Nothing Special   »   [go: up one dir, main page]

JP3513355B2 - Image forming device - Google Patents

Image forming device

Info

Publication number
JP3513355B2
JP3513355B2 JP04571897A JP4571897A JP3513355B2 JP 3513355 B2 JP3513355 B2 JP 3513355B2 JP 04571897 A JP04571897 A JP 04571897A JP 4571897 A JP4571897 A JP 4571897A JP 3513355 B2 JP3513355 B2 JP 3513355B2
Authority
JP
Japan
Prior art keywords
intermediate transfer
transfer member
image
color
image forming
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP04571897A
Other languages
Japanese (ja)
Other versions
JPH10240024A (en
Inventor
俊夫 高森
明彦 仲沢
隆 草場
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Canon Inc
Original Assignee
Canon Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Canon Inc filed Critical Canon Inc
Priority to JP04571897A priority Critical patent/JP3513355B2/en
Publication of JPH10240024A publication Critical patent/JPH10240024A/en
Application granted granted Critical
Publication of JP3513355B2 publication Critical patent/JP3513355B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

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

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、中間転写体を用い
た画像形成装置に関し、特に第1の画像担持体上に形成
されたトナー像を、一旦中間転写体上に転写させた後に
第2の画像担持体上に更に転写させ画像形成物を得る複
写機、プリンター、ファックス等の画像形成装置に関す
る。
The present invention relates to relates to an image forming apparatus using the medium between the transfer member, second after especially the toner image formed on the first image bearing member, thereby temporarily transferred to the intermediate transfer member The present invention relates to an image forming apparatus such as a copying machine, a printer or a fax machine, which is further transferred onto an image carrier to obtain an image formed product.

【0002】[0002]

【従来の技術】中間転写体を使用した画像形成装置は、
カラー画像情報や多色画像情報の複数の成分色画像を順
次積層転写してカラー画像や多色画像を合成再現した画
像形成物を出力するカラー画像形成装置や多色画像形成
装置、もしくはカラー画像形成機能や多色画形成機能を
具備させた画像形成装置として有効であり、各成分色画
像の重ね合わせズレ(色ズレ)のない画像を得ることが
可能である。
2. Description of the Related Art An image forming apparatus using an intermediate transfer member is
A color image forming apparatus, a multicolor image forming apparatus, or a color image that sequentially outputs a plurality of component color images of color image information or multicolor image information by layered transfer and outputs an image formed by combining and reproducing the color image or the multicolor image. It is effective as an image forming apparatus having a forming function and a multicolor image forming function, and it is possible to obtain an image with no misregistration (color misregistration) of each component color image.

【0003】ローラ形状を有する中間転写体を用いた転
写装置である画像形成装置の一例の概略図を図1に示
す。
FIG. 1 shows a schematic view of an example of an image forming apparatus which is a transfer apparatus using an intermediate transfer member having a roller shape.

【0004】図1は電子写真プロセスを利用したカラー
画像形成装置(複写機或いはレーザービームプリンタ
ー)で、中間転写体として中抵抗の弾性ローラ20を使
用している。
FIG. 1 shows a color image forming apparatus (copier or laser beam printer) utilizing an electrophotographic process, which uses an elastic roller 20 having a medium resistance as an intermediate transfer member.

【0005】符号1は、第1の画像担持体として繰り返
し使用される回転ドラム型の電子写真感光体(以下、感
光ドラムと記す)であり、矢示の反時計方向に所定の周
速度(プロセススピード)をもって回転駆動される。
Reference numeral 1 denotes a rotary drum type electrophotographic photosensitive member (hereinafter referred to as a photosensitive drum) repeatedly used as a first image bearing member, and has a predetermined peripheral speed (process) in a counterclockwise direction indicated by an arrow. It is driven to rotate with speed).

【0006】感光ドラム1は、その回転過程で1次帯電
器(コロナ放電器)2により所定の極性・電位に一様に
帯電処理され、次いで不図示の画像露光手段(カラー原
稿画像の色分解・結像露光光学系、画像情報の時系列電
気デジタル画素信号に対応して変調されたレーザービー
ムを出力するレーザースキャナによる走査露光系など)
による画像露光3を受けることにより、目的のカラー画
像の第1の色成分像(例えばマゼンタ成分像)に対応し
た静電潜像が形成される。
The photosensitive drum 1 is uniformly charged to a predetermined polarity and potential by a primary charger (corona discharger) 2 in the course of its rotation, and then image exposing means (not shown) (color separation of color original image).・ Image forming exposure optical system, scanning exposure system using a laser scanner that outputs a laser beam modulated according to time series electric digital pixel signals of image information)
By receiving the image exposure 3 by, the electrostatic latent image corresponding to the first color component image (for example, magenta component image) of the target color image is formed.

【0007】次いで、その静電潜像が第1現像器41
(マゼンタ現像器)により、第1色であるマゼンタトナ
ーMにより現像される。この時、第2〜第4の現像器4
2,43,44(シアン、イエロー、ブラック)の各現
像器)は作動オフになっていて、感光ドラム1には作用
せず、上記第1色のマゼンタトナー画像は第2〜第4の
現像器42〜44により影響を受けない。
Then, the electrostatic latent image is transferred to the first developing device 41.
The (magenta developing device) develops with the magenta toner M which is the first color. At this time, the second to fourth developing devices 4
2, 43, and 44 (cyan, yellow, and black developing devices) are not operated, and do not act on the photosensitive drum 1. The magenta toner image of the first color is the second to fourth developing images. Not affected by vessels 42-44.

【0008】中間転写体20は、矢示の時計方向に感光
ドラム1と同じ周速度をもって回転駆動されている。本
実施例の中間転写体20は、パイプ状の芯金100と、
その外周面に形成された弾性体101および被覆層10
2からなっている。
The intermediate transfer member 20 is rotationally driven in the clockwise direction indicated by the arrow at the same peripheral speed as the photosensitive drum 1. The intermediate transfer member 20 of this embodiment includes a pipe-shaped core metal 100,
Elastic body 101 and coating layer 10 formed on the outer peripheral surface thereof
It consists of 2.

【0009】感光ドラム1上に形成担持された上記第1
色のマゼンタトナー画像が、感光ドラム1と中間転写体
20とのニップ部を通過する過程で、中間転写体20に
印加される転写バイアスにより形成される電界により、
中間転写体20の外周面に順次中間転写されていく。こ
の感光ドラムから中間転写体への転写工程を一次転写工
程、転写バイアスを一次転写バイアスと呼ぶ。
The above-mentioned first formed and carried on the photosensitive drum 1.
By the electric field formed by the transfer bias applied to the intermediate transfer body 20 while the color magenta toner image passes through the nip portion between the photosensitive drum 1 and the intermediate transfer body 20,
Intermediate transfer is sequentially performed on the outer peripheral surface of the intermediate transfer body 20. The transfer process from the photosensitive drum to the intermediate transfer body is called a primary transfer process, and the transfer bias is called a primary transfer bias.

【0010】中間転写体20に対応する第1色のマゼン
タトナー画像の転写を終えた感光ドラム1の表面は、ク
リーニング装置14により清掃される。
The surface of the photosensitive drum 1 on which the transfer of the magenta toner image of the first color corresponding to the intermediate transfer member 20 is completed is cleaned by the cleaning device 14.

【0011】以下同様に第2色のシアントナー画像、第
3色のイエロートナー画像、第4色のブラックトナー画
像が順次中間転写体20上に重畳転写され、目的のカラ
ー画像に対応した合成カラートナー画像が形成される。
Similarly, the second color cyan toner image, the third color yellow toner image, and the fourth color black toner image are sequentially transferred onto the intermediate transfer member 20 in a superimposed manner to form a composite color image corresponding to the target color image. A toner image is formed.

【0012】符号25は転写ローラで、中間転写体20
に対応し平行に軸受させて下面部に接触させて配設して
ある。
Reference numeral 25 is a transfer roller, which is an intermediate transfer member 20.
Corresponding to, the bearings are arranged in parallel with each other and brought into contact with the lower surface portion.

【0013】感光ドラム1から中間転写体20への第1
〜第4色のトナー画像の順次重畳転写のための一次転写
バイアスは、トナーとは逆極性(+)でバイアス電源6
1から印加される。その印加電圧は例えば+100V〜
+3kVの範囲である。
First from the photosensitive drum 1 to the intermediate transfer body 20
~ The primary transfer bias for the sequential superposition transfer of the toner image of the fourth color is the bias power source 6 with the polarity (+) opposite to that of the toner.
It is applied from 1. The applied voltage is, for example, + 100V-
It is in the range of +3 kV.

【0014】感光ドラム1から中間転写体20への第1
〜第4色のトナー画像の順次転写実行工程において、転
写ローラ25および中間転写体クリーニング用帯電部材
35は中間転写体20から離間することも可能である。
First from the photosensitive drum 1 to the intermediate transfer body 20
The transfer roller 25 and the intermediate transfer member cleaning charging member 35 may be separated from the intermediate transfer member 20 in the step of sequentially transferring the fourth color toner image.

【0015】中間転写体20上に重畳転写された合成カ
ラートナー画像の、第2の画像担持体である転写材24
への転写は、転写ローラ25が中間転写体20に当接さ
れると共に、給紙カセット9から中間転写体20と転写
ローラ25との当接ニップに所定のタイミングで転写材
24が給送され、同時に転写バイアスがバイアス電源2
9から転写ローラ25に印加される。この二次転写バイ
アスにより中間転写体20から第2の画像担持体である
転写材24へ合成カラートナー画像が転写される。この
工程を二次転写工程、転写バイアスを二次転写バイアス
という。トナー画像転写を受けた転写材24は定着器1
5へ導入され加熱定着される。
A transfer material 24, which is a second image bearing member, of the composite color toner image superposed and transferred on the intermediate transfer member 20.
In the transfer to, the transfer roller 25 is brought into contact with the intermediate transfer body 20, and the transfer material 24 is fed from the sheet feeding cassette 9 to the contact nip between the intermediate transfer body 20 and the transfer roller 25 at a predetermined timing. At the same time, the transfer bias is bias power supply 2
9 is applied to the transfer roller 25. The secondary transfer bias causes the synthetic color toner image to be transferred from the intermediate transfer member 20 to the transfer material 24 which is the second image carrier. This step is called a secondary transfer step, and the transfer bias is called a secondary transfer bias. The transfer material 24 that has received the toner image transfer is the fixing device 1.
Then, it is heated and fixed.

【0016】転写材24への画像転写終了後、中間転写
体20上の転写残トナーは、バイアス電源36に接続さ
れた中間転写体クリーニング用帯電部材35により、感
光ドラムと逆極性(+)に帯電され、感光ドラム1上に
静電力によって戻される。その後、感光ドラム1の表面
は、クリーニング装置14により清掃される。
After the transfer of the image to the transfer material 24, the transfer residual toner on the intermediate transfer body 20 is made to have a polarity (+) opposite to that of the photosensitive drum by the charging member 35 for cleaning the intermediate transfer body connected to the bias power source 36. It is charged and returned onto the photosensitive drum 1 by electrostatic force. After that, the surface of the photosensitive drum 1 is cleaned by the cleaning device 14.

【0017】前述の中間転写体を用いた画像形成装置を
有するカラー電子写真装置は、従来の技術である転写ド
ラム上に第2の画像支持体を張り付けまたは吸着させ、
そこへ第1の画像支持体上から画像を転写する画像形成
装置を有したカラー電子写真装置が例えば特開昭63−
301960号公報中で述べられた転写方法よりは、以
下の点で勝っている。
In a color electrophotographic apparatus having an image forming apparatus using the above-mentioned intermediate transfer member, a second image support is attached or adsorbed onto a transfer drum which is a conventional technique,
A color electrophotographic apparatus having an image forming apparatus for transferring an image from the first image support thereto is disclosed in, for example, JP-A-63-63.
It is superior to the transfer method described in Japanese Patent No. 301960 in the following points.

【0018】すなわち、各色のトナー画像の重ね合わせ
時の色ズレが少ない。次に図1で示されるように、第2
の画像支持体になんら加工、制御(例えばグリッパーに
把持する、吸着する、曲率をもたせる等)を必要とせず
に中間転写体から画像を転写することができるため、第
2の画像支持体を多種多様に、例えば、封筒、はがき等
に至るまで選択することができる。
That is, there is little color shift when the toner images of the respective colors are superposed. Then, as shown in FIG.
Since it is possible to transfer an image from the intermediate transfer member without requiring any processing or control (eg, gripping by a gripper, adsorbing, giving a curvature, etc.) to the second image supporting member, A wide variety can be selected, for example, envelopes, postcards and the like.

【0019】また、中間転写体の剛性が優れているた
め、繰り返しの使用によってへこみ、ひずみ、変形など
の寸法精度の狂いが生じにくいため、当該中間転写体の
交換頻度を長くすることができる。
Further, since the intermediate transfer member is excellent in rigidity, it is unlikely that the dimensional accuracy such as dents, strains, and deformations will be changed by repeated use, so that the frequency of replacement of the intermediate transfer member can be increased.

【0020】[0020]

【発明が解決しようとする課題】このように、中間転写
体を用いることによる利点のため、すでに市場において
はこの画像形成装置を用いたカラー複写機、カラープリ
ンターなどが稼働し始めているが、この中間転写体を用
いた画像形成装置を実際に種々の環境でかつ繰り返し使
用する場合、次のごとく克服すべき問題点を未だ有して
いる。
As described above, because of the advantage of using the intermediate transfer member, a color copying machine, a color printer or the like using this image forming apparatus has already started to operate in the market. When the image forming apparatus using the intermediate transfer member is actually used repeatedly in various environments, it still has the following problems to be overcome.

【0021】第1の画像担持体、例えば感光ドラムから
中間転写体への転写効率、および中間転写体から第2の
画像担持体、例えば紙、OHPシートへの転写効率が、
充分に高いものが得られず、特に低温低湿環境になるほ
ど転写効率は悪化することが分かっている。そのため、
感光ドラムや中間転写体に具備すべきクリーニング装置
が不可欠となりかつ、多量の転写残トナーとクリーニン
グするために装置への負荷が大きくなり、当該クリーニ
ング装置が構成上かなり複雑となり、かつ高価なものと
なってしまう。
The transfer efficiency from the first image carrier, for example, the photosensitive drum to the intermediate transfer member, and the transfer efficiency from the intermediate transfer member to the second image carrier, such as paper or OHP sheet, are
It is known that a sufficiently high product cannot be obtained, and the transfer efficiency deteriorates particularly in a low temperature and low humidity environment. for that reason,
A cleaning device, which should be provided on the photosensitive drum and the intermediate transfer member, is indispensable, and the load on the device is increased due to cleaning with a large amount of transfer residual toner, which makes the cleaning device considerably complicated in structure and expensive. turn into.

【0022】こうした現象はいずれも、充分な転写効率
が得られていないことからくる現象であるが、転写効率
を向上させる手段として、図2に示すように、二次転写
前にコロナ帯電器(以下、転写前帯電器と記す)23を
設け、中間転写体上の一次転写後のトナーを帯電させる
画像形成装置が考案され、一部で実用化されている。図
2において、図1に示したものと同一部分は同一符号で
示す。
All of these phenomena are caused by the fact that sufficient transfer efficiency is not obtained, but as a means for improving the transfer efficiency, as shown in FIG. 2, as shown in FIG. An image forming apparatus for charging the toner after the primary transfer on the intermediate transfer member is provided with a pre-transfer charger 23) and has been partially put into practical use. 2, the same parts as those shown in FIG. 1 are designated by the same reference numerals.

【0023】このような従来の構成では、一次転写され
た中間転写体上のトナーの保有電荷量(以下、トリボと
記す)が各色で異なり、各々に最適な二次転写時バイア
ス条件が異なるため、充分な転写効率が得ることが困難
であったが、中間転写体上のトナー層に転写前帯電器を
用いてコロナ帯電(放電)を行い、各色のトナーのトリ
ボを上昇させ適性電荷に揃えることで、転写効率性を向
上させることが可能となった。ここで、転写前帯電器に
印加する電圧はトナーと同一極性の高電圧であり、すな
わち転写ローラーに印加する電圧とは逆極性の高電圧で
ある。また、転写前帯電器を用いることにより、転写効
率の環境安定性も向上し、常に安定した転写効率性を環
境によらず保持することも可能となった。
In such a conventional configuration, the amount of charge of the toner (hereinafter referred to as tribo) on the intermediately transferred intermediate transfer member is different for each color, and the optimum bias condition at the time of secondary transfer is different for each color. Although it was difficult to obtain sufficient transfer efficiency, the toner layer on the intermediate transfer member was corona charged (discharged) using the pre-transfer charger to raise the tribo of the toner of each color and make it an appropriate charge. As a result, the transfer efficiency can be improved. Here, the voltage applied to the pre-transfer charger is a high voltage having the same polarity as the toner, that is, a high voltage having the opposite polarity to the voltage applied to the transfer roller. Further, by using the pre-transfer charger, the environmental stability of the transfer efficiency was improved, and it became possible to always maintain the stable transfer efficiency regardless of the environment.

【0024】しかしながら、転写前帯電器を設けて二次
転写効率を向上させる目的で、中間転写体上のトナー層
にコロナ帯電(放電)を行うと、トナー層をすり抜けて
中間転写体表面も強く帯電されてしまい、表面の静電エ
ネルギーが増大するため、転写材が中間転写体に巻き付
こうとする吸引力を発生し、いわゆる転写材の分離不良
を発生する場合がある。この現象は、特に低温低湿環境
(15℃/10%)での使用、薄紙や和紙のような剛性
小である紙を転写材として用いた場合に特に顕著に発生
する。
However, when the toner layer on the intermediate transfer member is corona-charged (discharged) in order to improve the secondary transfer efficiency by providing a pre-transfer charger, the toner layer slips through the toner layer and the surface of the intermediate transfer member also becomes strong. Since the transfer material is charged and electrostatic energy on the surface increases, a transfer material may generate a suction force to wind around the intermediate transfer body, which may cause so-called imperfect separation of the transfer material. This phenomenon occurs particularly remarkably when used in a low temperature and low humidity environment (15 ° C./10%) and when a paper having low rigidity such as thin paper or Japanese paper is used as a transfer material.

【0025】本発明は、転写材の種類、サイズにかかわ
らず、安定した転写性能、分離性能を使用環境に依存せ
ず得られる画像形成装置を提供することを目的とする。
The present invention, the kind of the transfer material, regardless of the size, and to provide a stable transfer performance, that obtained without depending separation performance to a use environment images forming device.

【0026】[0026]

【課題を解決するための手段】本発明の画像形成装置
は、第1の画像担持体上に形成された画像を中間転写体
に一次転写した後、第2の画像担持体上に更に二次転写
するように構成され、前記中間転写体上に一次転写され
た画像を二次転写前に帯電させる帯電器を有する画像形
成装置において、該中間転写体が少なくとも弾性層と、
最外層である表面層とを有し、該中間転写体の該帯電器
による表面の電位上昇が300V以下、かつ該中間転写
体のJIS−A硬度が70度以下、かつ該中間転写体の
弾性層の肉厚が0.5mm以上であることを特徴とす
る。
[Means for Solving the Problems]Image forming device
Is an intermediate transfer member for the image formed on the first image carrier.
Secondary transfer to the second image carrier after primary transfer to
And is primarily transferred onto the intermediate transfer member.
Image type with a charger that charges the recorded image before secondary transfer
To the equipmentIn advance, The intermediate transfer member is at least an elastic layer,
The outermost surface layer, and the charger of the intermediate transfer member.
Surface potential rise by 300V or less, and the intermediate transfer
The JIS-A hardness of the body is 70 degrees or less, and the intermediate transfer body
Characterized by the thickness of the elastic layer being 0.5 mm or more
It

【0027】本発明に用いる中間転写体は、ローラ形状
であってもよく、また表面層と弾性層との2層構成であ
るのが好ましい。
The intermediate transfer member used in the present invention may have a roller shape, and preferably has a two-layer structure of a surface layer and an elastic layer.

【0028】いずれの場合にも、本発明に係る画像形成
装置における中間転写体の、帯電器による表面の電位上
昇が5V以上300V以下、かつ前記中間転写体のJI
S−A硬度が10度以上70度以下、かつ前記中間転写
体の弾性層の肉厚が0.5mm以上10mm以下の範囲
にあるのがさらに好ましい。
In any case, the image formation according to the present invention
The surface potential of the intermediate transfer member in the apparatus rises by 5 V or more and 300 V or less, and the JI of the intermediate transfer member.
It is more preferable that the S-A hardness is 10 degrees or more and 70 degrees or less, and the thickness of the elastic layer of the intermediate transfer body is 0.5 mm or more and 10 mm or less.

【0029】[0029]

【0030】[0030]

【発明の実施の形態】以下に本発明について更に詳細に
説明する。
BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail below.

【0031】画像形成装置において、中間転写体周辺部
には、第1の画像担持体である感光ドラム、転写前帯電
器、転写ローラ(または転写ベルト)、中間転写体のク
リーニング装置である帯電部材が配置されている。前述
したように、中間転写体には100V〜3kV程度の電
圧が印加されるが、その他にも中間転写体周辺部から、
電流の流れ込み等により静電的な影響を強く受けやす
い。中でも前述した転写前帯電器であるコロナ帯電器は
本来は、中間転写体上の各色のトナーのトリボを上昇さ
せ適性電荷に揃えることが主目的であるが、印加電圧が
十分に大きい(1kV〜5kV)ため、中間転写体上の
トナーをすり抜け、中間転写体表面をも強く帯電してし
まう。転写前帯電器により、帯電された中間転写体表面
の電荷が二次転写工程を通過し、分離工程時にも中間転
写体表面に残留していた場合、中間転写体表面には強い
静電エネルギーが蓄積される。この静電エネルギーは、
転写材が中間転写体に巻き付こうとする吸引力を発生さ
せ、転写材の中間転写体への巻き付きにより、転写材の
分離不良が引き起こされる。
In the image forming apparatus, a photosensitive drum, which is a first image carrier, a pre-transfer charger, a transfer roller (or transfer belt), and a charging member, which is a cleaning device for the intermediate transfer member, are provided around the intermediate transfer member. Are arranged. As described above, a voltage of about 100 V to 3 kV is applied to the intermediate transfer member, but in addition, from the peripheral portion of the intermediate transfer member,
It is easily affected by electrostatic current due to current flow. The main purpose of the corona charger, which is the pre-transfer charger, is to increase the tribo of the toner of each color on the intermediate transfer member so that the charge is adjusted to an appropriate charge, but the applied voltage is sufficiently large (1 kV to Since it is 5 kV), the toner on the intermediate transfer member slips through and the surface of the intermediate transfer member is also strongly charged. If the charge on the surface of the intermediate transfer body that has been charged by the pre-transfer charger passes through the secondary transfer process and remains on the surface of the intermediate transfer body even during the separation step, strong electrostatic energy is applied to the surface of the intermediate transfer body. Accumulated. This electrostatic energy is
The transfer material generates a suction force to wind around the intermediate transfer body, and the transfer material winds around the intermediate transfer body, which causes a separation failure of the transfer material.

【0032】この転写材の分離不良は、薄紙や和紙のよ
うな剛性小の紙を転写材として用いた場合や、低温低湿
環境下で、特に顕著に発生する。この要因としては、剛
性小の紙は、機械的に中間転写体に巻き付きやすい、と
考えられ、低温低湿環境においては、中間転写体表面の
電位および静電エネルギーが通常環境に比較して大きく
上昇するため、前述した理由により分離不良が起こりや
すい、と考えられる。
The improper separation of the transfer material is particularly remarkable when a paper having a small rigidity such as thin paper or Japanese paper is used as the transfer material or in a low temperature and low humidity environment. The reason for this is considered to be that paper with low rigidity tends to be mechanically wrapped around the intermediate transfer body, and in a low temperature and low humidity environment, the electric potential and electrostatic energy on the surface of the intermediate transfer body rise significantly compared to the normal environment. Therefore, it is considered that the separation failure is likely to occur due to the reason described above.

【0033】したがって、中間転写体の表面電位は転写
前帯電器であるコロナ帯電器により電位上昇を引き起こ
さない、または、転写前帯電器により帯電され発生した
中間転写体上の電荷が、二次転写工程、分離工程通過時
に十分に除去されていることが重要であり、環境等によ
らず、常に安定した低電位を保持する必要がある。
Therefore, the surface potential of the intermediate transfer member does not increase due to the corona charger, which is the pre-transfer charger, or the charge on the intermediate transfer member generated by the pre-transfer charger is generated by the secondary transfer. It is important that they are sufficiently removed during the process and separation process, and it is necessary to always maintain a stable low potential regardless of the environment.

【0034】すなわち、本発明に係る画像形成装置にお
いて中間転写体の転写前帯電器による表面の電位上昇
は、300V以下である。尚、中間転写体の表面の電位
上昇は以下のような方法で測定される。
That is, in the image forming apparatus according to the present invention ,
In addition, the potential increase on the surface of the intermediate transfer member by the pre-transfer charger is 300 V or less. The potential increase on the surface of the intermediate transfer member is measured by the following method.

【0035】〈中間転写体の表面電位の測定方法〉 (1)図3に示すように、中間転写体20とコロナ帯電
器200の両者の軸が平行となるように、中間転写体2
0表面とコロナ帯電器200のワイヤー間を距離7mm
で配置させ、バイアス電源201をつなぐ。 (2)中間転写体20表面の線速度が120mm/se
cになるように中間転写体20を駆動する。 (3)コロナ帯電器200の配置部位より下流側に表面
電位計(Trek社製、MODEL344A)202を
配置する。なお、コロナ帯電器200から表面電位計2
02までの距離は、転写前帯電器から二次転写工程を行
う位置までの距離に等しくなるように設定する。 (4)バイアス電源201から直流電圧+3.0kV、
交流ピーク間電圧5kV、周波数500Hzの重畳電圧
(定電圧)を回路に印加し、表面電位計にて中間転写体
20の表面の電位上昇を測定する。なお、測定時の雰囲
気は23℃/40%RHとする。
<Measurement Method of Surface Potential of Intermediate Transfer Body> (1) As shown in FIG. 3, the intermediate transfer body 2 is arranged so that both axes of the intermediate transfer body 20 and the corona charger 200 are parallel to each other.
Distance between the 0 surface and the wire of the corona charger 200 is 7 mm
Then, the bias power source 201 is connected. (2) The linear velocity on the surface of the intermediate transfer member 20 is 120 mm / se.
The intermediate transfer member 20 is driven so as to be c. (3) A surface electrometer (MODEL 344A, manufactured by Trek) 202 is arranged on the downstream side of the position where the corona charger 200 is arranged. In addition, from the corona charger 200 to the surface potential meter 2
The distance to 02 is set to be equal to the distance from the pre-transfer charger to the position where the secondary transfer process is performed. (4) DC voltage +3.0 kV from the bias power source 201,
A superimposed voltage (constant voltage) having an AC peak-to-peak voltage of 5 kV and a frequency of 500 Hz is applied to the circuit, and the surface potential meter measures the potential increase on the surface of the intermediate transfer member 20. The atmosphere during measurement is 23 ° C./40% RH.

【0036】また、本発明者らは鋭意検討を重ねた結
果、転写材の安定した分離性能を保持するためには、前
述した静電的要因以外にも、中間転写体の十分な弾性力
が必要である、という結論に達した。これは、中間転写
体の弾性力が十分に大きければ、転写材は転写部材であ
る転写ローラ(或いは転写ベルト)側に吸着しやすく、
逆に中間転写体の弾性力が小であれば、転写材は中間転
写体側に吸着しやすい、という性質によるものである。
そのため、低温低湿環境下での使用、および薄紙、剛性
小の紙を用いた場合でも、転写材の安定した分離性能を
保持するためには、中間転写体には十分な弾性力が必要
であり、中間転写体の硬度が小、弾性層肉厚となる方向
で、分離不良を改良することができる。
Further, as a result of intensive studies by the present inventors, in order to maintain the stable separation performance of the transfer material, in addition to the electrostatic factors described above, sufficient elastic force of the intermediate transfer member is required. We have come to the conclusion that it is necessary. This is because if the elastic force of the intermediate transfer body is sufficiently large, the transfer material is easily attracted to the transfer roller (or transfer belt) side, which is a transfer member,
Conversely, if the elastic force of the intermediate transfer body is small, the transfer material is easily adsorbed to the intermediate transfer body side.
Therefore, the intermediate transfer member must have sufficient elastic force to maintain the stable separation performance of the transfer material even when used in a low temperature and low humidity environment and when using thin paper or paper with small rigidity. In the direction in which the hardness of the intermediate transfer body is small and the elastic layer has a large thickness, the separation failure can be improved.

【0037】すなわち、本発明に用いる中間転写体のJ
IS−A硬度は70度以下、かつ中間転写体の弾性層の
肉厚が0.5mm以上の範囲である。更に好ましくは中
間転写体のJIS−A硬度は10度以上、70度以下、
かつ中間転写体の弾性層の肉厚が0.5mm以上、10
mm以下の範囲である。
That is, J of the intermediate transfer member used in the present invention is used.
The IS-A hardness is 70 degrees or less, and the thickness of the elastic layer of the intermediate transfer member is 0.5 mm or more. More preferably, the JIS-A hardness of the intermediate transfer member is 10 degrees or more and 70 degrees or less,
Moreover, the thickness of the elastic layer of the intermediate transfer member is 0.5 mm or more, 10
It is in the range of mm or less.

【0038】中間転写体のJIS−A硬度が10度以
下、または中間転写体の弾性層の肉厚が10mm以上で
ある場合、第1の画像担持体である感光ドラムとの長期
の当接によって弾性層が歪み、画像欠陥を生じやすい、
という問題がある。また、中間転写体の弾性層の肉厚を
10mm以上に形成した場合、中間転写体のコストアッ
プ、という弊害を招いてしまう。
When the JIS-A hardness of the intermediate transfer member is 10 degrees or less, or when the elastic layer of the intermediate transfer member has a thickness of 10 mm or more, the photosensitive drum, which is the first image bearing member, is contacted for a long time. The elastic layer is distorted and easily causes image defects,
There is a problem. Further, when the elastic layer of the intermediate transfer body is formed to have a thickness of 10 mm or more, the cost of the intermediate transfer body is increased.

【0039】本発明において、JIS−A硬度は次のよ
うな方法で測定する。弾性層が剛体のシリンダー上に形
成され、その厚さが5mm以上である中間転写体の場合
はJIS−A硬度計を中間転写体に1kgの荷重で押し
当てた時の測定値である。厚さが5mm未満の場合は弾
性層を切り出し、5mmになるまで弾性層の切片を重ね
合わせた上で測定物を十分に剛性のある金属板の上に置
き、1kgの荷重で硬度計を押し当てた時の値である。
中間転写体がベルト等の場合も一部を切り出した後上記
と同様にして測定する。
In the present invention, the JIS-A hardness is measured by the following method. In the case of an intermediate transfer body in which the elastic layer is formed on a rigid cylinder and has a thickness of 5 mm or more, it is a measured value when a JIS-A hardness meter is pressed against the intermediate transfer body with a load of 1 kg. If the thickness is less than 5 mm, cut out the elastic layer, stack the sections of the elastic layer to 5 mm, place the object to be measured on a metal plate with sufficient rigidity, and press the hardness meter with a load of 1 kg. The value when applied.
Even when the intermediate transfer member is a belt or the like, a part of the intermediate transfer member is cut out and then measured in the same manner as above.

【0040】さらに本発明の画像形成装置は、前記中間
転写体から二次転写されなかった転写残現像剤に、帯電
部材を用いて電荷を付与して、前記中間転写体をクリー
ニングする中間転写体クリーニング用帯電部材を更に具
備し、第1の画像担持体上から前記中間転写体へ現像剤
を転写すると同時に、前記中間転写体上の転写残現像剤
を第1の画像担持体に回収することを特徴とする。した
がって、一次転写同時クリーニングが可能であるため、
カラーレーザプリンタ、カラー複写機などで連続プリン
トする場合など、1枚プリントアウトする毎に中間転写
体上をクリーニングするステップに入らなくても良いこ
とから、大幅なスループット向上が実現できる。
Further, the image forming apparatus of the present invention is an intermediate transfer member for cleaning the intermediate transfer member by applying an electric charge to the transfer residual developer not secondarily transferred from the intermediate transfer member by using a charging member. Additional charging member for cleaning
In this case, the developer is transferred from the first image carrier to the intermediate transfer member, and at the same time, the transfer residual developer on the intermediate transfer member is collected in the first image carrier. Therefore, since the primary transfer simultaneous cleaning is possible,
Since it is not necessary to enter the step of cleaning the intermediate transfer member each time one sheet is printed out, for example, in the case of continuous printing with a color laser printer, a color copying machine or the like, a significant improvement in throughput can be realized.

【0041】また、帯電器のみで中間転写体のクリーニ
ングが実現されるため、構成が非常に簡単となり低コス
トのクリーニング手段が提供できる。
Further, since the intermediate transfer member can be cleaned only by the charger, the structure is very simple and a low cost cleaning means can be provided.

【0042】更にブレードクリーニング、ファーブラシ
クリーニング等に較べ、使用パーツに機械的損傷を与え
ることが無くなるので、長期使用にも充分耐え安定した
中間転写体クリーニング手段を提供することができる。
Further, as compared with blade cleaning, fur brush cleaning, etc., mechanical damage to the parts used is eliminated, so that it is possible to provide a stable intermediate transfer member cleaning means that can withstand long-term use.

【0043】このクリーニング装置を有する画像形成装
置に、前述した中間転写体の電位の上昇が300V以上
である中間転写体を用いた場合、クリーニング用帯電器
により中間転写体の表面電位が上昇するため、二次転写
残現像剤を二次転写残現像剤回収部材である第1の画像
担持体に回収できず、いわゆるクリーニング不良を引き
起こす場合がある。
When the above-mentioned intermediate transfer body whose potential rise of the intermediate transfer body is 300 V or more is used in the image forming apparatus having this cleaning device, the surface potential of the intermediate transfer body is raised by the cleaning charger. In some cases, the secondary transfer residual developer cannot be recovered by the first image carrier, which is the secondary transfer residual developer recovery member, and so-called cleaning failure may occur.

【0044】これは、中間転写体の表面電位が中間転写
体と二次転写残現像剤回収部材である第1の画像担持体
とのニップ部近傍における両者の電位差が、パッシェン
則によって示される放電電圧以上であると、ニップ部近
傍で放電が起こり、適性電荷に帯電された二次転写残現
像剤の電荷を乱し、クリーニング不良が発生する、と思
われる。したがって、転写前帯電器による中間転写体の
表面の電位上昇を300V以下に抑えることで、クリー
ニング不良の発生をも防止できる。
This is because the surface potential of the intermediate transfer member is a discharge difference in which the potential difference between the intermediate transfer member and the first image carrier, which is the secondary transfer residual developer collecting member, in the vicinity of the nip portion is indicated by the Paschen's law. When the voltage is higher than the voltage, it is considered that discharge occurs near the nip portion, disturbs the charge of the secondary transfer residual developer charged to an appropriate charge, and causes cleaning failure. Therefore, by suppressing the increase in the potential of the surface of the intermediate transfer member by the pre-transfer charger to 300 V or less, the occurrence of cleaning failure can be prevented.

【0045】また、転写前帯電器による表面の電位上昇
が5V以下である中間転写体を用いた場合、中間転写体
上の二次転写残現像剤にクリーニングを行うための十分
な電荷を効果的に付与することができない場合がある。
したがって、中間転写体上のクリーニング性を向上させ
るためには、転写前帯電器による中間転写体の表面の電
位上昇が5V以上、300V以下である範囲がより好ま
しい。
Further, when the intermediate transfer member whose surface potential rise by the pre-transfer charger is 5 V or less is used, the secondary transfer residual developer on the intermediate transfer member is effectively charged with sufficient charge for cleaning. May not be granted to.
Therefore, in order to improve the cleaning property on the intermediate transfer member, it is more preferable that the potential increase of the surface of the intermediate transfer member by the pre-transfer charger is 5 V or more and 300 V or less.

【0046】本発明に用いる中間転写体は少なくとも弾
性層と最外層となる表面層とを有し、2層または2層以
上の多層構成からなる。
The intermediate transfer member used in the present invention has at least an elastic layer and a surface layer serving as an outermost layer, and has a multilayer structure of two layers or two or more layers.

【0047】具体的には、本発明に用いる中間転写体は
ローラ形状が好ましく、円筒状導電性支持体上に弾性
層、表面層を順次積層した構成をとる。たとえば図4に
示すように、剛体である円筒状導電性支持体100の周
面上に、弾性層101を設けた構成、または図5に示す
ように表面層101上に被覆層102を設けた構成、あ
るいは図6に示すように、被覆層102上にさらに被覆
層103を設けた構成をとり得る。しかしコスト面から
は弾性層と表面層の2層構成が好ましい。
Specifically, the intermediate transfer member used in the present invention is preferably in the shape of a roller and has a structure in which an elastic layer and a surface layer are sequentially laminated on a cylindrical conductive support. For example, as shown in FIG. 4, a structure in which an elastic layer 101 is provided on the peripheral surface of a cylindrical conductive support 100 that is a rigid body, or as shown in FIG. 5, a coating layer 102 is provided on a surface layer 101. Alternatively, as shown in FIG. 6, a coating layer 103 may be further provided on the coating layer 102. However, in terms of cost, a two-layer structure including an elastic layer and a surface layer is preferable.

【0048】中間転写体がローラ形状である場合は、画
像の重ね合わせの色ズレを防止できる。繰り返しの使用
による耐久性が良好である。等の利点を有する。
When the intermediate transfer member has a roller shape, it is possible to prevent color misregistration due to superposition of images. Good durability due to repeated use. And so on.

【0049】弾性層に用いる材料としては、感光ドラム
や転写ローラとのニップ幅を安定化させる観点からゴム
やエラストマーが主に用いられているが、弾性層単独で
中間転写体を形成する場合は幾つかの諸問題が発生す
る。一つは感光ドラム汚染性という問題である。中間転
写体と接触する第1の画像担持体である感光ドラムの表
面には、光透過性の確保のためにアクリル樹脂やポリカ
ーボネート樹脂等の非晶性樹脂が使用されているが、前
記弾性層成分のブリードにより感光ドラム表面を汚染ま
たは変質させ感光ドラムの円周長さのピッチで横スジと
なる画像不良を発生する場合がある。また、弾性層に前
記材料を用いた場合、中間転写体の表面に十分な滑性を
与えることができず、中間転写体の表面潤滑性の悪化に
よってトナーの付着力が増加するため、充分な転写効率
が得られない。そのため、中間転写体の構成としては弾
性層上に表面層を形成することで、弾性層成分が中間転
写体表面に漏洩し感光ドラムへの汚染を抑え、且つトナ
ーの付着量を低減させ転写効率を向上させることが可能
となる。
As the material used for the elastic layer, rubber or elastomer is mainly used from the viewpoint of stabilizing the nip width between the photosensitive drum and the transfer roller, but when forming the intermediate transfer member by the elastic layer alone. Several problems occur. One is the problem of contamination of the photosensitive drum. An amorphous resin such as an acrylic resin or a polycarbonate resin is used on the surface of the photosensitive drum, which is the first image bearing member, which is in contact with the intermediate transfer member in order to secure light transmittance. The bleeding of the components may contaminate or alter the surface of the photosensitive drum to cause image defects such as horizontal stripes at the pitch of the circumferential length of the photosensitive drum. Further, when the above-mentioned material is used for the elastic layer, sufficient lubricity cannot be given to the surface of the intermediate transfer member, and the adhesive force of the toner increases due to deterioration of the surface lubricity of the intermediate transfer member. Transfer efficiency cannot be obtained. Therefore, as the structure of the intermediate transfer member, by forming the surface layer on the elastic layer, the elastic layer component is prevented from leaking to the surface of the intermediate transfer member to suppress the contamination on the photosensitive drum, and the toner adhesion amount is reduced to reduce the transfer efficiency. It becomes possible to improve.

【0050】本発明に用いる円筒状導電性支持体として
は、アルミニウム、鉄、銅およびステンレス等の金属や
合金、カーボンや金属粒子等を分散した導電性樹脂等を
用いることができ、その形状としては、上述したような
円筒状や、円筒の中心に軸を貫通したもの、円筒の内部
に補強を施したものなどが挙げられる。
As the cylindrical conductive support used in the present invention, a metal or alloy such as aluminum, iron, copper and stainless, a conductive resin having carbon or metal particles dispersed therein, or the like can be used. Examples thereof include the above-mentioned cylindrical shape, a cylinder having a shaft penetrating the center thereof, and a cylinder having a reinforced interior.

【0051】本発明に用いる中間転写体の弾性層には前
述したように、第1の画像担持体である例えば感光ドラ
ムとの間でニップ幅の安定化を満たす必要があり、ゴム
やエラストマーを用いた構成をとる。また、弾性層の外
周を形成する層(含表面層)には、ゴム、エラストマ
ー、樹脂を用いた構成をとる。使用されるゴム、エラス
トマー、樹脂として、例えば、ゴムやエラストマーとし
ては、スチレン−ブタジエンゴム、ハイスチレンゴム、
ブタジエンゴム、イソプレンゴム、エチレン−プロピレ
ン共重合体、ニトリルブタジエンゴム、クロロプレンゴ
ム、ブチルゴム、シリコンゴム、フッ素ゴム、ニトリル
ゴム、ウレタンゴム、アクリルゴム、エピクロロヒドリ
ンゴムおよびノルボルネンゴム等が挙げられる。
As described above, the elastic layer of the intermediate transfer member used in the present invention needs to satisfy the stabilization of the nip width with the first image bearing member, for example, the photosensitive drum. Take the configuration used. The layer (surface-containing layer) forming the outer circumference of the elastic layer is made of rubber, elastomer or resin. As rubber, elastomer and resin used, for example, as rubber and elastomer, styrene-butadiene rubber, high styrene rubber,
Examples thereof include butadiene rubber, isoprene rubber, ethylene-propylene copolymer, nitrile butadiene rubber, chloroprene rubber, butyl rubber, silicone rubber, fluororubber, nitrile rubber, urethane rubber, acrylic rubber, epichlorohydrin rubber and norbornene rubber.

【0052】また、樹脂類としてはポリスチレン、クロ
ロポリスチレン、ポリ−α−メチルスチレン、スチレン
−ブタジエン共重合体、スチレン−塩化ビニル共重合
体、スチレン−酢酸ビニル共重合体、スチレン−マレイ
ン酸共重合体、スチレン−アクリル酸エステル共重合体
(スチレン−アクリル酸メチル共重合体、スチレン−ア
クリル酸エチル共重合体、スチレン−アクリル酸ブチル
共重合体、スチレン−アクリル酸オクチル共重合体およ
びスチレン−アクリル酸フェニル共重合体等)、スチレ
ン−メタクリル酸エステル共重合体(スチレン−メタク
リル酸メチル共重合体、スチレン−メタクリル酸エチル
共重合体、スチレン−メタクリル酸フェニル共重合体
等)、スチレン−α−クロルアクリル酸メチル共重合
体、スチレン−アクリロニトリル−アクリル酸エステル
共重合体等のスチレン系樹脂(スチレンまたはスチレン
置換体を含む単重合体または共重合体)、塩化ビニル樹
脂、スチレン−酢酸ビニル共重合体、ロジン変性マレイ
ン酸樹脂、フェノール樹脂、エポキシ樹脂、ポリエステ
ル樹脂、低分子量ポリエチレン、低分子量ポリプロピレ
ン、アイオノマー樹脂、ポリウレタン樹脂、シリコーン
樹脂、ケトン樹脂、エチレン−エチルアクリレート共重
合体、キシレン樹脂、フッ素樹脂、ポリカーボネート、
ポリアミド樹脂、ポリビニルブチラール樹脂およびこれ
らの共重合体や混合物が挙げられる。
As the resins, polystyrene, chloropolystyrene, poly-α-methylstyrene, styrene-butadiene copolymer, styrene-vinyl chloride copolymer, styrene-vinyl acetate copolymer, styrene-maleic acid copolymer are used. Copolymer, styrene-acrylic acid ester copolymer (styrene-methyl acrylate copolymer, styrene-ethyl acrylate copolymer, styrene-butyl acrylate copolymer, styrene-octyl acrylate copolymer and styrene-acrylic Acid phenyl copolymer, etc.), styrene-methacrylic acid ester copolymer (styrene-methyl methacrylate copolymer, styrene-ethyl methacrylate copolymer, styrene-phenyl methacrylate copolymer, etc.), styrene-α- Methyl chloroacrylate copolymer, styrene-acryloni Styrene resins such as tolyl-acrylic acid ester copolymers (styrene or styrene-substituted homopolymers or copolymers), vinyl chloride resins, styrene-vinyl acetate copolymers, rosin-modified maleic acid resins, phenol resins , Epoxy resin, polyester resin, low molecular weight polyethylene, low molecular weight polypropylene, ionomer resin, polyurethane resin, silicone resin, ketone resin, ethylene-ethyl acrylate copolymer, xylene resin, fluororesin, polycarbonate,
Examples thereof include polyamide resin, polyvinyl butyral resin, and copolymers and mixtures thereof.

【0053】本発明に用いる中間転写体の体積抵抗率
は、101〜1013Ω・cmであることが好ましく、更
に好ましくは、102〜1010Ω・cmである。更に
は、少なくとも表面層の体積抵抗率はこれらの範囲内で
あることが好ましい。
The volume resistivity of the intermediate transfer member used in the present invention is preferably 10 1 to 10 13 Ω · cm, more preferably 10 2 to 10 10 Ω · cm. Furthermore, at least the volume resistivity of the surface layer is preferably within these ranges.

【0054】上記のごとく抵抗を制御するために、本発
明の目的を妨げない範囲で導電剤を適時添加することが
できる。例えば、各種の導電性無機粒子およびカーボン
ブラック、イオン系導電剤、導電性樹脂、導電性粒子分
散樹脂等が挙げられる。具体的には、導電性無機粒子と
して酸化チタン、酸化スズ、硫酸バリウム、酸化アルミ
ニウム、チタン酸ストロンチウム、酸化マグネシウム、
酸化ケイ素、炭化ケイ素、窒化ケイ素等の粒子に必要に
応じて酸化スズ、酸化アンチモン、カーボン等で表面処
理を行ったものでこれらの形状も球状、繊維状、板状、
不定型などどのような形状でもよい。イオン系導電剤は
アンモニウム塩やアルキルスルホン酸塩、リン酸エステ
ル塩、過塩素酸塩等であり、導電性樹脂としては、4級
アンモニウム塩含有ポリメタクリル酸メチル、ポリビニ
ルアニリン、ポリビニルピロール、ポリジアセチレンお
よびポリエチレンイミン等が挙げられる。また、導電性
粒子分散樹脂としてはカーボン、アルミニウム、ニッケ
ル等の導電性粒子をウレタン、ポリエステル、酢酸ビニ
ル−塩化ビニル共重合体およびポリメタクリル酸メチル
等の樹脂中に分散したものが挙げられるがかならずしも
これらに限定されるものではないが、これらの中で導電
性のコントロールの点からは、表面層の導電剤には導電
性無機粒子が好ましい。
In order to control the resistance as described above, a conductive agent can be added at appropriate times within a range that does not impair the object of the present invention. For example, various conductive inorganic particles and carbon black, ionic conductive agents, conductive resins, conductive particle-dispersed resins and the like can be mentioned. Specifically, titanium oxide, tin oxide, barium sulfate, aluminum oxide, strontium titanate, magnesium oxide, as conductive inorganic particles,
Particles of silicon oxide, silicon carbide, silicon nitride, etc., which have been subjected to surface treatment with tin oxide, antimony oxide, carbon, etc. as necessary, and these shapes are also spherical, fibrous, plate-like,
Any shape such as an irregular shape may be used. The ionic conductive agent is an ammonium salt, an alkyl sulfonate, a phosphate ester salt, a perchlorate, or the like, and the conductive resin is a quaternary ammonium salt-containing polymethylmethacrylate, polyvinylaniline, polyvinylpyrrole, polydiacetylene. And polyethyleneimine. Further, as the conductive particle-dispersed resin, carbon, aluminum, conductive particles of nickel or the like dispersed in a resin such as urethane, polyester, vinyl acetate-vinyl chloride copolymer and polymethylmethacrylate may be mentioned. Although not limited to these, conductive inorganic particles are preferable as the conductive agent for the surface layer from the viewpoint of controlling the conductivity among them.

【0055】前記表面層には、中間転写体表面に高い潤
滑性を付与するために高潤滑性の粉体を特定量添加して
もよい。前述したように、中間転写体表面に高い潤滑性
を付与した場合、トナーとの付着力が低減されるため、
転写効率を更に向上できるという利点を有する。表面層
に添加する物質としては高潤滑性の粉体を用いることが
好ましく、例えば、フッ素ゴム、フッ素エラストマー、
黒鉛やグラファイトにフッ素を結合したフッ化炭素およ
び、PTFE、PVDF、ETFE、PFA等の樹脂の
フッ素化合物の粉体、シリコーン樹脂粒子、シリコーン
ゴム、シリコーンエラストマーなどのシリコーン系の粉
体。PE、PP、PS、アクリル樹脂、ナイロン樹脂、
フェノール樹脂、エポキシ樹脂等の樹脂およびこれらの
化合物、混合物の粉体、球状グラファイト等の粒状炭
素、シリカ、アルミナ、酸化チタン、酸化マグネシウ
ム、酸化スズ、酸化鉄などの無機粉体などであり、これ
らを単独または複数混合して使用することもできる。
A specific amount of highly lubricious powder may be added to the surface layer in order to impart high lubricity to the surface of the intermediate transfer member. As described above, when high lubricity is given to the surface of the intermediate transfer member, the adhesive force with the toner is reduced,
It has an advantage that the transfer efficiency can be further improved. The substance to be added to the surface layer is preferable to use a high lubricity of the powder, for example, fluorine rubber, full Tsu-containing elastomer,
Powders of graphite, fluorocarbons in which fluorine is bonded to graphite, and fluorine compound powders of resins such as PTFE, PVDF, ETFE, and PFA, silicone-based powders such as silicone resin particles, silicone rubber, and silicone elastomer. PE, PP, PS, acrylic resin, nylon resin,
Resins such as phenolic resins and epoxy resins and their compounds, powders of mixtures, granular carbon such as spherical graphite, inorganic powders such as silica, alumina, titanium oxide, magnesium oxide, tin oxide, iron oxide, etc. These may be used alone or in combination of two or more.

【0056】以下に実施例をもって本発明を詳細に説明
する。
The present invention will be described in detail below with reference to examples.

【0057】[0057]

【実施例】【Example】

(実施例1)直径182mm、長さ320mm、厚み5
mmのアルミ製円筒状ローラの上に、あらかじめチュー
ブ状に押し出した下記配合のゴムコンパウンドを被覆
し、150℃×1時間で加硫することにより、肉厚5m
mの弾性層を得た。その後、次の方法で弾性層の研磨を
行った。得られた弾性層に#800番相当のベルト状研
磨紙を半周巻き付け、10Kgの張力をかけた上で、弾
性層を500rpmの速度で回転させ、ベルトを弾性層
の端から端まで50mm/minの速度で移動した。こ
のとき研磨ベルトも送り装置により、50mm/sec
の速度で送りだし研磨屑を取り除くようにした。この後
さらに#1000番相当の研磨紙を用いて同様の表面研
磨を行い、ローラ(1)を得た。
(Example 1) Diameter 182 mm, length 320 mm, thickness 5
mm cylindrical aluminum roller is coated in advance with a rubber compound of the following composition extruded into a tube shape, and vulcanized at 150 ° C for 1 hour to give a wall thickness of 5 m.
m elastic layer was obtained. Then, the elastic layer was polished by the following method. A belt-shaped abrasive paper corresponding to # 800 was wound around the obtained elastic layer halfway, and a tension of 10 Kg was applied, and then the elastic layer was rotated at a speed of 500 rpm to rotate the belt from end to end of 50 mm / min. Moved at the speed of. At this time, the polishing belt is also 50 mm / sec by the feeding device.
It was sent at the speed of to remove the polishing dust. After that, the same surface polishing was further performed using a polishing paper corresponding to # 1000 to obtain a roller (1).

【0058】 ゴム配合 エピクロルヒドリンゴム 70重量部 NBR 30重量部 パラフィン系オイル 25重量部 加硫剤 3重量部 加硫助剤 2重量部 加硫促進剤 3重量部 充填剤 10重量部 次にその上層に下記のような処方の塗料を作製した。[0058]   Rubber compound epichlorohydrin rubber 70 parts by weight             NBR 30 parts by weight             Paraffin oil 25 parts by weight             Vulcanizing agent 3 parts by weight             Vulcanization aid 2 parts by weight             Vulcanization accelerator 3 parts by weight             Filler 10 parts by weight Next, a paint having the following formulation was prepared as an upper layer.

【0059】 塗料配合 ポリウレタンプレポリマー 100重量部 硬化剤(溶媒含む) 10重量部 PTFE粒子(粒径0.3μm) 200重量部 分散助剤 10重量部 DMF 540重量部 この塗料をスプレー塗布により、ローラ(1)表面へ厚
み15μmの表面層を形成し、その後、80℃で30分
間予備乾燥し、更に130℃で2時間加熱して残存溶剤
の除去と反応の完結を行い中間転写体(1)を得た。得
られた中間転写体について、前記の測定方法により表面
電位、およびJIS−A硬度を測定したところ、表面電
位は17V、JIS−A硬度は32度であった。
Paint formulation Polyurethane prepolymer 100 parts by weight Curing agent (including solvent) 10 parts by weight PTFE particles (particle size 0.3 μm) 200 parts by weight Dispersion aid 10 parts by weight DMF 540 parts by weight (1) A surface layer having a thickness of 15 μm is formed on the surface, then pre-dried at 80 ° C. for 30 minutes, and further heated at 130 ° C. for 2 hours to remove the residual solvent and complete the reaction, and the intermediate transfer member (1). Got The surface potential and JIS-A hardness of the obtained intermediate transfer member were measured by the above-mentioned measuring methods. The surface potential was 17 V and the JIS-A hardness was 32 degrees.

【0060】この中間転写体(1)を、感光体として保
護層を有する有機感光ドラム1を、図7に示される構成
の、転写部材として転写ベルト26を用いたフルカラー
電子写真装置に装着した。転写ベルト26は、中間転写
体に対応し平行に軸受させて、下面部接触させて配置
し、バイアスローラ27と駆動ローラ28によって支持
されている。バイアスローラ27には、二次転写バイア
ス源29によって所望の二次転写バイアスが印加され、
駆動ローラ28は接地する。図4において、図1および
図2に示したものと同一の部分は同一の符号で示す。
The intermediate transfer member (1) was mounted on the full-color electrophotographic apparatus having the organic photosensitive drum 1 having a protective layer as a photosensitive member and having the structure shown in FIG. 7 and using the transfer belt 26 as a transfer member. The transfer belt 26 is supported by a bias roller 27 and a drive roller 28 so as to bear parallel to the intermediate transfer member and to be in contact with the lower surface. A desired secondary transfer bias is applied to the bias roller 27 by a secondary transfer bias source 29,
The drive roller 28 is grounded. 4, the same parts as those shown in FIGS. 1 and 2 are designated by the same reference numerals.

【0061】このフルカラー電子写真装置を使用し、低
温低湿環境(温度15℃、湿度10%、以下L/L環
境)、および高温高湿環境(温度32.5℃、湿度80
%、以下H/H環境)の各環境下において、フルカラー
画像プリント5000枚の耐久試験を行った。尚、転写
紙としては、プリンター用普通紙である75g/m2
と、40g/m2紙の2種類を用いた。
Using this full-color electrophotographic apparatus, a low temperature and low humidity environment (temperature 15 ° C., humidity 10%, hereinafter L / L environment) and a high temperature and high humidity environment (temperature 32.5 ° C., humidity 80)
%, Hereinafter H / H environment), an endurance test was performed on 5000 full-color image prints. Two types of transfer paper were used: 75 g / m 2 paper, which is plain paper for printers, and 40 g / m 2 paper.

【0062】その結果、L/L環境およびH/H環境共
に、2種類の紙で、中間転写体へ転写材の分離不良は発
生せず、初期および5000枚の耐久試験後も良好な画
像が得られた。
As a result, in both the L / L environment and the H / H environment, with two types of paper, no defective separation of the transfer material to the intermediate transfer body occurred, and good images were obtained at the initial stage and after the durability test of 5,000 sheets. Was obtained.

【0063】以下に本実施例の作像条件を示す。The image forming conditions of this embodiment are shown below.

【0064】感光体:PTFE粒子を分散した保護層を
有する有機感光ドラム 感光体表面電位:−750V カラー現像剤(4色共に):非磁性一成分トナー 一次転写電圧:+1.0kV 二次転写電圧:+5.5kV プロセススピード:120mm/sec 現像バイアス:−550V 中間転写体クリーニング用帯電バイアス:交流ピーク間
電圧3.0kV、周波数2.0kHz、直流電圧+1.
0kV、の重畳電圧 また、この中間転写体に有機感光ドラムを当接させ、4
0℃/95%RHの環境において、1カ月放置しドラム
汚染試験を行った後、この有機感光ドラムの表面を観察
したところ表面の曇り、ヒビ割れ等は見られず、また、
この有機感光ドラムを用いてフルカラー画像プリントを
行ったが、ベタ画像において均質な画像が得られ、表面
層の弾性層成分のブリードに対するバリア性が高いこと
がわかった。
Photosensitive member: Organic photosensitive drum photosensitive member having protective layer in which PTFE particles are dispersed Surface potential: -750V Color developer (for all four colors): Non-magnetic one-component toner Primary transfer voltage: + 1.0kV Secondary transfer voltage : +5.5 kV Process speed: 120 mm / sec Development bias: -550 V Intermediate transfer member cleaning charging bias: AC peak-to-peak voltage 3.0 kV, frequency 2.0 kHz, DC voltage +1.
The superimposed voltage of 0 kV. Also, bring the organic photosensitive drum into contact with this intermediate transfer member, and
After the drum was left to stand for 1 month in an environment of 0 ° C./95% RH and a drum contamination test was conducted, the surface of this organic photosensitive drum was observed, and no surface fogging or cracking was observed.
A full-color image print was performed using this organic photosensitive drum, and it was found that a uniform image was obtained in a solid image and the barrier property of the elastic layer component of the surface layer against bleeding was high.

【0065】(実施例2)表面層に用いる塗料配合を下
記の配合に変更し、表面層の厚みを20μmとした以外
は実施例1と同様の方法で、中間転写体(2)を作製し
た。得られた中間転写体について、前記の測定方法によ
り表面電位、およびJIS−A硬度を測定したところ、
表面の電位上昇は280V、JIS−A硬度は34度で
あった。
Example 2 An intermediate transfer member (2) was prepared in the same manner as in Example 1 except that the coating composition used for the surface layer was changed to the following composition and the thickness of the surface layer was changed to 20 μm. . When the surface potential and JIS-A hardness of the obtained intermediate transfer member were measured by the above-mentioned measuring method,
The surface potential rise was 280 V and the JIS-A hardness was 34 degrees.

【0066】 塗料配合 フッ素樹脂(溶媒含む) 100重量部 (フルオロオレフィン−ビニルエーテル共重合体) 硬化剤 20重量部 DMF 300重量部 この中間転写体(2)を実施例1で使用したフルカラー
電子写真装置に装着し、実施例1と同様の条件でフルカ
ラー画像プリント5000枚の耐久試験を行った。
Fluorine resin (including solvent) 100 parts by weight (fluoroolefin-vinyl ether copolymer) Curing agent 20 parts by weight DMF 300 parts by weight This intermediate transfer member (2) was used in Example 1 in a full-color electrophotographic apparatus. Then, 5000 sheets of full-color image prints were subjected to a durability test under the same conditions as in Example 1.

【0067】その結果、L/L環境およびH/H環境共
に、2種類の紙で、中間転写体へ転写材の分離不良は発
生せず、初期および5000枚の耐久試験後も良好な画
像が得られた。
As a result, in both the L / L environment and the H / H environment, with two types of paper, no defective separation of the transfer material to the intermediate transfer body occurred, and good images were obtained at the initial stage and after the durability test of 5,000 sheets. Was obtained.

【0068】また、この中間転写体(2)について、実
施例1と同条件でドラム汚染試験を行ったところ、有機
感光ドラム表面の曇り、ヒビ割れ等は見られず、また、
この有機感光ドラムを用いてフルカラー画像プリントを
行ったが、ベタ画像において均質な画像が得られ、表面
層の弾性層成分のブリードに対するバリア性が高いこと
がわかった。
A drum contamination test was conducted on this intermediate transfer member (2) under the same conditions as in Example 1. No fog or cracking on the surface of the organic photosensitive drum was observed.
A full-color image print was performed using this organic photosensitive drum, and it was found that a uniform image was obtained in a solid image and the barrier property of the elastic layer component of the surface layer against bleeding was high.

【0069】(実施例3)実施例1において、弾性層の
充填剤を10重量部から30重量部に変更した以外は同
様の方法で中間転写体を作成し、中間転写体(3)を得
た。得られた中間転写体について、前記の測定方法によ
り表面の電位上昇、およびJIS−A硬度を測定したと
ころ、表面の電位上昇は19V、JIS−A硬度は68
度であった。
Example 3 An intermediate transfer member was prepared in the same manner as in Example 1 except that the filler for the elastic layer was changed from 10 parts by weight to 30 parts by weight to obtain an intermediate transfer member (3). It was With respect to the obtained intermediate transfer member, the surface potential rise and JIS-A hardness were measured by the above-described measuring method. The surface potential rise was 19 V and the JIS-A hardness was 68.
It was degree.

【0070】この中間転写体(3)を実施例1で使用し
たフルカラー電子写真装置に装着し、実施例1と同様の
条件でフルカラー画像プリント5000枚の耐久試験を
行った。
The intermediate transfer member (3) was mounted on the full-color electrophotographic apparatus used in Example 1, and 5000 sheets of full-color image prints were subjected to a durability test under the same conditions as in Example 1.

【0071】その結果、L/L環境およびH/H環境共
に、2種類の紙で、中間転写体へ転写材の分離不良は発
生せず、初期および5000枚の耐久試験後も良好な画
像が得られた。
As a result, in both the L / L environment and the H / H environment, with two types of paper, no defective separation of the transfer material to the intermediate transfer body occurred, and good images were obtained at the initial stage and after the durability test of 5,000 sheets. Was obtained.

【0072】また、この中間転写体(3)に実施例1と
同条件でドラム汚染試験を行ったところ、有機感光ドラ
ム表面の曇り、ヒビ割れ等は見られず、また、この有機
感光ドラムを用いてフルカラー画像プリントを行った
が、ベタ画像において均質な画像が得られ、表面層の弾
性層成分のブリードに対するバリア性が高いことがわか
った。
Further, when a drum contamination test was conducted on this intermediate transfer member (3) under the same conditions as in Example 1, no fog or cracking on the surface of the organic photosensitive drum was observed, and this organic photosensitive drum was also tested. A full-color image print was carried out using the same, and it was found that a uniform image was obtained in a solid image and the barrier property against bleeding of the elastic layer component of the surface layer was high.

【0073】(実施例4)実施例1において、弾性層の
肉厚を5mmから0.6mmに変更した以外は同様の方
法で中間転写体を作成し、中間転写体(4)を得た。得
られた中間転写体について、前記の測定方法により表面
の電位上昇、およびJIS−A硬度を測定したところ、
表面の電位上昇は13V、JIS−A硬度は36度であ
った。
Example 4 An intermediate transfer member was prepared in the same manner as in Example 1 except that the thickness of the elastic layer was changed from 5 mm to 0.6 mm to obtain an intermediate transfer member (4). The surface potential increase and JIS-A hardness of the obtained intermediate transfer member were measured by the above-mentioned measuring method,
The surface potential rise was 13 V, and the JIS-A hardness was 36 degrees.

【0074】この中間転写体(4)を実施例1で使用し
たフルカラー電子写真装置に装着し、実施例1と同様の
条件でフルカラー画像プリント5000枚の耐久試験を
行った。
This intermediate transfer member (4) was mounted on the full-color electrophotographic apparatus used in Example 1, and 5000 sheets of full-color image prints were subjected to a durability test under the same conditions as in Example 1.

【0075】その結果、L/L環境およびH/H環境共
に、2種類の紙で、中間転写体へ転写材の分離不良は発
生せず、初期および5000枚の耐久試験後も良好な画
像が得られた。
As a result, in both the L / L environment and the H / H environment, the separation of the transfer material onto the intermediate transfer member did not occur with two types of paper, and good images were obtained at the initial stage and after the durability test of 5000 sheets. Was obtained.

【0076】また、この中間転写体(4)に実施例1と
同条件でドラム汚染試験を行ったところ、有機感光ドラ
ム表面の曇り、ヒビ割れ等は見られず、また、この有機
感光ドラムを用いてフルカラー画像プリントを行った
が、ベタ画像において均質な画像が得られ、表面層の弾
性層成分のブリードに対するバリア性が高いことがわか
った。
A drum contamination test was conducted on this intermediate transfer member (4) under the same conditions as in Example 1. No fog or cracking on the surface of the organic photosensitive drum was observed. A full-color image print was carried out using the same, and it was found that a uniform image was obtained in a solid image and the barrier property against bleeding of the elastic layer component of the surface layer was high.

【0077】(比較例1)実施例2において、表面層の
厚みを20μmから30μmに変更した以外は同様の方
法で中間転写体(5)を作成した。得られた中間転写体
(5)について、前記の測定方法により表面の電位上
昇、およびJIS−A硬度を測定したところ、表面の電
位上昇は320V、JIS−A硬度は34度であった。
Comparative Example 1 An intermediate transfer member (5) was prepared in the same manner as in Example 2 except that the thickness of the surface layer was changed from 20 μm to 30 μm. With respect to the obtained intermediate transfer member (5), the surface potential rise and JIS-A hardness were measured by the above-described measuring methods. The surface potential rise was 320 V and the JIS-A hardness was 34 degrees.

【0078】この中間転写体(5)を実施例1で使用し
たフルカラー電子写真装置に装着し、実施例1と同様の
条件でフルカラー画像プリント5000枚の耐久試験を
行った。
The intermediate transfer member (5) was mounted on the full-color electrophotographic apparatus used in Example 1, and 5000 sheets of full-color image prints were subjected to a durability test under the same conditions as in Example 1.

【0079】その結果、75g/m2紙ではL/L環境
およびH/H環境共に、中間転写体へ転写材の分離不良
の発生はしなかったが、40g/m2紙では、L/L環
境では200枚目付近で分離不良が発生し、5000枚
中で43枚の分離不良が発生した。また、H/H環境で
も550枚目付近で分離不良が発生し、5000枚中で
19枚の分離不良が発生した。
[0079] As a result, the L / L environment and H / H environments both at 75 g / m 2 paper, but did not occur in the separation failure of the transfer material to the intermediate transfer member, in the 40 g / m 2 paper, L / L In the environment, separation failure occurred near the 200th sheet, and 43 out of 5000 sheets failed. Also in the H / H environment, separation failure occurred near the 550th sheet, and 19 out of 5000 sheets failed.

【0080】(比較例2)実施例1において、弾性層の
充填剤を10重量部から50重量部に変更した以外は同
様の方法で中間転写体(6)を得た。得られた中間転写
体(6)について、前記の測定方法により表面の電位上
昇、およびJIS−A硬度を測定したところ、表面の電
位上昇は18V、JIS−A硬度は74度であった。
Comparative Example 2 An intermediate transfer member (6) was obtained in the same manner as in Example 1, except that the filler for the elastic layer was changed from 10 parts by weight to 50 parts by weight. With respect to the obtained intermediate transfer member (6), the surface potential rise and JIS-A hardness were measured by the above-mentioned measuring methods. The surface potential rise was 18 V and the JIS-A hardness was 74 degrees.

【0081】この中間転写体(6)を実施例1で使用し
たフルカラー電子写真装置に装着し、実施例1と同様の
条件でフルカラー画像プリント5000枚の耐久試験を
行った。
This intermediate transfer member (6) was attached to the full-color electrophotographic apparatus used in Example 1, and 5000 sheets of full-color image prints were subjected to a durability test under the same conditions as in Example 1.

【0082】その結果、75g/m2紙ではL/L環境
およびH/H環境共に、中間転写体へ転写材の分離不良
の発生はしなかったが、40g/m2紙では、L/L環
境では500枚目付近で分離不良が発生し、5000枚
中で26枚の分離不良が発生した。また、H/H環境で
も750枚目付近で分離不良が発生し、5000枚中で
11枚の分離不良が発生した。
As a result, in the L / L environment and the H / H environment in the 75 g / m 2 paper, the separation of the transfer material to the intermediate transfer body did not occur, but in the 40 g / m 2 paper, the L / L In the environment, poor separation occurred near the 500th sheet, and 26th of the 5000 sheets failed. Also, in the H / H environment, separation failure occurred near the 750th sheet, and 11 out of 5000 sheets failed.

【0083】(比較例3)実施例1において、弾性層の
肉厚を5mmから0.4mmに変更した以外は同様の方
法で中間転写体(7)を得た。得られた中間転写体
(7)について、前記の測定方法により表面の電位上
昇、およびJIS−A硬度を測定したところ、表面の電
位上昇は12V、JIS−A硬度は34度であった。
Comparative Example 3 An intermediate transfer member (7) was obtained in the same manner as in Example 1, except that the thickness of the elastic layer was changed from 5 mm to 0.4 mm. With respect to the obtained intermediate transfer member (7), the surface potential rise and JIS-A hardness were measured by the above-described measuring methods. The surface potential rise was 12 V and the JIS-A hardness was 34 degrees.

【0084】この中間転写体(7)を実施例1で使用し
たフルカラー電子写真装置に装着し、実施例1と同様の
条件でフルカラー画像プリント5000枚の耐久試験を
行った。
This intermediate transfer member (7) was mounted on the full-color electrophotographic apparatus used in Example 1, and the durability test of 5000 full-color image prints was conducted under the same conditions as in Example 1.

【0085】その結果、75g/m2紙ではL/L環境
およびH/H環境共に、中間転写体へ転写材の分離不良
の発生はしなかったが、40g/m2紙では、L/L環
境では550枚目付近で分離不良が発生し、5000枚
中で16枚の分離不良が発生した。また、H/H環境で
も700枚目付近で分離不良が発生し、5000枚中で
13枚の分離不良が発生した。
As a result, in the L / L environment and the H / H environment in the case of 75 g / m 2 paper, the separation of the transfer material to the intermediate transfer member did not occur, but in the case of 40 g / m 2 paper, the L / L In the environment, poor separation occurred near the 550th sheet, and 16 poor sheets out of 5000 sheets. Further, even in the H / H environment, separation failure occurred near the 700th sheet, and 13 out of 5000 sheets failed.

【0086】[0086]

【発明の効果】以上のように本発明は、第1の画像担持
体上に形成された画像を中間転写体に一次転写した後、
第2の画像担持体上に更に二次転写する画像形成装置に
おいて、該中間転写体に一次転写された画像を帯電させ
る帯電器を二次転写前に有する画像形成装置であり、該
中間転写体が少なくとも弾性層および最外層である表面
層とを有し、該中間転写体の該帯電器による表面の電位
上昇が300V以下、かつ該中間転写体のJIS−A硬
度が70度以下、かつ該中間転写体の弾性層の肉厚が
0.5mm以上の範囲にあることで、転写材の種類、サ
イズにかかわらず、安定した転写性能、分離性能を使用
環境に依存せず得ることができる、という利点を有す
る。
As described above, according to the present invention, after the image formed on the first image carrier is primarily transferred to the intermediate transfer member,
An image forming apparatus for further secondary transfer onto a second image carrier, the image forming apparatus having a charger for charging an image primarily transferred onto the intermediate transfer body before the secondary transfer, the intermediate transfer body Has at least an elastic layer and a surface layer that is the outermost layer, the potential increase of the surface of the intermediate transfer member by the charger is 300 V or less, and the JIS-A hardness of the intermediate transfer member is 70 degrees or less, and By setting the thickness of the elastic layer of the intermediate transfer member to be in the range of 0.5 mm or more, stable transfer performance and separation performance can be obtained regardless of the use environment, regardless of the type and size of the transfer material. Has the advantage.

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

【図1】ローラ形状の中間転写体を用いたカラー画像出
力装置の構成を示す説明図である。
FIG. 1 is an explanatory diagram showing a configuration of a color image output device using a roller-shaped intermediate transfer member.

【図2】転写前帯電器を用いたカラー画像出力装置の構
成を示す説明図である。
FIG. 2 is an explanatory diagram showing a configuration of a color image output device using a pre-transfer charger.

【図3】中間転写体の表面電位の測定方法を例示する説
明図である。
FIG. 3 is an explanatory diagram illustrating a method for measuring the surface potential of an intermediate transfer member.

【図4】本発明に用いる弾性層を有するローラ形状の中
間転写体の断面図である。
FIG. 4 is a cross-sectional view of a roller-shaped intermediate transfer member having an elastic layer used in the present invention.

【図5】本発明に用いる弾性層の上に被覆層を有するロ
ーラ形状の中間転写体の断面図である。
FIG. 5 is a cross-sectional view of a roller-shaped intermediate transfer member having a coating layer on the elastic layer used in the present invention.

【図6】本発明に用いる弾性層の上に複数の被覆層を有
するローラ形状の中間転写体の断面図である。
FIG. 6 is a cross-sectional view of a roller-shaped intermediate transfer member having a plurality of coating layers on an elastic layer used in the present invention.

【図7】本発明の実施例で使用したカラー画像出力装置
の構成を示す説明図である。
FIG. 7 is an explanatory diagram showing a configuration of a color image output device used in an embodiment of the present invention.

【符号の説明】[Explanation of symbols]

1 感光ドラム 2 一次帯電器 3 像露光手段 9 給紙カセット 14 感光ドラムのクリーニング装置 15 定着器 20 中間転写体 21 芯金 22 弾性体層 23 転写前帯電器 24 転写材 25 転写ローラ 26 転写ベルト 27 バイアスローラ 28 駆動ローラ 29 二次転写バイアス電源 35 中間転写体クリーニング用帯電部材 36 中間転写体クリーニング部材用バイアス電源 41 マゼンタ色現像装置 42 シアン色現像装置 43 イエロー色現像装置 44 ブラック色現像装置 61 一次転写バイアス電源 100 芯金 101 弾性層 102 被覆層 103 被覆層 200 コロナ帯電器 201 バイアス電源 202 表面電位計 1 photosensitive drum 2 Primary charger 3 Image exposure means 9 paper cassettes 14 Photosensitive drum cleaning device 15 Fixer 20 Intermediate transfer body 21 core 22 Elastic layer 23 Pre-transfer charger 24 Transfer material 25 Transfer roller 26 Transfer belt 27 Bias roller 28 Drive roller 29 Secondary transfer bias power supply 35 Charging member for cleaning intermediate transfer member 36 Bias power supply for intermediate transfer member cleaning member 41 Magenta color developing device 42 Cyan color developing device 43 Yellow color developing device 44 Black color developing device 61 Primary transfer bias power supply 100 cores 101 elastic layer 102 coating layer 103 coating layer 200 corona charger 201 Bias power supply 202 surface electrometer

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平8−220902(JP,A) 特開 平1−92771(JP,A) 特開 平5−210315(JP,A) 特開 平8−63003(JP,A) 特開 平1−273080(JP,A) (58)調査した分野(Int.Cl.7,DB名) G03G 15/16 - 15/16 103 G03G 15/01 - 15/01 117 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-8-220902 (JP, A) JP-A-1-92771 (JP, A) JP-A-5-210315 (JP, A) JP-A-8- 63003 (JP, A) JP-A-1-273080 (JP, A) (58) Fields investigated (Int.Cl. 7 , DB name) G03G 15/16-15/16 103 G03G 15/01-15/01 117

Claims (5)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 第1の画像担持体上に形成された画像を
中間転写体に一次転写した後、第2の画像担持体上に更
に二次転写するように構成され、前記中間転写体上に一
次転写された画像を二次転写前に帯電させる帯電器を有
する画像形成装置において、該中間転写体が少なくとも
弾性層と、最外層である表面層とを有し、該中間転写体
の該帯電器による表面の電位上昇が300V以下、かつ
該中間転写体のJIS−A硬度が70度以下、かつ該中
間転写体の弾性層の肉厚が0.5mm以上であることを
特徴とする画像形成装置
1. An intermediate transfer member is configured such that an image formed on a first image carrier is primarily transferred to an intermediate transfer member and then secondarily transferred to a second image carrier. a Oite, the intermediate transfer member at least an elastic layer and a surface layer which is the outermost layer to an image forming apparatus having a charger for charging before the secondary transfer of the primary transferred image, the intermediate transfer member The surface potential increase by the charger of 300 V or less, the JIS-A hardness of the intermediate transfer member is 70 degrees or less, and the elastic layer thickness of the intermediate transfer member is 0.5 mm or more. Image forming apparatus .
【請求項2】 前記中間転写体が、ローラ形状である請
求項1の画像形成装置
2. The image forming apparatus according to claim 1 , wherein the intermediate transfer member has a roller shape.
【請求項3】 前記中間転写体が、表面層と弾性層との
2層構成である請求項1または2に記載の画像形成装
3. The image forming apparatus according to claim 1, wherein the intermediate transfer member has a two-layer structure including a surface layer and an elastic layer.
Place
【請求項4】 前記帯電器による表面の電位上昇が5V
以上300V以下、かつ前記中間転写体のJIS−A硬
度が10度以上70度以下、かつ前記中間転写体の弾性
層の肉厚が0.5mm以上10mm以下の範囲にある請
求項1乃至3のいずれか1項に記載の画像形成装置
4. The surface potential rise by the charger is 5V.
The above-mentioned 300V or less, the JIS-A hardness of the intermediate transfer body is 10 degrees or more and 70 degrees or less, and the thickness of the elastic layer of the intermediate transfer body is in the range of 0.5 mm or more and 10 mm or less. The image forming apparatus according to any one of items.
【請求項5】 前記中間転写体から二次転写されなかっ
た転写残現像剤に、帯電部材を用いて電荷を付与して、
前記中間転写体をクリーニングする中間転写体クリーニ
ング用帯電部材を更に具備し、前記第1の画像担持体上
から前記中間転写体へ現像剤を転写すると同時に、前記
中間転写体上の転写残現像剤を第1の画像担持体に回収
するように構成されている請求項1〜4のいずれかに
載の画像形成装置。
5. The transfer residual developer that has not been secondarily transferred from the intermediate transfer member is charged by using a charging member,
An intermediate transfer member cleaner for cleaning the intermediate transfer member
And a transfer residual developer on the intermediate transfer member, and at the same time, transfer the developer from the first image carrier to the intermediate transfer member. The image forming apparatus according to any one of claims 1 to 4, which is configured as described above.
JP04571897A 1997-02-28 1997-02-28 Image forming device Expired - Fee Related JP3513355B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP04571897A JP3513355B2 (en) 1997-02-28 1997-02-28 Image forming device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP04571897A JP3513355B2 (en) 1997-02-28 1997-02-28 Image forming device

Publications (2)

Publication Number Publication Date
JPH10240024A JPH10240024A (en) 1998-09-11
JP3513355B2 true JP3513355B2 (en) 2004-03-31

Family

ID=12727139

Family Applications (1)

Application Number Title Priority Date Filing Date
JP04571897A Expired - Fee Related JP3513355B2 (en) 1997-02-28 1997-02-28 Image forming device

Country Status (1)

Country Link
JP (1) JP3513355B2 (en)

Also Published As

Publication number Publication date
JPH10240024A (en) 1998-09-11

Similar Documents

Publication Publication Date Title
KR100198170B1 (en) Image Forming Apparatus
EP0744672B1 (en) Image forming apparatus and method employing an intermediate transfer member
JPH08160759A (en) Image forming device
JP4114991B2 (en) Image forming apparatus
JP3337834B2 (en) Image forming device
JP3513355B2 (en) Image forming device
JP3387713B2 (en) Intermediate transfer member and image forming apparatus having the intermediate transfer member
JPH1039647A (en) Image forming device
JP3342288B2 (en) Image forming device
JP3359233B2 (en) Image forming device
JP3402943B2 (en) Image forming device
JP3308741B2 (en) Image forming device
JP3343877B2 (en) Image forming apparatus and intermediate transfer body
JP3199152B2 (en) Image forming device
JP3082546B2 (en) Image forming device
JP3667030B2 (en) Intermediate transfer member manufacturing method and image forming apparatus
JPH11327316A (en) Image forming device
JP3595654B2 (en) Image forming device
JP3236182B2 (en) Image forming device
JP3352296B2 (en) Image forming device
JP3847814B2 (en) Image forming apparatus
JP3257658B2 (en) Image forming device
JP3402977B2 (en) Image forming device
JP3278310B2 (en) Method of manufacturing intermediate transfer body and image forming apparatus using intermediate transfer body manufactured by this manufacturing method
JPH1165318A (en) Image forming device

Legal Events

Date Code Title Description
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20031224

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20040109

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20090116

Year of fee payment: 5

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20090116

Year of fee payment: 5

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20100116

Year of fee payment: 6

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110116

Year of fee payment: 7

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120116

Year of fee payment: 8

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130116

Year of fee payment: 9

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20140116

Year of fee payment: 10

LAPS Cancellation because of no payment of annual fees