤を攪拌搬送する攪拌スクリュ4を収容する攪拌搬送路とを備え、2つの搬送路で現像剤を逆方向に搬送することにより現像剤を循環させている。なお、図7に示す現像装置は、図2で示す現像装置と、現像ドクタ12の位置が逆になっており、それに伴い現像ローラ5の回転方向が逆になっているが、基本的な機能は変わらない。この現像装置では、現像ローラ5に現像剤を供給する供給搬送路が、現像ローラ5に供給され現像領域を通過した現像剤を回収する回収搬送路としての機能を兼ねているため、現像ローラ5に供給する供給搬送路の搬送方向下流側ほど現像ローラ5に供給する現像剤のトナー濃度が低下するという問題があった。現像ローラに供給するトナー濃度が低下すると、現像時の画像濃度も低下となっていた。   Here, as a reference example, FIG. 7 shows a schematic configuration diagram of a conventional general developing device, and FIG. 8 shows a magnetic force distribution diagram of a developing roller employed in a conventional general developing device. The conventional developing apparatus includes a supply conveyance path that accommodates a supply screw 3 that supplies the developer to the developing roller 5 while conveying the developer, and an agitation conveyance path that accommodates an agitation screw 4 that agitates and conveys the developer. The developer is circulated by conveying the developer in the reverse direction on the conveyance path. The developing device shown in FIG. 7 is different from the developing device shown in FIG. 2 in that the position of the developing doctor 12 is reversed and the rotation direction of the developing roller 5 is accordingly reversed. Will not change. In this developing device, the supply conveyance path for supplying the developer to the development roller 5 also functions as a collection conveyance path for collecting the developer supplied to the development roller 5 and passed through the development region. There is a problem in that the toner concentration of the developer supplied to the developing roller 5 decreases toward the downstream side in the conveying direction of the supply conveying path. When the density of toner supplied to the developing roller decreases, the image density during development also decreases.

次に、本実施形態の特徴部を説明する。
図3は、現像領域下流側の現像ローラと現像ケーシング端部近傍の拡大図である。現像ローラ5が回転(図3中矢印方向b)すると、回転に伴い現像ローラ表面に気流が発生する。現像領域下流側では、図4に示すように、発生した気流は現像ローラ5と現像ケーシング13との隙間に流れ込む(図4中矢印A)。この流れ込んだ気流は装置内で逃げ場がないので内圧を上昇させてしまう。内圧が上昇すると、外圧との圧力差により、現像領域下流側の現像ローラ5と現像ケーシング13との隙間から逆に装置外へ噴き出す噴き出し気流を発生させてしまう。この噴き出し気流により、ケーシング内のキャリアからの静電気的な拘束力の弱いトナーがケーシング外へと噴き出され、トナー飛散という不具合を引き起こす。本実施形態の回収搬送路7を別に設けた現像装置においては、現像ローラ5の回転に伴う流れ込み気流が、現像領域下流側となる回収搬送路7に流れ込み、内圧上昇が発生する。
Next, the characteristic part of this embodiment is demonstrated.
FIG. 3 is an enlarged view of the vicinity of the developing roller and the developing casing end on the downstream side of the developing region. When the developing roller 5 rotates (arrow direction b in FIG. 3), an air flow is generated on the surface of the developing roller with the rotation. On the downstream side of the developing region, as shown in FIG. 4, the generated airflow flows into the gap between the developing roller 5 and the developing casing 13 (arrow A in FIG. 4). This flowing airflow increases the internal pressure because there is no escape in the apparatus. When the internal pressure rises, a jet airflow is generated which is jetted out of the apparatus from the gap between the developing roller 5 and the developing casing 13 on the downstream side of the developing region due to a pressure difference with the external pressure. Due to the jetted airflow, toner having a weak electrostatic binding force from the carrier in the casing is jetted out of the casing, causing a problem of toner scattering. In the developing device in which the collection conveyance path 7 of this embodiment is provided separately, an inflow air flow accompanying the rotation of the developing roller 5 flows into the collection conveyance path 7 on the downstream side of the development region, and an internal pressure rises.

図5は、回収搬送路の現像剤量と空隙の大きさを示すものであり、(a)は回収搬送路上流側、(b)は回収搬送路下流側の様子を示す図である。回収搬送路7では、ほぼ均一に現像剤が回収されるが、回収された現像剤は、回収搬送路7上流から下流へ向けて搬送されるため、回収搬送路上流側に比べて、下流側の現像剤量が多くなる。これにより回収搬送路内の空隙15が上流側では広く、下流側では狭くなっている。このため、下流側が上流側に比べ、流れ込み気流による内圧が上昇しやすい。   5A and 5B show the amount of developer and the size of the gap in the recovery conveyance path. FIG. 5A is a view showing the state on the upstream side of the recovery conveyance path, and FIG. In the recovery conveyance path 7, the developer is recovered almost uniformly, but since the recovered developer is conveyed from the upstream side of the recovery conveyance path 7 to the downstream side, the downstream side compared to the upstream side of the recovery conveyance path 7 The amount of developer increases. As a result, the gap 15 in the collection conveyance path is wide on the upstream side and narrow on the downstream side. For this reason, the internal pressure due to the inflow airflow is likely to increase on the downstream side compared to the upstream side.

そこで、本実施形態においては、現像領域下流側において現像ローラ5と現像ケーシング13との間隙が、下流側と上流側とで異なるようにする。図6は、現像領域下流側において現像ローラ5と現像ケーシング13との間隙を示すものであり、(a)は回収搬送路上流側、(b)は回収搬送路下流側を示す図である。図6に示すように、回収搬送路下流側の現像ローラ5と現像ケーシング13との間隙h2を、上流側の間隙h1に比べ大きくする。これにより、現像装置内4への流れ込み気流の流速を、上流側に比べ下流側で小さくすることができ、下流側の回収搬送路7内の空隙15が、上流側に比べて小さくなっていても、回収搬送路7内の下流側の内圧が高くなりやすいことを抑制することができる。よって、現像領域下流側の回収搬送路7の搬送方向下流側で、現像ローラ5と現像ケーシング13との隙間から噴き出し気流が発生するのを抑制することができ、トナー飛散を抑制することができる。   Therefore, in the present embodiment, the gap between the developing roller 5 and the developing casing 13 on the downstream side of the developing region is made different between the downstream side and the upstream side. 6A and 6B show the gap between the developing roller 5 and the developing casing 13 on the downstream side of the developing region, where FIG. 6A shows the upstream side of the recovery conveyance path, and FIG. 6B shows the downstream side of the recovery conveyance path. As shown in FIG. 6, the gap h2 between the developing roller 5 and the developing casing 13 on the downstream side of the collection conveyance path is made larger than the gap h1 on the upstream side. As a result, the flow velocity of the airflow flowing into the developing device 4 can be reduced on the downstream side compared to the upstream side, and the gap 15 in the downstream collection conveyance path 7 is smaller than that on the upstream side. Moreover, it can suppress that the internal pressure of the downstream in the collection conveyance path 7 becomes high easily. Therefore, it is possible to suppress the generation of an air flow from the gap between the developing roller 5 and the developing casing 13 on the downstream side in the transport direction of the collection transport path 7 on the downstream side of the developing region, and to suppress toner scattering. .

また、現像領域下流側における現像ケーシング13形状は、現像ローラ5同心円となる円弧形状であることが好ましい。これにより、回収搬送路7の搬送方向全域において、現像剤と現像ケーシング13との空隙を一定にすることができ、長手方向全域におけるトナー飛散を抑制することができる。   Further, the shape of the developing casing 13 on the downstream side of the developing region is preferably an arc shape that is concentric with the developing roller 5. As a result, the gap between the developer and the developing casing 13 can be made constant throughout the transport direction of the collection transport path 7, and toner scattering can be suppressed throughout the longitudinal direction.

以上、本実施形態によれば、現像剤供給搬送路としての供給搬送路9と現像剤回収搬送路としての回収搬送路7とを有する現像装置において、現像ローラ5と現像領域下流側の現像ケーシング13との間隙の大きさが、回収搬送路7の現像剤搬送方向に関して異なるようにする。これにより、上記間隙より現像装置内への流れ込む気流の流速が現像剤搬送方向に関して異なるようにすることができる。よって、現像剤搬送方向に関する回収搬送路7内の空隙の大きさに差異があったとしても、これに対応して上記間隙の大きさを異なるようにすることで、流れ込み気流の流速に差異を設けて、流れ込み気流による現像装置内圧上昇の偏りを抑制することができる。
また、回収された現像剤は、回収搬送路7の上流から下流へ向けて搬送されるため、回収搬送路7の上流側に比べて、下流側の現像剤量が多くなる。これにより回収搬送路7内の空隙15が上流側では広く、下流側では狭くなっている。このため、下流側が上流側に比べ、流れ込み気流による内圧が上昇しやすい。
そこで、上記間隙を回収搬送路7の現像剤搬送方向下流側を上流側より大きくすることにより、現像装置内への流れ込み気流の流速を、下流側で上流側より小さくすることができる。よって、下流側の回収搬送路7内の空隙15が、上流側に比べて小さくなっていても、回収搬送路7内の下流側の内圧が高くなりやすいことを抑制することができる。
また、上記間隙を回収搬送路7の現像剤量が多い側が少ない側より大きくすることにより、現像装置内への流れ込み気流の流速を、下流側で上流側より小さくすることができる。よって、下流側の回収搬送路7内の現像剤量が、上流側に比べて多くなっていても、回収搬送路7内の下流側の内圧が高くなりやすいことを抑制することができる。
また、現像領域下流側における現像ケーシング13形状は、現像ローラ5同心円となる円弧形状とすることにより、回収搬送路7の搬送方向全域において、現像剤と現像ケーシング13との空隙を一定にすることができる。よって、長手方向全域におけるトナー飛散を抑制することができる。
As described above, according to the present embodiment, in the developing device having the supply conveyance path 9 as the developer supply conveyance path and the recovery conveyance path 7 as the developer collection conveyance path, the development roller 5 and the development casing on the downstream side of the development region. The size of the gap with respect to 13 is made different with respect to the developer transport direction of the collection transport path 7. Thereby, the flow velocity of the airflow flowing into the developing device from the gap can be made different with respect to the developer transport direction. Therefore, even if there is a difference in the size of the gap in the collection conveyance path 7 with respect to the developer conveyance direction, the difference in the flow velocity of the inflowing airflow can be made by changing the size of the gap correspondingly. By providing, it is possible to suppress the uneven increase in the internal pressure of the developing device due to the flowing airflow.
Further, since the collected developer is transported from the upstream side of the recovery transport path 7 toward the downstream side, the amount of developer on the downstream side is larger than the upstream side of the recovery transport path 7. As a result, the gap 15 in the collection conveyance path 7 is wide on the upstream side and narrow on the downstream side. For this reason, the internal pressure due to the inflow airflow is likely to increase on the downstream side compared to the upstream side.
Accordingly, by increasing the gap on the downstream side in the developer conveyance direction of the collection conveyance path 7 from the upstream side, the flow velocity of the airflow flowing into the developing device can be made smaller on the downstream side than on the upstream side. Therefore, even if the gap 15 in the downstream collection conveyance path 7 is smaller than that on the upstream side, it is possible to prevent the internal pressure on the downstream side in the collection conveyance path 7 from being easily increased.
Further, by making the gap larger on the side of the collection transport path 7 where the amount of developer is larger than on the side where the amount of developer is small, the flow velocity of the airflow flowing into the developing device can be made smaller on the downstream side than on the upstream side. Therefore, even if the amount of developer in the downstream collection conveyance path 7 is larger than that on the upstream side, it is possible to suppress the downstream internal pressure in the collection conveyance path 7 from being easily increased.
Further, the shape of the developing casing 13 on the downstream side of the developing region is an arc shape that is concentric with the developing roller 5, so that the gap between the developer and the developing casing 13 is made constant in the entire conveyance direction of the collection conveyance path 7. Can do. Therefore, toner scattering in the entire longitudinal direction can be suppressed.

本実施形態に係る複写機の概略構成図。1 is a schematic configuration diagram of a copier according to an embodiment. 本実施形態の現像装置の概略構成図。FIG. 2 is a schematic configuration diagram of a developing device of the present embodiment. 現像領域下流側の拡大図。FIG. 3 is an enlarged view of the development area downstream side. 現像領域下流側に発生する流れ込み気流の説明図。Explanatory drawing of the inflow airflow which generate | occur | produces in the development area downstream. 回収搬送路の現像剤量と空隙の大きさを示すものであり、(a)は回収搬送路上流側、(b)は回収搬送路下流側の様子を示す図。3A and 3B show the amount of developer and the size of a gap in the recovery conveyance path, where FIG. 4A shows the state on the upstream side of the recovery conveyance path, and FIG. 現像領域下流側において現像ローラと現像ケーシングとの間隙を示すものであり、(a)は回収搬送路上流側、(b)は回収搬送路下流側の様子を示す図。FIG. 3A shows a gap between the developing roller and the developing casing on the downstream side of the developing region, and FIG. 4A shows the upstream side of the recovery conveyance path, and FIG. 従来の現像装置の概略構成図Schematic configuration diagram of a conventional developing device 従来の現像装置の磁力分布の説明図。Explanatory drawing of magnetic force distribution of the conventional image development apparatus.

符号の説明Explanation of symbols

1 感光体
4 現像装置
5 現像ローラ
6 回収スクリュ
7 回収搬送路
8 供給スクリュ
9 供給搬送路
10 攪拌搬送路
11 攪拌スクリュ
12 現像ドクタ
13 現像ケーシング
14 現像剤
17 中間転写ユニット
18 プロセスカートリッジ
21 光書込ユニット
DESCRIPTION OF SYMBOLS 1 Photoconductor 4 Developing device 5 Developing roller 6 Collection screw 7 Collection conveyance path 8 Supply screw 9 Supply conveyance path 10 Stirring conveyance path 11 Stirring screw 12 Developing doctor 13 Developing casing
14 Developer 17 Intermediate transfer unit 18 Process cartridge 21 Optical writing unit

Claims (4)

複数の磁極を有する磁界発生手段を内包する回転可能なスリーブからなり、磁性キャリアとトナーとからなる2成分現像剤を表面に担持して該潜像担持体との対向部へ搬送し、該潜像担持体上の潜像を現像する現像剤担持体と、
該潜像担持体に対向する位置で該現像剤担持体を露出する開口部を有する現像ケーシングと、
該現像剤担持体の軸線方向に沿って現像剤を搬送し、該現像剤担持体に現像剤を供給する現像剤供給搬送部材を備えた現像剤供給搬送路と、
該潜像担持体と対向する箇所を通過後の該現像剤担持体上から回収された該現像剤を該現像剤担持体の軸線方向に沿って、且つ、該現像剤供給搬送部材と同方向に搬送する現像剤回収搬送部材を備えた現像剤回収搬送路と、
現像に用いられずに該現像剤供給搬送路の搬送方向の最下流側まで搬送された余剰現像剤と、該現像剤担持体から回収され該現像剤回収搬送路の搬送方向の下流側まで搬送された回収現像剤との供給を受け、該現像剤担持体の軸線方向に沿って、且つ、該余剰現像剤と該回収現像剤とを攪拌しながら該現像剤供給搬送部材とは逆方向に搬送する現像剤攪拌搬送部材を備え、該現像剤を該現像剤供給搬送路に供給する現像剤攪拌搬送路とを備えた現像装置において、
上記現像剤担持体と、上記開口部よりも現像剤担持体回転方向下流側の現像ケーシングとの間隙が、上記回収現像剤搬送路の現像剤搬送方向に関して下流側が上流側より大きいことを特徴とする現像装置
It comprises a rotatable sleeve containing a magnetic field generating means having a plurality of magnetic poles, carries a two-component developer comprising a magnetic carrier and toner on the surface and conveys it to the opposite part of the latent image carrier, A developer carrier for developing a latent image on the image carrier;
A developing casing having an opening that exposes the developer carrier at a position facing the latent image carrier;
A developer supply transport path including a developer supply transport member that transports the developer along the axial direction of the developer support and supplies the developer to the developer support;
The developer recovered from the developer carrier after passing through the portion facing the latent image carrier is along the axial direction of the developer carrier and in the same direction as the developer supply / conveying member. A developer recovery transport path including a developer recovery transport member for transporting
And excess developer conveyed to the most downstream side in the transport direction of the developer supply conveyance path without being used for development, to the lower stream side in the transport direction of the recovered from the developer carrying member the developer collection conveyance path Receiving supply of the collected developer that has been conveyed, along the axial direction of the developer carrier, and in the direction opposite to the developer supply and conveying member while stirring the excess developer and the collected developer A developer agitating and conveying member that conveys the developer to the developer supplying and conveying path, and a developer agitating and conveying path that supplies the developer to the developer supply and conveying path;
The gap between the developer carrying member and the developing casing on the downstream side in the developer carrying member rotation direction from the opening is such that the downstream side in the developer carrying direction of the recovered developer carrying path is larger than the upstream side. Developing device .
複数の磁極を有する磁界発生手段を内包する回転可能なスリーブからなり、磁性キャリアとトナーとからなる2成分現像剤を表面に担持して該潜像担持体との対向部へ搬送し、該潜像担持体上の潜像を現像する現像剤担持体と、
該潜像担持体に対向する位置で該現像剤担持体を露出する開口部を有する現像ケーシングと、
該現像剤担持体の軸線方向に沿って現像剤を搬送し、該現像剤担持体に現像剤を供給する現像剤供給搬送部材を備えた現像剤供給搬送路と、
該潜像担持体と対向する箇所を通過後の該現像剤担持体上から回収された該現像剤を該現像剤担持体の軸線方向に沿って、且つ、該現像剤供給搬送部材と同方向に搬送する現像剤回収搬送部材を備えた現像剤回収搬送路と、
現像に用いられずに該現像剤供給搬送路の搬送方向の最下流側まで搬送された余剰現像剤と、該現像剤担持体から回収され該現像剤回収搬送路の搬送方向の下流側まで搬送された回収現像剤との供給を受け、該現像剤担持体の軸線方向に沿って、且つ、該余剰現像剤と該回収現像剤とを攪拌しながら該現像剤供給搬送部材とは逆方向に搬送する現像剤攪拌搬送部材を備え、該現像剤を該現像剤供給搬送路に供給する現像剤攪拌搬送路とを備えた現像装置において、
上記現像剤担持体と、上記開口部よりも現像剤担持体回転方向下流側の現像ケーシングとの間隙が、上記回収現像剤搬送路の現像剤搬送方向に関して現像剤量が多い側が少ない側より大きいことを特徴とする現像装置。
It comprises a rotatable sleeve containing a magnetic field generating means having a plurality of magnetic poles, carries a two-component developer comprising a magnetic carrier and toner on the surface and conveys it to the opposite part of the latent image carrier, A developer carrier for developing a latent image on the image carrier;
A developing casing having an opening that exposes the developer carrier at a position facing the latent image carrier;
A developer supply transport path including a developer supply transport member that transports the developer along the axial direction of the developer support and supplies the developer to the developer support;
The developer recovered from the developer carrier after passing through the portion facing the latent image carrier is along the axial direction of the developer carrier and in the same direction as the developer supply / conveying member. A developer recovery transport path including a developer recovery transport member for transporting
Excess developer transported to the most downstream side in the transport direction of the developer supply transport path without being used for development, and transported to the downstream side in the transport direction of the developer recovery transport path recovered from the developer carrier In response to the supply of the collected developer, the developer is conveyed in the direction opposite to the developer supply / conveyance member along the axial direction of the developer carrier and while stirring the excess developer and the collected developer. In a developing device including a developer agitating and conveying member for conveying, and a developer agitating and conveying path for supplying the developer to the developer supply and conveying path,
The gap between the developer carrying member and the developing casing on the downstream side in the developer carrying member rotation direction with respect to the opening is larger than the side where the developer amount is larger in the developer carrying direction of the recovered developer carrying path. A developing device.
請求項1または2の現像装置において、上記開口部よりも現像剤担持体回転方向下流側の現像ケーシングが、該現像剤担持体と同心円となる円弧形状であることを特徴とする現像装置。 3. The developing device according to claim 1, wherein the developing casing downstream of the opening in the direction of rotation of the developer carrier has an arc shape that is concentric with the developer carrier. 4. 少なくとも潜像担持体と、該潜像担持体表面を帯電させるための帯電手段と、該潜像担持体上に静電潜像を形成するための潜像形成手段と、該静電潜像を現像してトナー像化するための現像手段とを有する画像形成装置において、
上記現像手段として、請求項1、2または3の何れかの現像装置を用いることを特徴とする画像形成装置。
At least a latent image carrier, a charging unit for charging the surface of the latent image carrier, a latent image forming unit for forming an electrostatic latent image on the latent image carrier, and the electrostatic latent image In an image forming apparatus having a developing means for developing and forming a toner image,
As the developing means, the image forming apparatus, which comprises using one of the developing apparatus according to claim 1, 2 or 3.
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