JP4708718B2 - Fixing device and fixing film - Google Patents
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- JP4708718B2 JP4708718B2 JP2004053613A JP2004053613A JP4708718B2 JP 4708718 B2 JP4708718 B2 JP 4708718B2 JP 2004053613 A JP2004053613 A JP 2004053613A JP 2004053613 A JP2004053613 A JP 2004053613A JP 4708718 B2 JP4708718 B2 JP 4708718B2
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- Fixing For Electrophotography (AREA)
- Control Of Resistance Heating (AREA)
- Resistance Heating (AREA)
Description
本発明は、定着装置および定着フィルムに関するものである。 The present invention relates to a fixing device and a fixing film .
一般に、複写機、レーザービームプリンタ等においては、電子写真方式の画像形成装置が広く採用されている。電子写真方式では、静電的な力を利用し、トナー粒子による画像を記録用紙等の記録材上に転写方式あるいは直接方式で形成し、像加熱装置としての定着装置でそのトナー像を記録材上に溶融固着させて安定した画像を形成する。 In general, electrophotographic image forming apparatuses are widely used in copying machines, laser beam printers, and the like. In the electrophotographic method, an electrostatic force is used to form an image of toner particles on a recording material such as recording paper by a transfer method or a direct method, and the toner image is recorded on the recording material by a fixing device as an image heating device. A stable image is formed by being melted and fixed thereon.
定着装置としては、熱ローラ方式が広く用いられている。また、近時はフィルム加熱方式の装置が実用化されている。 As the fixing device, a heat roller method is widely used. Recently, a film heating system has been put into practical use.
熱ローラ方式としては、定着ローラ(加熱ローラ)と加圧ローラとの圧接ローラ対を基本構成とし、該ローラ対を回転させ、該ローラ対の相互圧接部である定着ニップ部(加熱ニップ部)に画像定着すべき未定着トナー画像を形成担持させた記録材を導入して挟持搬送させて、定着ローラの熱と、定着ニップ部の加圧力にて未定着トナー画像を記録材面に熱圧定着させるものである。 As the heat roller system, a pressure roller pair of a fixing roller (heating roller) and a pressure roller is a basic configuration, and the roller pair is rotated, and a fixing nip portion (heating nip portion) which is a mutual pressure contact portion of the roller pair A recording material on which an unfixed toner image to be image-fixed is formed and carried is introduced and nipped and conveyed, and the unfixed toner image is applied to the surface of the recording material by the heat of the fixing roller and the pressure of the fixing nip. It is to fix.
この熱ローラ方式の定着装置に用いられる定着ローラ及び加圧ローラとしては、たとえばアルミ等の中空ローラの表面に、当接ニップ確保のためシリコンゴム・フッ素ゴム等の耐熱性弾性層を、トナーや紙粉等が固着するのを防ぐため最表層にPFA(テトラフルオロエチレン−パーフルオロアルキルビニルエーテル共重合体)・PTFE(ポリテトラフルオロエチレン)等の樹脂によるコーティング層等の離型層を被覆したものが知られ、定着ローラを内部からハロゲンヒータ等により加熱し、表面温度を所定の定着温度に保ち、加熱定着を行うのが一般的である。 As a fixing roller and a pressure roller used in this heat roller type fixing device, for example, a heat-resistant elastic layer such as silicon rubber or fluorine rubber is provided on the surface of a hollow roller such as aluminum, and toner or The outermost layer is coated with a release layer such as a coating layer of PFA (tetrafluoroethylene-perfluoroalkyl vinyl ether copolymer) / PTFE (polytetrafluoroethylene) to prevent paper dust from sticking. In general, the fixing roller is heated from the inside by a halogen heater or the like to maintain the surface temperature at a predetermined fixing temperature and perform heat fixing.
フィルム加熱方式の定着装置(加熱装置)は本出願人の先の提案に係る例えば特許文献1〜4等に開示されている。すなわち、加熱体としての一般にセラミックヒータと、加圧部材としての弾性加圧ローラとの間に可撓性移動部材としての耐熱性フィルム(定着フィルム)を挟ませてニップ部(定着ニップ部、接触部)を形成させ、該ニップ部のフィルムと加圧ローラとの間に被加熱材としての画像定着すべき未定着トナー画像を形成担持させた記録材を導入してフィルムといっしょに挟持搬送させることで、ニップ部において加熱・加圧して未定着トナー画像を記録材面に熱圧定着させるものである。 A film heating type fixing device (heating device) is disclosed in, for example, Patent Documents 1 to 4 and the like related to the earlier proposal of the present applicant. That is, a heat-resistant film (fixing film) as a flexible moving member is generally sandwiched between a ceramic heater as a heating body and an elastic pressure roller as a pressure member, and a nip portion (fixing nip portion, contact) A recording material on which an unfixed toner image to be fixed as a heated material is formed and supported between the film and the pressure roller in the nip portion, and is nipped and conveyed together with the film Thus, the unfixed toner image is heated and fixed on the surface of the recording material by heating and pressing at the nip portion.
このフィルム加熱方式の定着装置は、セラミックヒータ及びフィルムとして低熱容量の部材を用いてオンデマンドタイプの装置を構成することができ、画像形成装置の画像形成実行時のみ熱源としてのセラミックヒータに通電して所定の定着温度に発熱させた状態にすればよく、画像形成装置の電源オンから画像形成実行可能状態までの待ち時間が短く(クイックスタート性)、スタンバイ時の消費電力も大幅に小さい(省電力)等の利点がある。 This film heating type fixing device can be configured as an on-demand type device using a ceramic heater and a film having a low heat capacity as a film, and energizes the ceramic heater as a heat source only when the image forming apparatus performs image formation. It is only necessary to generate heat at a predetermined fixing temperature, and the waiting time from the power-on of the image forming apparatus to the image forming executable state is short (quick start property), and the power consumption during standby is greatly reduced (saving) Power).
可撓性移動部材としてのフィルムは、回転体としての円筒状もしくはエンドレスベルト状のフィルムにし、その駆動方法としては、フィルム内周面を案内するフィルムガイドと加圧ローラとで圧接されたフィルムを加圧ローラの回転駆動によって従動回転させる方式(加圧ローラ駆動方式)や、逆に駆動ローラとテンションローラによって張架されたエンドレスベルト状のフィルムの駆動によって加圧ローラを従動回転させるもの等がある。また、可撓性移動部材としてのフィルムは、ロール巻きにした長尺の有端部材にし、これを加熱体を経由させて繰り出し走行移動させる装置構成にすることもできる。 The film as the flexible moving member is a cylindrical or endless belt-like film as a rotating body, and the driving method is to use a film pressure-contacted by a film guide for guiding the inner peripheral surface of the film and a pressure roller. There is a method of rotating the pressure roller by driving the pressure roller (pressure roller driving method), and conversely rotating the pressure roller by driving an endless belt-like film stretched between the driving roller and the tension roller. is there. Moreover, the film as a flexible movement member can also be set as the apparatus structure which makes it the long end member wound by the roll, and draws out and moves this through a heating body.
また本出願人は、フルカラーの画像形成を行う画像形成装置の定着装置として、特許文献5、6、7において、フィルム表面に弾性層を形成する構成として、OHTの透過性、色再現性、及び光沢ムラ・画像ガサツキの改善等、定着性の向上を図ったものを提案している。 In addition, as a fixing device of an image forming apparatus that performs full-color image formation, the applicant of the present application disclosed in Patent Documents 5, 6, and 7, as a configuration in which an elastic layer is formed on the film surface, OHT transparency, color reproducibility, and Proposals have been made to improve fixing properties such as uneven gloss and image roughness.
また加圧ローラ内にも熱源を具備させて加圧ローラも加熱温調する構成にしたものもある。 しかしながら、上記従来例においては、記録材の種類や環境等の条件によっては記録材上のトナーが定着フィルムに静電的に転移する静電オフセット現象が発生することがあり、画像品位を低下させることがあった。 There is also a configuration in which a heat source is also provided in the pressure roller so that the pressure roller is also heated. However, in the above conventional example, depending on conditions such as the type of recording material and the environment, an electrostatic offset phenomenon in which the toner on the recording material is electrostatically transferred to the fixing film may occur, thereby reducing the image quality. There was a thing.
すなわち、記録材の種類や環境等の条件によっては、記録材と定着フィルムの摩擦帯電によってもしくは記録材の転写電荷等によって、記録材上のトナーが定着フィルムに引き寄せられる電界が生じ、トナーの一部が定着フィルム上に転移してしまうことがあった。転移したトナーは定着フィルムが一周した後記録材上に戻り、画像上ゴーストとなって画像品位を低下させてしまう(静電オフセット)。 That is, depending on conditions such as the type of recording material and the environment, an electric field that causes the toner on the recording material to be attracted to the fixing film due to frictional charging between the recording material and the fixing film or due to transfer charge of the recording material may occur. The portion may be transferred onto the fixing film. The transferred toner returns to the recording material after the fixing film makes a round, and becomes a ghost on the image, degrading the image quality (electrostatic offset).
静電オフセットには大きく分けて二つの出方があり、ここでは全面オフセットと剥離オフセットに分類する。 There are two types of electrostatic offsets, and here they are classified into full-surface offsets and peeling offsets.
全面オフセットは、記録材、定着フィルムが互いに摩擦帯電等で電荷のやり取りをし、オフセット電界が定常的に発生するものであり、オフセットは画像全体に連続的に出る。 In the entire surface offset, the recording material and the fixing film exchange charges with each other by frictional charging or the like, and an offset electric field is constantly generated, and the offset appears continuously over the entire image.
一方、剥離オフセットは、記録材後端が定着器を抜けるときに記録材後端がはねて定着フィルムと強く接触しフィルム長手に一直線に電位履歴を残し、この電位がオフセットを発生させるものであり、画像上では走査方向に一直線上に発生するため、全面オフセットと区別できる。 On the other hand, the peeling offset is a phenomenon in which when the trailing edge of the recording material passes through the fixing device, the trailing edge of the recording material splashes and comes into strong contact with the fixing film, leaving a potential history in a straight line in the longitudinal direction of the film. Yes, it occurs on a straight line in the scanning direction on the image, so that it can be distinguished from the entire surface offset.
とくに、フルカラーの画像形成を行う画像形成装置の定着装置として、フィルム表面に弾性層を形成する構成のものにおいては、弾性層を有することで、フィルム全体の厚みが大きくなり、静電容量が小さくなり、表面の帯電電荷量が同じでも表面電位が大きくなるため、上記不具合が顕著に表れやすくなると考えられる。 In particular, as a fixing device of an image forming apparatus that performs full-color image formation, an elastic layer is formed on the film surface, so that the thickness of the entire film is increased and the capacitance is reduced by having the elastic layer. Thus, it is considered that the above-mentioned problem is likely to appear remarkably because the surface potential is increased even when the surface charge amount is the same.
特許文献6、7においては、弾性層を低抵抗化するなどして、表面電荷を緩和して、像のにじみや定着不良を無くすと同時に、オフセットをも改善できる加熱装置を提案している。
しかしながら、弾性層を低抵抗化する場合には、硬度と低抵抗化の両立を考慮しなければならず、安価に所望の抵抗値に制御するには限界があった。 However, when the resistance of the elastic layer is reduced, it is necessary to consider both the hardness and the resistance reduction, and there is a limit to controlling the resistance value at a low cost.
また、装置によっては、転写との電気的な干渉を考慮して、定着フィルムの表層に絶縁層を設けなければならない場合があった。すなわち、たとえば転写部と定着部の距離が近い画像形成装置においては、定着フィルム表層が低抵抗であると、転写部でのバイアスが、記録材の表層を伝わるなどしてフィルム表面に逃げてしまう場合があり、転写バイアス不足による画像不良等の不具合が発生することがあった。 In some apparatuses, an insulating layer must be provided on the surface layer of the fixing film in consideration of electrical interference with transfer. That is, for example, in an image forming apparatus in which the distance between the transfer portion and the fixing portion is short, if the fixing film surface layer has a low resistance, the bias at the transfer portion escapes to the film surface by being transmitted through the surface layer of the recording material. In some cases, defects such as image defects due to insufficient transfer bias may occur.
とくにカラー画像形成装置では、複数回転写が行われることもあって、高電圧による転写が行われるため、絶縁層を必要とする場合が多かった。 In particular, in a color image forming apparatus, since transfer is performed a plurality of times and transfer is performed with a high voltage, an insulating layer is often required.
一方、フィルム内面の摺擦による摩擦帯電等でフィルム内面に蓄積された帯電電荷によって、画像不良や、リーク等によるノイズの発生による動作不良等の不具合が発生する場合があった。 On the other hand, in some cases, the charging charge accumulated on the inner surface of the film due to frictional charging or the like due to rubbing on the inner surface of the film may cause defects such as image defects or malfunction due to noise due to leakage or the like.
すなわち、上記従来例では、基層の部材としては絶縁性の材料が一般に用いられており、例えば、装置構成によっては、リブ部等との摩擦により定着フィルム内面の基層が帯電し、場合によっては、フィルム表面の電界に影響し、静電オフセット等の画像不良となることがあった。さらに基層に蓄積された電荷を逃がす経路のない場合などには、蓄積された電荷が不規則にリークして、リーク跡として画像不良となったり、リークによるノイズで装置の動作不良が発生したり、ひどい場合には、リークによって傷等が生じて、著しく装置の耐久性(寿命)を悪化させる場合もあった。 That is, in the above conventional example, an insulating material is generally used as a member of the base layer. For example, depending on the apparatus configuration, the base layer on the inner surface of the fixing film is charged by friction with a rib portion or the like. The electric field on the film surface may be affected, resulting in image defects such as electrostatic offset. In addition, when there is no path for releasing the charge accumulated in the base layer, the accumulated charge leaks irregularly, resulting in an image defect as a leak mark, or device malfunction due to noise due to the leak. In a severe case, damage or the like may occur due to leakage, and the durability (life) of the apparatus may be significantly deteriorated.
これに対し、金属フィルム(導電性)を基層とすることで、内面の摩擦帯電等を防止することが可能であるが、金属フィルムは樹脂フィルムに比べ、屈曲性(繰り返し屈曲強度=耐久性)、追従性(ヒータ面への追従性)等の面で劣る場合があり、小型、小径化等には不利であった。 On the other hand, by using a metal film (conductive) as a base layer, it is possible to prevent frictional charging and the like on the inner surface, but the metal film is more flexible (repetitive bending strength = durability) than the resin film. In some cases, it is inferior in terms of followability (followability to the heater surface) and the like, which is disadvantageous for downsizing and diameter reduction.
また、とくに厚みの薄い弾性層を用いようとした場合等には、フィルムとしての静電容量が大きくなりすぎて、剥離放電などによるフィルム表面に蓄積される電荷の量が多くなってしまい、フィルム表面の材質や、環境等の条件によっては、剥離オフセットなどの不具合が生じる場合があった。 In particular, when trying to use a thin elastic layer, the electrostatic capacity of the film becomes too large, and the amount of charge accumulated on the film surface due to peeling discharge increases. Depending on the material of the surface and conditions such as the environment, defects such as peeling offset may occur.
したがって、本発明の目的は、とくに、樹脂製の基層と、離型層と、基層と離型層の間に設けられたゴム層と、を有する筒状の定着フィルムを用いた定着装置、および該定着装置に用いられる定着フィルムについて、全面オフセットと剥離オフセットをどちらも適度に抑制することである。 Accordingly, an object of the present invention is, in particular, a fixing device using a cylindrical fixing film having a resin base layer, a release layer, and a rubber layer provided between the base layer and the release layer, and The fixing film used in the fixing device is to moderately suppress both the entire surface offset and the peeling offset .
本発明は、下記の構成を特徴とする定着装置および定着フィルムである。 The present invention is a fixing device and a fixing film characterized by the following configurations.
(1)樹脂製の基層と、離型層と、前記基層と前記離型層の間に設けられたゴム層と、を有する筒状の定着フィルムと、前記定着フィルムの基層に接触するヒータと、前記定着フィルムを介して前記ヒータと共に定着ニップ部を形成する加圧ローラと、を有し、前記定着ニップ部でトナー像を担持する記録材を挟持搬送しつつ記録材にトナー像を加熱定着する定着装置において、
前記基層は導電性物質が分散していることで体積抵抗率ρvが1×10 3 (Ω・cm)≦ρv≦1×10 9 (Ω・cm)となっているポリイミド樹脂層であり、前記ゴム層と前記離型層が絶縁層であることを特徴とする定着装置。
(1) A cylindrical fixing film having a resin base layer, a release layer, and a rubber layer provided between the base layer and the release layer, and a heater in contact with the base layer of the fixing film; And a pressure roller that forms a fixing nip portion together with the heater via the fixing film, and the toner image is heated and fixed onto the recording material while the recording material carrying the toner image is sandwiched and conveyed in the fixing nip portion. In the fixing device
The base layer is a polyimide resin layer having a volume resistivity ρv of 1 × 10 3 (Ω · cm) ≦ ρv ≦ 1 × 10 9 (Ω · cm) due to the dispersion of a conductive substance, A fixing device, wherein the rubber layer and the release layer are insulating layers.
(2)樹脂製の基層と、離型層と、前記基層と前記離型層の間に設けられたゴム層と、を有する筒状の定着フィルムと、前記定着フィルムの基層に接触するヒータと、前記定着フィルムを介して前記ヒータと共に定着ニップ部を形成する加圧ローラと、を有し、前記定着ニップ部でトナー像を担持する記録材を挟持搬送しつつ記録材にトナー像を加熱定着する定着装置に用いられる定着フィルムにおいて、
前記基層は導電性物質が分散していることで体積抵抗率ρvが1×10 3 (Ω・cm)≦ρv≦1×10 9 (Ω・cm)となっているポリイミド樹脂層であり、前記ゴム層と前記離型層が絶縁層であることを特徴とする定着フィルム。
(2) a cylindrical fixing film having a resin base layer, a release layer, and a rubber layer provided between the base layer and the release layer, and a heater in contact with the base layer of the fixing film; And a pressure roller that forms a fixing nip portion together with the heater via the fixing film, and the toner image is heated and fixed onto the recording material while the recording material carrying the toner image is sandwiched and conveyed in the fixing nip portion. In a fixing film used for a fixing device,
The base layer is a polyimide resin layer having a volume resistivity ρv of 1 × 10 3 (Ω · cm) ≦ ρv ≦ 1 × 10 9 (Ω · cm) due to the dispersion of a conductive substance, A fixing film, wherein the rubber layer and the release layer are insulating layers.
すなわち、基層を中抵抗のポリイミド樹脂層とし、ゴム層と離型層を絶縁層とすることで、全面オフセットと剥離オフセットをどちらも適度に抑制できるという効果がある。 That is, when the base layer is a medium resistance polyimide resin layer and the rubber layer and the release layer are insulating layers, both the entire surface offset and the peeling offset can be appropriately suppressed.
(1)画像形成装置例
図1は画像形成装置の一例の概略構成図である。本例の画像形成装置は電子写真プロセ
ス利用のフルカラー画像プリンタである。この画像形成装置は、記録材に未定着画像を形成担持させる作像手段と、その未定着画像を記録材面に加熱定着させる定着手段を有する。そして、作像手段が記録材上に複数色のトナー画像を形成するカラー画像形成手段である。
(1) Example of Image Forming Apparatus FIG. 1 is a schematic configuration diagram of an example of an image forming apparatus. The image forming apparatus of this example is a full-color image printer using an electrophotographic process. The image forming apparatus includes an image forming unit that forms and supports an unfixed image on a recording material, and a fixing unit that heats and fixes the unfixed image on the surface of the recording material. The image forming means is a color image forming means for forming toner images of a plurality of colors on the recording material.
101は有機感光体やアモルファスシリコン感光体でできた電子写真感光ドラム(像担持体)であり、矢示の反時計方向に所定のプロセススピード(周速度)で回転駆動される。 Reference numeral 101 denotes an electrophotographic photosensitive drum (image bearing member) made of an organic photosensitive member or an amorphous silicon photosensitive member, which is rotationally driven in a counterclockwise direction indicated by an arrow at a predetermined process speed (peripheral speed).
感光ドラム101はその回転過程で帯電ローラ等の帯電装置102で所定の極性・電位の一様な帯電処理を受ける。 The photosensitive drum 101 is uniformly charged with a predetermined polarity and potential by a charging device 102 such as a charging roller during the rotation process.
ついでその帯電処理面にレーザ光学箱(レーザスキャナー)110から出力されるレーザ光103による、目的の画像情報の走査露光処理を受ける。レーザ光学箱110は不図示の画像読取装置等の画像信号発生装置からの目的画像情報の時系列電気デジタル画素信号に対応して変調(オン/オフ)したレーザ光103を出力して回転感光ドラム面を走査露光するもので、この走査露光により回転感光ドラム101面に走査露光した目的画像情報に対応した静電潜像が形成される。109はレーザ光学箱110からの出力レーザ光を感光ドラム101の露光位置に偏向させるミラーである。 Subsequently, the charging processing surface is subjected to scanning exposure processing of target image information by laser light 103 output from a laser optical box (laser scanner) 110. A laser optical box 110 outputs a laser beam 103 modulated (on / off) in accordance with a time-series electric digital pixel signal of target image information from an image signal generator such as an image reading device (not shown) to output a rotating photosensitive drum. The surface is subjected to scanning exposure, and an electrostatic latent image corresponding to target image information scanned and exposed on the surface of the rotary photosensitive drum 101 is formed by this scanning exposure. Reference numeral 109 denotes a mirror that deflects the output laser light from the laser optical box 110 to the exposure position of the photosensitive drum 101.
フルカラー画像形成の場合は、目的のフルカラー画像の第1の色分解成分画像、たとえばイエロー成分画像についての走査露光・潜像形成がなされ、その潜像が4色カラー現像装置104のうちのイエロー現像器104Yの作動でイエロートナー画像(トナー像)として現像される。そのイエロートナー画像は感光ドラム101と中間転写体ドラム105との接触部(あるいは近接部)である一次転写部T1において中間転写ドラム105の面に転写される。中間転写ドラム105面に対するトナー画像転写後の回転感光ドラム101面はクリーナ107により転写残りトナー等の付着残留物の除去を受けて清掃される。 In the case of full-color image formation, scanning exposure / latent image formation is performed on a first color separation component image of a target full-color image, for example, a yellow component image, and the latent image is subjected to yellow development in the four-color developing device 104. The yellow toner image (toner image) is developed by the operation of the device 104Y. The yellow toner image is transferred onto the surface of the intermediate transfer drum 105 at the primary transfer portion T1 which is a contact portion (or proximity portion) between the photosensitive drum 101 and the intermediate transfer drum 105. The surface of the rotary photosensitive drum 101 after the transfer of the toner image to the surface of the intermediate transfer drum 105 is cleaned by the cleaner 107 after removal of adhered residues such as transfer residual toner.
上記のような帯電・走査露光・現像・一次転写・清掃のプロセスサイクルが、目的のフルカラー画像の、第2の色分解成分画像(たとえばマゼンタ成分画像、マゼンタ現像器104Mが作動)、第3の色成分画像(たとえばシアン成分画像、シアン現像器104Cが作動)、第4の色成分画像(たとえば黒成分画像、黒現像器104BKが作動)の各色分解成分画像について順次に実行され、中間転写体ドラム105面にイエロートナー画像・マゼンタトナー画像・シアントナー画像・黒トナー画像の都合4色のトナー画像が順次重ねて転写されて、目的のフルカラー画像に対応したカラートナー画像が合成形成される。 The process cycle of charging / scanning exposure / development / primary transfer / cleaning as described above includes a second color separation component image (for example, magenta component image, magenta developer 104M is activated) of the target full-color image, a third An intermediate transfer member is sequentially executed for each color separation component image of a color component image (for example, cyan component image, cyan developing device 104C is activated) and a fourth color component image (for example, black component image, black developing device 104BK is activated). Four color toner images of a yellow toner image, a magenta toner image, a cyan toner image, and a black toner image are sequentially superimposed and transferred onto the surface of the drum 105, and a color toner image corresponding to the target full-color image is synthesized and formed.
中間転写体ドラム105は、金属ドラム上に中抵抗の弾性層と高抵抗の表層を有するもので、感光ドラム101に接触してあるいは近接して感光ドラム101と略同じ周速度で矢示の時計方向に回転駆動され、中間転写体ドラム105の金属ドラムにバイアス電位を与えて感光ドラム101との電位差で感光ドラム101側のトナー画像を該中間転写体ドラム105面側に転写させる。 The intermediate transfer drum 105 has a middle-resistance elastic layer and a high-resistance surface layer on a metal drum. The intermediate transfer drum 105 is in contact with or close to the photosensitive drum 101 at the same peripheral speed as the photosensitive drum 101. And a bias potential is applied to the metal drum of the intermediate transfer drum 105 to transfer the toner image on the photosensitive drum 101 side to the surface of the intermediate transfer drum 105 by the potential difference with the photosensitive drum 101.
上記の中間転写体105面に合成形成されたカラートナー画像は、該回転中間転写体ドラム105と転写ローラ106との接触ニップ部である二次転写部T2において、該二次転写部T2に不図示の給紙部から所定の制御タイミングで送り込まれた記録材Pの面に転写されていく。転写ローラ106は記録材Pの背面からトナーと逆極性の電荷を供給することで中間転写体ドラム105面側から記録材P側へ合成カラートナー画像を順次に一括転写する。 The color toner image synthesized and formed on the surface of the intermediate transfer member 105 is not transferred to the secondary transfer portion T2 at the secondary transfer portion T2 which is a contact nip portion between the rotating intermediate transfer drum 105 and the transfer roller 106. The image is transferred onto the surface of the recording material P fed from the sheet feeding unit shown in the figure at a predetermined control timing. The transfer roller 106 supplies a charge having a polarity opposite to that of the toner from the back surface of the recording material P, thereby sequentially transferring the combined color toner images sequentially from the surface of the intermediate transfer drum 105 to the recording material P side.
二次転写部T2を通過した記録材Pは中間転写体ドラム105の面から分離されて定着装置100へ導入され、未定着トナー画像の加熱定着処理を受けてカラー画像形成物として機外の不図示の排紙トレーに排出される。 The recording material P that has passed through the secondary transfer portion T2 is separated from the surface of the intermediate transfer drum 105, introduced into the fixing device 100, subjected to heat-fixing processing of an unfixed toner image, and is subjected to non-fixing as a color image formed product. The paper is discharged onto the illustrated paper discharge tray.
記録材Pに対するカラートナー画像転写後の回転中間転写体ドラム105はクリーナ108により転写残りトナー・紙粉等の付着残留物の除去を受けて清掃される。このクリーナ108は常時は中間転写体ドラム105に非接触状態に保持されており、中間転写体ドラム105から記録材Pに対するカラートナー画像の二次転写実行過程において中間転写体ドラム105に接触状態に保持される。 After the color toner image is transferred to the recording material P, the rotating intermediate transfer drum 105 is cleaned by the cleaner 108 after removal of the adhering residue such as transfer residual toner and paper dust. The cleaner 108 is always held in a non-contact state with the intermediate transfer drum 105, and is in contact with the intermediate transfer drum 105 during the secondary transfer of the color toner image from the intermediate transfer drum 105 to the recording material P. Retained.
また、転写ローラ106も常時は中間転写体ドラム105に非接触状態に保持されており、中間転写体ドラム105から記録材Pに対するカラートナー画像の二次転写実行過程において中間転写体ドラム105に記録材Pを介して接触状態に保持される。 Also, the transfer roller 106 is always held in a non-contact state with the intermediate transfer drum 105, and recording is performed on the intermediate transfer drum 105 during the secondary transfer of the color toner image from the intermediate transfer drum 105 to the recording material P. The contact state is maintained via the material P.
白黒画像などモノカラー画像のプリントモードも実行できる。また両面画像プリントモード、或は多重画像プリントモードも実行できる。 A mono-color image print mode such as a monochrome image can also be executed. A double-sided image print mode or a multiple image print mode can also be executed.
両面画像プリントモードの場合は、定着装置100を出た1面目画像プリント済みの記録材Pは不図示の再循環搬送機構を介して表裏反転されて再び二次転写部T2へ送り込まれて2面に対するトナー画像転写を受け、再度、定着装置100に導入されて2面に対するトナー画像の定着処理を受けることで両面画像プリントが出力される。 In the double-sided image print mode, the recording material P on which the first-side image has been printed exiting the fixing device 100 is turned upside down via a recirculation conveyance mechanism (not shown), and sent again to the secondary transfer unit T2 to be the second side. In response to the toner image transfer, the toner image is again introduced into the fixing device 100 and undergoes a toner image fixing process on two sides, whereby a double-sided image print is output.
多重画像プリントモードの場合は、定着装置100を出た1回目画像プリント済みの記録材Pは不図示の再循環搬送機構を介して表裏反転されずに再び二次転写部T2へ送り込まれて1回目画像プリント済みの面に2回目のトナー画像転写を受け、再度、定着装置100に導入されて2回目のトナー画像の定着処理を受けることで多重画像プリントが出力される。 In the multiple image print mode, the recording material P on which the first image has been printed out of the fixing device 100 is sent to the secondary transfer portion T2 again without being turned upside down via a recirculation conveyance mechanism (not shown). The second toner image is transferred to the surface on which the second image has been printed, and is again introduced into the fixing device 100 and undergoes the second toner image fixing process, whereby a multiple image print is output.
(2)定着装置100
本実施例における定着装置100は基本的には特開平4−44075〜44083、4−204980〜204984号公報等に開示の、可撓性部材として円筒状の耐熱性フィルム(定着フィルム)を用いた、フィルム加熱方式、加圧ローラ駆動方式(テンションレスタイプ)の加熱装置である。
(2) Fixing device 100
The fixing device 100 in this embodiment basically uses a cylindrical heat-resistant film (fixing film) as a flexible member disclosed in JP-A-4-44075 to 44083, 4-204980 to 204984, and the like. , Film heating system, pressure roller drive system (tensionless type).
図2は該定着装置100の中間部分省略の正面模型図、図3は中間部分省略の縦断面模型図、図4は横断面模型図である。 2 is a front model view of the fixing device 100 with the intermediate portion omitted, FIG. 3 is a longitudinal cross-sectional model diagram with the intermediate portion omitted, and FIG. 4 is a transverse cross-sectional model diagram.
15は加熱アセンブリ(フィルムユニット)、19は加圧部材としての弾性加圧ローラであり、この両者15・19の圧接により接触部としての定着ニップ部Nを形成させている。 Reference numeral 15 denotes a heating assembly (film unit), and 19 denotes an elastic pressure roller as a pressure member, and a fixing nip portion N as a contact portion is formed by pressure contact between both of them.
1)加熱アセンブリ15
加熱アセンブリ15は、可撓性移動部材としての円筒状もしくはエンドレス状の耐熱性の定着フィルム(以下、フィルムと記す)16、加熱体としてのセラミックヒータ(以下、ヒータと記す)17、支持部材としてのフィルムガイド18、加圧用剛性ステイ20、フィルム寄り移動規制手段としての環状フランジ部材25等の組み立て体である。
1) Heating assembly 15
The heating assembly 15 includes a cylindrical or endless heat-resistant fixing film (hereinafter referred to as a film) 16 as a flexible moving member, a ceramic heater (hereinafter referred to as a heater) 17 as a heating body, and a support member. The film guide 18, the pressurizing rigid stay 20, and the annular flange member 25 as a film displacement movement restricting means are assembled.
フィルム16は、厚さ20〜100μmのポリイミド樹脂の基層と、中間層として、厚さ50〜500μmのシリコンゴム、フッ素ゴム等の耐熱性弾性層(ゴム層)、その外周面に、PTFE、PFA、FEP等を10〜30μmコーティングして離型層とした複合層フィルムを使用できる。本実施例では、ポリイミドフィルムの外周面にシリコンゴムを形成し、PTFEをコーティングした直径20mmのものを用いた。このフィルム16については後記の4)項で詳述する。 The film 16 is composed of a polyimide resin base layer having a thickness of 20 to 100 μm, a heat resistant elastic layer (rubber layer) such as silicon rubber and fluororubber having a thickness of 50 to 500 μm as an intermediate layer, and PTFE, PFA on the outer peripheral surface thereof. A composite layer film coated with 10-30 μm of FEP or the like to form a release layer can be used. In this example, a polyimide film having a diameter of 20 mm in which silicon rubber was formed on the outer peripheral surface of the polyimide film and PTFE was coated was used. The film 16 will be described in detail later in section 4).
ヒータ17は記録材通紙方向に交差する方向を長手とする、低熱容量で、通電により急速に昇温する部材である。このヒータ17は、基本的には、アルミナや窒化アルミ等の絶縁性のセラミックスや、ポリイミド、PPS、液晶ポリマー等の耐熱性樹脂などの基板と、該基板面に、スクリーン印刷等の手段により、厚み10μm程度、幅1〜5mm程度の線状もしくは細帯状に塗工し焼成されて形成された、Ag/Pd(銀パラジウム)、RuO2、Ta2N等の通電発熱抵抗層と、該通電発熱抵抗層を形成した基板面を被覆させたガラスコート等の絶縁層と、前記通電発熱抵抗層と電気的に導通されて基板面に形成されており、給電コネクタを介して給電回路から電圧が印加される給電電極部と、を有している全体に低熱容量の表面加熱型のヒータである。 The heater 17 is a member having a low heat capacity and a temperature that rapidly rises upon energization, with the direction intersecting the recording material passing direction as a longitudinal direction. This heater 17 is basically composed of a substrate such as insulating ceramics such as alumina or aluminum nitride, a heat-resistant resin such as polyimide, PPS, or liquid crystal polymer, and a means such as screen printing on the substrate surface. An energization heating resistance layer made of Ag / Pd (silver palladium), RuO 2 , Ta 2 N, etc., formed by coating and firing in a linear or narrow strip shape having a thickness of about 10 μm and a width of about 1 to 5 mm, and the energization An insulating layer such as a glass coat that covers the substrate surface on which the heating resistance layer is formed, and the substrate surface that is electrically connected to the energization heating resistance layer are formed, and a voltage is supplied from the feeding circuit through the feeding connector. And a surface heating type heater having a low heat capacity as a whole.
そして、このヒータ17を表面側(通電発熱抵抗層・ガラスコート絶縁層を形成具備させたヒータ基板面側)をフィルム密着摺動面にして、フィルムガイド18の外面側中央部にフィルムガイド18の長手に沿って形成具備させたヒータ嵌め込み溝内に表面側を外側に露呈させて嵌め入れて固定保持させてある。ヒータ17は、不図示のAC電源から通電発熱抵抗層に給電されて通電発熱抵抗層が全長にわたって発熱することで迅速急峻に昇温する。そのヒータ17の昇温がヒータ裏面側に配置された不図示の温度検知素子により検知され、不図示の制御回路部によって、AC電源からヒータ17の通電発熱抵抗層に通電する電力を位相、波数制御等により制御して、ヒータ17の温度を所定の定着温度に温調制御する。ヒータ17の温調構成は上記に限られず、加圧ローラ20の表面温度もしくは、ニップ部Nのフィルム16の内面任意の位置に配されたサーミスタ等の温度検知手段により検知される温度情報を元に、ニップ部Nにおいて記録材P上のトナー画像Tを定着するのに必要とされるフィルム16の表面温度を目標設定温度とし、それが維持されるようヒータ17の通電発熱抵抗層への通電量を制御することもできる。 Then, the surface of the heater 17 (the heater substrate surface side on which the energization heating resistor layer and the glass coat insulating layer are formed) is used as a film-adhering sliding surface, and the film guide 18 has a central portion on the outer surface side of the film guide 18. It is fixed and held by being fitted and exposed to the outside in the heater insertion groove formed along the length. The heater 17 is supplied with power from the AC power supply (not shown) to the energized heat generating resistor layer, and the energized heat generating resistor layer generates heat over the entire length, so that the temperature rises rapidly and steeply. The temperature rise of the heater 17 is detected by a temperature detection element (not shown) arranged on the back side of the heater, and the electric power supplied from the AC power source to the energization heating resistor layer of the heater 17 by the control circuit unit (not shown) is phase and wave number. The temperature of the heater 17 is controlled to a predetermined fixing temperature under the control of the control or the like. The temperature control configuration of the heater 17 is not limited to the above, and is based on temperature information detected by temperature detection means such as the surface temperature of the pressure roller 20 or a thermistor disposed at an arbitrary position on the inner surface of the film 16 of the nip N. In addition, the surface temperature of the film 16 required for fixing the toner image T on the recording material P at the nip portion N is set as a target set temperature, and the energization of the heater 17 to the energization heating resistance layer is maintained. The amount can also be controlled.
フィルムガイド18は記録材通紙方向に交差する方向を長手とする横断面略半円弧状樋型の耐熱性・断熱性の部材であり、フェノール樹脂、ポリイミド樹脂、ポリアミド樹脂、ポリアミドイミド樹脂、PEEK樹脂、PES樹脂、PPS樹脂、フッ素樹脂(PFA、PTFE、FEP、etc.)、LCP(liquid crystal polymer:液晶ポリマー)樹脂、これらの混合樹脂等の絶縁性及び耐熱性の良い材料が用いられ、フィルム16のバックアップ、ニップ部Nの加圧、ヒータ17の支持、フィルム16の回転時の搬送安定性を図る役目をする。 The film guide 18 is a heat-resistant and heat-insulating member having a substantially semi-circular cross-sectional shape having a longitudinal direction that intersects the recording material passing direction, and is phenolic resin, polyimide resin, polyamide resin, polyamideimide resin, PEEK. Insulating and heat-resistant materials such as resin, PES resin, PPS resin, fluororesin (PFA, PTFE, FEP, etc.), LCP (liquid crystal polymer) resin, and mixed resins thereof are used. It serves to back up the film 16, pressurize the nip N, support the heater 17, and transport stability when the film 16 rotates.
円筒状のフィルム16はヒータ17を固定支持させたフィルムガイド18にルーズに外嵌させてある。 The cylindrical film 16 is loosely fitted on a film guide 18 on which a heater 17 is fixedly supported.
環状フランジ部材25はフィルムガイド18の端部側に嵌着させてフィルム16の端部を規制する。 The annular flange member 25 is fitted to the end portion side of the film guide 18 to regulate the end portion of the film 16.
加圧用剛性ステイ20はフィルムガイド18の内側に挿通され、その両端部がそれぞれフィルムガイド18の両端部から外方に突出する。 The pressurizing rigid stay 20 is inserted inside the film guide 18, and both end portions thereof protrude outward from both end portions of the film guide 18.
2)弾性加圧ローラ19
加圧部材としての弾性加圧ローラ(以下、加圧ローラと記す)19は、芯金19aにシリコーンゴム等の弾性層19bを設けて硬度を下げたもので、芯金19aの両端部を装置の不図示の手前側と奥側のシャーシー側板間に回転自由に軸受け保持させて配設してある。表面性を向上させるために、さらに外周に、PTFE、PFA、FEP等のフッ素樹脂層を設けても良い。
2) Elastic pressure roller 19
An elastic pressure roller (hereinafter referred to as a pressure roller) 19 as a pressure member is a core metal 19a provided with an elastic layer 19b such as silicone rubber to reduce the hardness, and both ends of the core metal 19a are connected to the apparatus. The bearing is rotatably held between the front side and the rear side chassis side plate (not shown). In order to improve surface properties, a fluororesin layer such as PTFE, PFA, FEP or the like may be further provided on the outer periphery.
この加圧ローラ19の上側に、上記の加熱アセンブリ15をフィルムガイド18の下面側を下向きにして配設し、加圧用剛性ステイ20の両端部と装置シャーシー側板側のばね受け部材21・21との間にそれぞれ加圧ばね22・22を縮設することで加圧用剛性ステイ20に押し下げ力を作用させている。これにより、ヒータ17を配設したフィルムガイド下面部分と加圧ローラ19とが加圧ローラ19の弾性層19bの弾性に抗してフィルム16を挟んで圧接して接触部としての所定幅のニップ部Nが形成される。このニップ部N内にヒータ17は存在している。フィルム16はニップ部Nにおいて、フィルムガイド18、ヒータ17でバックアップされる。 Above the pressure roller 19, the heating assembly 15 is disposed with the lower surface side of the film guide 18 facing downward, and both ends of the pressure rigid stay 20 and spring receiving members 21 and 21 on the apparatus chassis side plate side, A pressing force is applied to the pressurizing rigid stay 20 by contracting the pressurizing springs 22 and 22 respectively. As a result, the lower surface of the film guide provided with the heater 17 and the pressure roller 19 are pressed against each other with the film 16 against the elasticity of the elastic layer 19b of the pressure roller 19, and a nip having a predetermined width as a contact portion. Part N is formed. The heater 17 exists in the nip portion N. The film 16 is backed up at the nip N by a film guide 18 and a heater 17.
本例においては上記の加熱体としてのセラミックヒータ17とこれを支持させたフィルムガイド18とが移動部材としての定着フィルム16と摺動する摺動面を有し定着フィルム16を支持するバックアップ部材である。 In this example, the ceramic heater 17 as the heating body and the film guide 18 that supports the ceramic heater 17 have a sliding surface that slides on the fixing film 16 as a moving member, and is a backup member that supports the fixing film 16. is there.
3)装置動作
図4において、加圧ローラ19は駆動手段Mにより矢示の反時計方向に回転駆動される。この加圧ローラ19の回転駆動による該加圧ローラ19とフィルム16の外面との摩擦力でフィルム16に回転力が作用する。その結果、該フィルム16が内面をニップ部Nにおいてヒータ17の下面に密着して摺動移動しながら矢示の時計方向にフィルムガイド18の外回りを回転する(加圧ローラ駆動方式)。フィルム16は、加圧ローラ19の回転周速度にほぼ対応した周速度をもった回転状態となる。
3) Device Operation In FIG. 4, the pressure roller 19 is rotationally driven by the driving means M in the counterclockwise direction indicated by the arrow. A rotational force acts on the film 16 by the frictional force between the pressure roller 19 and the outer surface of the film 16 by the rotational driving of the pressure roller 19. As a result, the film 16 rotates around the film guide 18 in the clockwise direction indicated by the arrow while sliding and moving the inner surface in close contact with the lower surface of the heater 17 at the nip portion N (pressure roller driving method). The film 16 is in a rotating state having a peripheral speed substantially corresponding to the rotational peripheral speed of the pressure roller 19.
ニップ部Nにおけるヒータ17の下面とフィルム16の内面との相互摺動摩擦力を低減化させるためにニップ部Nのヒータ17の下面とフィルム16の内面との間に耐熱性グリスなどの潤滑材を介在させる。 In order to reduce the mutual sliding frictional force between the lower surface of the heater 17 and the inner surface of the film 16 in the nip portion N, a lubricant such as heat resistant grease is provided between the lower surface of the heater 17 and the inner surface of the film 16 in the nip portion N. Intervene.
プリントスタート信号に基づいて加圧ローラ19の回転が開始され、またヒータ17のヒートアップが開始される。加圧ローラ19の回転によるフィルム16の回転周速度が定常化し、ヒータ17の温度が所定の温度に立ち上がった状態において、ニップ部Nのフィルム16と加圧ローラ19との間に被加熱材としてのトナーtを担持させた記録材Pがトナー画像担持面側をフィルム16側にして導入されることで、記録材Pはニップ部Nにおいてフィルム16を介してヒータ17の下面に密着してニップ部Nをフィルム16といっしょに移動通過していく。その移動通過過程においてヒータ17の熱がフィルム16を介して記録材Pに付与されてトナー画像tが記録材P面に加熱定着される。即ち、フィルム16と加圧ローラ19との間で記録材を挟持搬送しつつ記録材を加熱及び加圧する。本実施例においては、バックアップ部材のフィルム摺動面(移動部材摺動面)の上記ニップ部に対応部分がヒータ17である。ニップ部Nを通過した記録材Pはフィルム16の面から分離されて搬送される。 The rotation of the pressure roller 19 is started based on the print start signal, and the heater 17 starts to heat up. When the rotation peripheral speed of the film 16 is stabilized by the rotation of the pressure roller 19 and the temperature of the heater 17 rises to a predetermined temperature, a material to be heated is interposed between the film 16 and the pressure roller 19 in the nip portion N. The recording material P carrying the toner t is introduced with the toner image carrying surface side of the film 16 side, so that the recording material P adheres closely to the lower surface of the heater 17 via the film 16 at the nip portion N. Part N moves and passes with the film 16. During the moving and passing process, the heat of the heater 17 is applied to the recording material P through the film 16 and the toner image t is heated and fixed on the surface of the recording material P. That is, the recording material is heated and pressed while the recording material is nipped and conveyed between the film 16 and the pressure roller 19. In the present embodiment, the heater 17 corresponds to the nip portion of the film sliding surface (moving member sliding surface) of the backup member. The recording material P that has passed through the nip portion N is separated from the surface of the film 16 and conveyed.
4)定着フィルム16
移動部材としての定着フィルムは、樹脂製の基層と、離型層と、前記基層と前記離型層の間に設けられたゴム層と、を有する筒状のフィルムである。基層は導電性物質が分散していることで体積抵抗率ρvが1×103(Ω・cm)≦ρv≦1×109(Ω・cm)となっているポリイミド樹脂層であり、ゴム層と離型層が絶縁層である。図5は、本実施例における定着フィルム16の層構成を示す断面模型図である。この定着フィルム16は、ポリイミド樹脂を主体としてなる基層1の上に、ゴム弾性体からなる弾性層2と、離型層3とが順に設けられてなることを特徴としている。基層1側がヒータ摺動面側(定着フィルム内面側)であり、離型層3側が加圧ローラ当接面側(定着フィルム外面側)である。
4) Fixing film 16
Fixing film as moving member includes a resin base layer, and the release layer is a cylindrical film having a rubber layer provided between the release layer and the base layer. The base layer is a polyimide resin layer in which the volume resistivity ρv is 1 × 10 3 (Ω · cm) ≦ ρv ≦ 1 × 10 9 (Ω · cm) because the conductive material is dispersed, and the rubber layer The release layer is an insulating layer. FIG. 5 is a schematic cross-sectional view showing the layer structure of the fixing film 16 in this embodiment. The fixing film 16 is characterized in that an elastic layer 2 made of a rubber elastic body and a release layer 3 are sequentially provided on a base layer 1 mainly composed of polyimide resin. The base layer 1 side is the heater sliding surface side (fixing film inner surface side), and the release layer 3 side is the pressure roller contact surface side (fixing film outer surface side).
a:基層1
ポリイミド樹脂を主体としてなる基層1は、定着フィルム16として必要な熱伝導性や機械的強度などの条件を満たすため、その厚さが20〜100μmの範囲内であることが好ましい。さらに、定着フィルムの熱応答性を向上させるために、ポリイミドフィルム基層の熱伝導率は0.42[W/m・℃]以上であることが好ましい。通常、ポリイミド樹脂の熱伝導率は0.25[W/m・℃]以下であるが、樹脂材料に添加剤として例えばBN、AlN、あるいはSiCなどを配合することにより、基層の熱伝導率を上記範囲にまで高めることができる。
a: Base layer 1
In order to satisfy the conditions such as thermal conductivity and mechanical strength necessary for the fixing film 16, the base layer 1 mainly composed of polyimide resin preferably has a thickness in the range of 20 to 100 μm. Furthermore, in order to improve the thermal responsiveness of the fixing film, the thermal conductivity of the polyimide film base layer is preferably 0.42 [W / m · ° C.] or more. Usually, the thermal conductivity of a polyimide resin is 0.25 [W / m · ° C.] or less, but by adding, for example, BN, AlN, or SiC as an additive to the resin material, the thermal conductivity of the base layer can be increased. It can be increased to the above range.
また、静電オフセット、及び内面の摺擦等による帯電電荷等の発生を防止するために、抵抗制御材として、導電性物質を分散させることで、基層を低抵抗化してある。具体的には、体積抵抗率をρvとしたとき、1×103<ρv<1×109(Ω・cm:JIS法 K 6911、100V印加時)、基層内面の表面抵抗率ρsは1×1012(Ω/□::JIS法 K 6911、100V印加時)以下、であることが好ましい。
In addition, in order to prevent generation of charged charges due to electrostatic offset and rubbing on the inner surface, the resistance of the base layer is reduced by dispersing a conductive substance as a resistance control material. Specifically, when the volume resistivity is ρv, 1 × 10 3 < ρv <1 × 10 9 (Ω · cm: when JIS method K 6911, 100 V is applied), the surface resistivity ρs of the inner surface of the base layer is 1 × 10 12 (Ω / □ :: JIS method K 6911, when 100 V is applied) or less is preferable.
基層抵抗値が、上記範囲以外の場合、静電オフセット等の画像不良発生の防止効果や、リブ等の摩擦による帯電電荷発生の防止効果が弱くなり、適さない。 If the base layer resistance value is outside the above range, the effect of preventing image defects such as electrostatic offset and the effect of preventing the generation of charged charges due to friction of ribs and the like are weakened, which is not suitable.
すなわち、体積抵抗率ρvが、1×103(Ω・cm)以下の場合には、フィルムとしての静電容量が大きくなりすぎ、剥離放電等による帯電電荷量が多くなって、剥離オフセットが発生する場合がある。また、体積抵抗率ρvが1×109(Ω・cm)以上の場合には、表面電荷をキャンセルする効果が弱くなり、静電オフセットを防止する効果が弱くなる。 That is, when the volume resistivity ρv is 1 × 10 3 (Ω · cm) or less, the electrostatic capacity of the film becomes too large, the charge amount due to peeling discharge increases, and peeling offset occurs. There is a case. Further, when the volume resistivity ρv is 1 × 10 9 (Ω · cm) or more, the effect of canceling the surface charge is weakened and the effect of preventing the electrostatic offset is weakened.
また、表面抵抗率ρsが1×1012(Ω/□)以上の場合には、内面の摩擦による帯電電荷発生の防止効果が弱くなる。 Further, when the surface resistivity ρs is 1 × 10 12 (Ω / □) or more, the effect of preventing the generation of charged charges due to friction on the inner surface is weakened.
導電性物質としては、ケッチェンブラック、サーマルブラック、アセチレンブラック等のカーボンブラック、及びグラファイトもしくは銅、銀、ニッケル等の導電性に優れる金属粒子、金属粉末、酸化スズ、酸化チタン、酸化インジウム等の導電性を有する金属酸化物、各種の無機フィラーに金属メッキを施した物質、あるいは、リチウム、ナトリウム、カリウム、リン等の金属塩及びその錯体、もしくは複合体などを配合することにより、上記抵抗値を得ることができる。 Examples of the conductive material include carbon black such as ketjen black, thermal black, acetylene black, and metal particles having excellent conductivity such as graphite or copper, silver, nickel, metal powder, tin oxide, titanium oxide, indium oxide, etc. The above resistance value can be obtained by blending conductive metal oxides, materials plated with various inorganic fillers, or metal salts such as lithium, sodium, potassium and phosphorus, and complexes or complexes thereof. Can be obtained.
基層中の導電性物質の含有割合(含有量)としては、フィルム基層の強度と導電性を付与する効果を両立することが要求されるため、0.5〜50wt%(重量%)が好ましい。
The content ratio (content) of the conductive substance in the base layer is preferably 0.5 to 50 wt% (% by weight) because both the strength of the film base layer and the effect of imparting conductivity are required.
b:弾性層2
弾性層2を構成するゴム弾性体としてはゴム硬度の低い柔らかいものが好ましく、例えばJIS−A硬度1〜70°、さらに好ましくは5〜40°のシリコーンゴムなどが好適に使用可能である。弾性層の厚さは0.05〜3mmの範囲が好ましく、さらに好ましくは0.1〜0.5mmの範囲である。弾性層の厚さが0.05mmより薄い場合には、フィルムに十分な弾性を付与しにくくトナーを包み込むように定着させることが困難となり、OHTの透過性、色再現性、及び光沢ムラ・画像ガサツキの改善等、定着性の向上効果が得られなくなる。一方、3mmより厚い場合には定着フィルムの熱応答性が損なわれるようになるので、ともに好ましくない。
b: Elastic layer 2
As the rubber elastic body constituting the elastic layer 2, a soft one having a low rubber hardness is preferable. For example, silicone rubber having a JIS-A hardness of 1 to 70 °, more preferably 5 to 40 ° can be suitably used. The thickness of the elastic layer is preferably in the range of 0.05 to 3 mm, more preferably in the range of 0.1 to 0.5 mm. If the thickness of the elastic layer is less than 0.05 mm, it is difficult to fix the film so that it is difficult to give sufficient elasticity to the film, and the OHT permeability, color reproducibility, gloss unevenness and image The improvement effect of fixing property such as improvement of roughness cannot be obtained. On the other hand, if it is thicker than 3 mm, the heat responsiveness of the fixing film is impaired.
c:離型層3
離型層3の構成材料としては、たとえばPTFE、PFA、あるいはFEPなどのフッ素樹脂が好適であり、あるいは必要に応じてこれらの2種以上を混合したものも同様に使用可能である。離型層の厚さは5〜50μmが好ましいが、さらに好ましくは10〜30μmの範囲である。離型層の厚さが5μmより薄い場合には耐久性が低下し、50μmより厚い場合にはゴム弾性層を設けた効果が得られなくなるため、ともに好ましくない。
c: Release layer 3
As a constituent material of the release layer 3, for example, a fluororesin such as PTFE, PFA, or FEP is suitable, or a mixture of two or more of them can be used as necessary. The thickness of the release layer is preferably 5 to 50 μm, more preferably 10 to 30 μm. When the thickness of the release layer is less than 5 μm, the durability is lowered, and when the thickness is more than 50 μm, the effect of providing the rubber elastic layer cannot be obtained.
なお、本例では、弾性層2、もしくは離型層3を絶縁層として構成することで、転写との干渉による不具合を防止できるという特徴がある。とくに、カラー画像形成装置に用いられる加熱装置では、複数回転写が行われることもあって、高電圧による転写が行われるが、このような場合においても転写との干渉による不具合を防止できる。 In addition, in this example, the elastic layer 2 or the release layer 3 is configured as an insulating layer, so that a problem due to interference with transfer can be prevented. In particular, in a heating device used in a color image forming apparatus, transfer is performed a plurality of times, and transfer is performed with a high voltage. Even in such a case, problems due to interference with the transfer can be prevented.
さらに、比較的膜厚を大きく設定できる弾性層を絶縁層として構成することで、傷等による影響を小さくでき、耐久を通じて、安定した、効果を得られる。 Furthermore, by configuring the elastic layer having a relatively large film thickness as an insulating layer, the influence of scratches and the like can be reduced, and a stable effect can be obtained through durability.
本発明の定着フィルムは、たとえば以下のようにして製造することができる。まず、基層1であるポリイミドフィルムを製造するにあたって、芯体となる金型の外面に熱伝導性無機粒子、および導電性フィラー等を分散させた、ポリアミド酸溶液のようなポリイミド前駆体溶液を均一な厚さで付着させ、加熱により乾燥およびイミド化してポリイミドフィルムのチューブ状物を形成する。 The fixing film of the present invention can be produced, for example, as follows. First, in manufacturing the polyimide film as the base layer 1, a polyimide precursor solution such as a polyamic acid solution in which thermally conductive inorganic particles and conductive fillers are dispersed on the outer surface of a mold serving as a core is uniform. It is made to adhere with a sufficient thickness, and is dried and imidized by heating to form a tubular product of a polyimide film.
このポリイミド前駆体溶液を均一な厚さで芯体に付着させる方法はどのような方法であっても良いが、たとえば、浸漬や塗布などの一般的な方法により芯体の外周上部に所定量付着させた後、その長手方向を鉛直に保持した金属芯体の外側に所定のクリアランスを有する外金型を嵌め、その自重によって外金型を降下させる、いはゆる「キャスト成型」法、「ダイスコート」法などは特に好適である。 Any method may be used for attaching the polyimide precursor solution to the core with a uniform thickness. For example, a predetermined amount of the polyimide precursor solution is attached to the upper periphery of the core by a general method such as dipping or coating. After that, an outer mold having a predetermined clearance is fitted to the outside of the metal core body whose longitudinal direction is held vertically, and the outer mold is lowered by its own weight. The “coat” method and the like are particularly suitable.
上記により形成されたチューブ状のポリイミドフィルム1の表面に、さらにLTVシリコーンゴムをコートし硬化させる方法や、あるいはHTVシリコーンゴムをプレス成型する方法などによって、ゴム弾性体層2を設けることができる。そして離型層3も、フッ素樹脂のディスパージョン塗装などの常法にしたがって、容易に形成することができる。そしてその後、複層構造のチューブ状物を芯体から分離することによって、本発明の画像定着フィルムが得られる。 The rubber elastic body layer 2 can be provided on the surface of the tube-shaped polyimide film 1 formed as described above by a method in which LTV silicone rubber is further coated and cured, or a method in which HTV silicone rubber is press-molded. The release layer 3 can also be easily formed according to a conventional method such as dispersion coating of fluororesin. Thereafter, the tube-shaped material having a multilayer structure is separated from the core, whereby the image fixing film of the present invention is obtained.
なお、本発明においてポリイミドフィルム原料として使用可能なポリイミド前駆体にはとくに制限はないが、たとえば芳香族ジアミンと芳香族テトラカルボン酸とを反応させて得られるものなどがあげられ、芳香族ジアミンとしては、たとえば3,3´−ジメトキシ−4,4´−ジアミノジフェニルエーテルや3,3´−ジアミノフェニルエーテルなど、芳香族テトラカルボン酸としては、たとえば3,3´,4,4´−ビフェニルテトラカルボン酸二無水物やピロメリット酸二無水物などがあげられる。これらの芳香族ジアミンと芳香族テトラカルボン酸との反応は、たとえばジメチルアセトアミド、ジメチルホルムアミド、N−メチル−2−ピロリドンなどの有機極性溶剤中で行われる。 The polyimide precursor that can be used as a raw material for the polyimide film in the present invention is not particularly limited, and examples thereof include those obtained by reacting an aromatic diamine and an aromatic tetracarboxylic acid. Examples of aromatic tetracarboxylic acids such as 3,3′-dimethoxy-4,4′-diaminodiphenyl ether and 3,3′-diaminophenyl ether include 3,3 ′, 4,4′-biphenyltetracarboxylic acid. Examples thereof include acid dianhydride and pyromellitic dianhydride. The reaction of these aromatic diamines with aromatic tetracarboxylic acid is carried out in an organic polar solvent such as dimethylacetamide, dimethylformamide, N-methyl-2-pyrrolidone.
(実施例1)
ポリイミド前駆体溶液として、粘度2000ポイズの3,3´,4,4´−ビフェニルテトラカルボン酸二無水物と芳香族ジアミン(4,4´−ジアミノフェニルエーテル)を、溶媒であるN−メチル−2−ピロリドン(NMP)中で反応させて得られたポリイミド前駆体溶液を用意した。
Example 1
As a polyimide precursor solution, 3,3 ′, 4,4′-biphenyltetracarboxylic dianhydride having a viscosity of 2000 poise and aromatic diamine (4,4′-diaminophenyl ether) are used as a solvent, N-methyl- A polyimide precursor solution obtained by reacting in 2-pyrrolidone (NMP) was prepared.
次に、熱伝導性無機充填剤として平均粒径が0.6μmのSi3N4(信越化学工業(株)製窒化ケイ素、熱伝導率:0.06〜0.09cal/cm・sec・℃)粉末を用いた。 Next, Si 3 N 4 (Shin-Etsu Chemical Co., Ltd. silicon nitride, thermal conductivity: 0.06 to 0.09 cal / cm · sec · ° C. as a thermally conductive inorganic filler having an average particle size of 0.6 μm. ) Powder was used.
また、導電性充填剤として平均粒径が0.03μmのケッチェンブラック粉末を用いた。 Further, ketjen black powder having an average particle size of 0.03 μm was used as the conductive filler.
前記Si3N4粉末10g、及びケッチェンブラック粉末20gを40mlのNMPの中で分散させ、超音波洗浄器を用い、二次凝集化している粒子を一次粒子に分散させたのち、前記ポリイミド前駆体溶液の中に投入し、混合機で撹拌し均一にSi3N4粒子を分散させた。ポリイミド前駆体溶液の固形分濃度に対するSi3N4、及びケッチェンブラックの混合比率は、それぞれ、15wt%、30wt%とした。 10 g of the Si 3 N 4 powder and 20 g of Ketjen black powder are dispersed in 40 ml of NMP, and after using the ultrasonic cleaner to disperse the secondary agglomerated particles into primary particles, the polyimide precursor The solution was put into the body solution and stirred with a mixer to uniformly disperse the Si 3 N 4 particles. The mixing ratio of Si 3 N 4 and ketjen black to the solid content concentration of the polyimide precursor solution was 15 wt% and 30 wt%, respectively.
しかるのち、前記ポリイミド前駆体溶液の中に、外径30mm、長さ500mmのアルミニウム製円筒状芯体を浸漬し引き上げ、円筒状芯体の最上部より内径が31mmのリング状外金型をその自重によって落下させ、前記円筒状芯体の外表面に厚さが約500μmのポリイミド前駆体溶液の被膜をキャスト成型した。 After that, an aluminum cylindrical core body having an outer diameter of 30 mm and a length of 500 mm is immersed in the polyimide precursor solution and pulled up, and a ring-shaped outer mold having an inner diameter of 31 mm is formed from the top of the cylindrical core body. The film was dropped by its own weight, and a film of a polyimide precursor solution having a thickness of about 500 μm was cast on the outer surface of the cylindrical core.
その後、この芯体を、温度120℃で40分間、及び温度200℃で15分間の加熱処理を行って溶媒の除去及びイミド転化反応を進行させ、基層となる厚さ60μmのチューブ状のポリイミドフィルム(ポリイミド中間体)を形成した。 Thereafter, this core is heated at 120 ° C. for 40 minutes and at 200 ° C. for 15 minutes to advance the removal of the solvent and the imide conversion reaction to form a tubular polyimide film having a thickness of 60 μm serving as a base layer. (Polyimide intermediate) was formed.
次いで芯体上のこのポリイミドチューブの表面に、Hs20°のLTVシリコーンゴム(東芝シリコーン社製、商品名XE15−751)をコートしたのち、120℃で30分熱処理を行って厚さ0.2mmのゴム弾性体層を形成した。そして得られたゴム弾性体層の表面に、フッ素樹脂としてFEPディスパージョン(ダイキン工業社製、商品名ND−1)をスプレーコートしたのち、イミド化反応の完結処理とフッ素樹脂の焼成処理を行うため温度250℃、80分の熱処理を行った後、380℃で70分間の熱処理を行って厚さ10μmの離型性表層を形成した。その後、アルミニウム製芯体を引き抜いて、複層構造の本発明の画像定着フィルムを得た。 Next, after coating the surface of this polyimide tube on the core with Hs20 ° LTV silicone rubber (product name XE15-751, manufactured by Toshiba Silicone Co., Ltd.), heat treatment was performed at 120 ° C for 30 minutes to achieve a thickness of 0.2 mm. A rubber elastic layer was formed. And after spray-coating FEP dispersion (Daikin Kogyo make, brand name ND-1) as a fluororesin on the surface of the obtained rubber elastic body layer, the completion process of an imidation reaction and the baking process of a fluororesin are performed. Therefore, after performing heat treatment at 250 ° C. for 80 minutes, heat treatment was performed at 380 ° C. for 70 minutes to form a releasable surface layer having a thickness of 10 μm. Thereafter, the aluminum core was pulled out to obtain an image fixing film of the present invention having a multilayer structure.
なお、各層間の接着強度を確保するため、プライマーを塗布した後コーティングを行うと、層間剥離のない一体性に優れたものとなる。 In addition, in order to ensure the adhesive strength between each layer, when it coats after apply | coating a primer, it will be excellent in the integrity without delamination.
実際に、高抵抗率計(三菱化学(株)製「ハイレスタ」)にて、100V印加時のフィルムの抵抗率を測定したところ、表面抵抗率ρs=1×107(Ω/□)、体積抵抗率ρv=1×106(Ω・cm)であった。 Actually, when the resistivity of the film when 100 V was applied was measured with a high resistivity meter (“HIRESTA” manufactured by Mitsubishi Chemical Corporation), the surface resistivity ρs = 1 × 10 7 (Ω / □), volume The resistivity ρv = 1 × 10 6 (Ω · cm).
このようにして製造された耐熱フィルムを、図1・図2に示される画像形成装置の定着装置の定着フィルム16として適用して画像を出力した。定着フィルム16の基層1は図5のように該抵抗もしくはダイオード5を介して接地した。基層1を抵抗または、ダイオード5を介して接地することで、電荷の緩和等が容易に実現できる。 表1は、低温低湿環境において、本例の加熱装置を用いて、画像を出力したときの、評価結果を示すものである。 The heat-resistant film thus produced was applied as the fixing film 16 of the fixing device of the image forming apparatus shown in FIGS. 1 and 2 to output an image. The base layer 1 of the fixing film 16 was grounded via the resistor or the diode 5 as shown in FIG. By grounding the base layer 1 through a resistor or a diode 5, charge relaxation can be easily realized. Table 1 shows the evaluation results when an image is output using the heating device of this example in a low-temperature and low-humidity environment.
比較例として、基層を絶縁とし、弾性層を低抵抗化としたもの(比較例1)、基層を絶縁、弾性層も絶縁としたもの(比較例2)の結果も示す。また、基層に金属フィルム(導電)を用いたもの(比較例3)の結果も示す。 As comparative examples, the results are also shown for the base layer made of insulation and the elastic layer made of low resistance (Comparative Example 1), the base layer made of insulation, and the elastic layer made of insulation (Comparative Example 2). Moreover, the result of what used the metal film (electrical conductivity) for the base layer (comparative example 3) is also shown.
表1からわかるように、比較例2の場合、全面オフセット、及び剥離オフセット等の画像不良が発生したり、また、ノイズによる動作不良等が発生した。比較例1では、全面オフセットや剥離オフセット等の画像不良は発生しなかったものの、ノイズによる動作不良等が発生した。比較例3では、全面オフセットやノイズによる動作不良等は発生しなかったが、剥離オフセットによる画像不良が発生した。 As can be seen from Table 1, in the case of Comparative Example 2, image defects such as full surface offset and peeling offset occurred, and malfunctions due to noise occurred. In Comparative Example 1, image defects such as full surface offset and peeling offset did not occur, but operation failure due to noise occurred. In Comparative Example 3, there was no operation failure due to the entire surface offset or noise, but an image failure due to the peeling offset occurred.
これに対し、本実施例1では、全面オフセットや剥離オフセット等の画像不良の発生はなくまた、ノイズによる動作不良等もなく、良好な定着画像が得られた。 On the other hand, in Example 1, there was no occurrence of image defects such as full surface offset and peeling offset, and there was no malfunction due to noise, and a good fixed image was obtained.
ここで、本実施例1及び、比較例1〜3における、
1)被加熱材(記録材)の剥離放電等による定着フィルム外面の帯電電荷
2)リブ等との摺擦による基層内面の帯電電荷
の2種類の帯電電荷の画像等に及ぼす影響を図6に模式的に示す。
Here, in Example 1 and Comparative Examples 1 to 3,
1) Charged charge on outer surface of fixing film due to peeling discharge of heated material (recording material) 2) Effect of two kinds of charged charges on image of surface of inner surface of base layer due to rubbing with ribs etc. on image etc. in FIG. This is shown schematically.
本実施例1(図6−1)の場合は、1)のフィルム外表面に蓄積した帯電電荷の影響は、低抵抗である基層に反対の電荷が発生することによって緩和され、画像不良の発生を防止できる。また、基層内面も、表面抵抗が低いため、フィルム内面が帯電することなく、したがって、ノイズ等による動作不良等の不具合の発生も防止できる。 In the case of Example 1 (FIG. 6-1), the influence of the charged charge accumulated on the outer surface of the film in 1) is mitigated by the generation of the opposite charge on the low resistance base layer, and the occurrence of image defects. Can be prevented. In addition, since the inner surface of the base layer also has a low surface resistance, the inner surface of the film is not charged, and therefore it is possible to prevent the occurrence of malfunctions such as malfunction due to noise or the like.
一方、比較例1(図6−2)の場合は、1)のフィルム外表面に蓄積した帯電電荷の影響は、低抵抗である弾性層2に反対の電荷が発生することによって緩和されて画像不良は発生しなかったものの、2)のリブ等との摺擦による基層内面の帯電電荷の影響は、帯電電荷の発生事態を防止することができず、ノイズ発生等により動作不良となる場合が見られた。 On the other hand, in the case of Comparative Example 1 (FIG. 6-2), the influence of the charged charge accumulated on the outer surface of the film in 1) is alleviated by generating opposite charges on the elastic layer 2 having a low resistance. Although no defect occurred, the influence of the charged charge on the inner surface of the base layer due to rubbing against the ribs etc. in 2) could not prevent the occurrence of the charged charge, and could cause malfunction due to noise generation etc. It was seen.
また、比較例2(図6−3)の場合は、1)の外表面に蓄積した帯電電荷の影響を受け、画像不良が発生し、2)の基層内面の帯電電荷の影響も受け、ノイズによる動作不良等が発生した。 Further, in the case of Comparative Example 2 (FIG. 6-3), the image defect occurs due to the influence of the charged charge accumulated on the outer surface of 1), and the influence of the charged charge on the inner surface of the base layer of 2) causes noise. Malfunction due to the occurrence of.
さらに、比較例3(図6−4)の場合は、1)のフィルム外表面に蓄積した帯電電荷の影響は、金属フィルムである基層1に反対の電荷が発生することによって緩和され、全面オフセット等の画像不良の発生を防止でき、また、フィルム内面も帯電することなく、ノイズ等による動作不良等の不具合の発生も防止できる。しかし、静電容量が大きくなりすぎるため、1)のフィルム外表面に蓄積した帯電電荷量は他の例に比べ多くなり、条件によっては、剥離オフセットが発生する場合があった。 Further, in the case of Comparative Example 3 (FIGS. 6-4), the influence of the charged charges accumulated on the outer surface of the film in 1) is alleviated by the generation of opposite charges on the base layer 1 which is a metal film, and the entire surface offset The occurrence of image defects such as image defects can be prevented, and the inner surface of the film is not charged, and the occurrence of malfunctions such as malfunction due to noise can be prevented. However, since the electrostatic capacity becomes too large, the charged charge amount accumulated on the outer surface of the film in 1) is larger than in other examples, and peeling offset may occur depending on conditions.
なお、たとえば、フィルム内面を接地あるいは抵抗やダイオードなどを介して接地して、少量の帯電電荷を逃がす経路を設けることで、より効果的にリークなどによるノイズ等に起因する不具合の発生を防止できる。 For example, by providing a path for grounding the inner surface of the film via a resistor or a diode and releasing a small amount of charged charges, it is possible to more effectively prevent the occurrence of problems due to noise due to leakage or the like. .
また、弾性層2に導電性物質を入れる場合、弾性体の硬度があがるため多量の導電性物質を入れることができず安価に低抵抗化することが困難であったが、本例のように、基層1を低抵抗化することによって、弾性層2の硬度を好適に保ったまま、所望の抵抗値に調整することが容易に達成できる。 In addition, when a conductive material is put into the elastic layer 2, since the hardness of the elastic body is increased, a large amount of the conductive material cannot be put in and it is difficult to reduce the resistance at a low cost. By reducing the resistance of the base layer 1, it is possible to easily achieve a desired resistance value while maintaining the hardness of the elastic layer 2 suitably.
さらに、基層1の材料として、可撓性の耐熱性樹脂材料を用いることで、金属材料を用いる場合に比べ、屈曲性(繰り返し屈曲強度)や、追従性(ヒータ面等への追従性)の良いものを安価に得られやすく、小径化する場合にも有利である。 Furthermore, by using a flexible heat-resistant resin material as the material of the base layer 1, the flexibility (repetitive bending strength) and the followability (following ability to the heater surface, etc.) are improved as compared with the case of using a metal material. It is easy to obtain a good product at a low cost, and it is advantageous when the diameter is reduced.
(実施例2)
外径20mm、長さ400mmのアルミニウム製芯体を用いたほかは実施例1と同様にして、基層となる厚さ50μmのチューブ状のポリイミドフィルムを形成した。
(Example 2)
A tube-shaped polyimide film having a thickness of 50 μm serving as a base layer was formed in the same manner as in Example 1 except that an aluminum core having an outer diameter of 20 mm and a length of 400 mm was used.
また、本例では、電子導電性の電気抵抗制御材の代わりに、イオン導電性の抵抗制御剤を用いた。 In this example, an ion conductive resistance control agent was used instead of the electronic conductive electrical resistance control material.
すなわち、カーボンや金属酸化物のようなフィラーを添加、分散して抵抗値を低下させる電子伝導系の抵抗値制御材等を用いた場合、分散ムラ、表面抵抗の不均一性に注意して製法条件等を考慮しなければならないが、イオン導電性の抵抗制御剤を基材の前駆体溶液中に分散させた場合、抵抗制御剤は前駆体溶液中でイオン化して分散し、被膜化する際に抵抗制御剤は局在化することなく全体に均一に拡散するため非常に均一な抵抗値が得られ、帯電電荷による不具合の発生を防止できる。 That is, when using an electron conduction resistance control material that adds and disperses fillers such as carbon and metal oxides to reduce the resistance value, pay attention to dispersion unevenness and uneven surface resistance. Conditions must be taken into consideration, but when an ion conductive resistance control agent is dispersed in the precursor solution of the substrate, the resistance control agent is ionized and dispersed in the precursor solution to form a film. In addition, since the resistance control agent diffuses uniformly without being localized, a very uniform resistance value can be obtained, and the occurrence of defects due to charged charges can be prevented.
また、一般的にイオン導電性の抵抗値制御剤は材料表面の温度、湿度によって抵抗値が大きく変化するという問題点はあるが、本発明のように定着フィルムに使用すればプリント中は定着温度に一定に制御されるため、温度、湿度の影響を受けないで使用することができるようになる。 In general, there is a problem in that the resistance value of an ion conductive resistance value control agent varies greatly depending on the temperature and humidity of the material surface. However, if it is used for a fixing film as in the present invention, the fixing temperature is increased during printing. Therefore, it can be used without being affected by temperature and humidity.
本例においても同様に画像評価を行ったところ、静電オフセットや帯電跡スジ等の画像不良の発生はなくまた、ノイズによる動作不良等もなく、良好な定着画像が得られた。 In this example, image evaluation was performed in the same manner. As a result, there was no occurrence of image defects such as electrostatic offset and charged traces, and there was no malfunction due to noise, and a good fixed image was obtained.
(その他)
1)実施例の定着装置においては、定着フィルム16は、回転体としての円筒状もしくはエンドレスベルト状のフィルムにし、その駆動方法としては、フィルム内周面を案内するフィルムガイドと加圧ローラとで圧接されたフィルムを加圧ローラの回転駆動によって従動回転させる方式(加圧ローラ駆動方式)としたが、駆動ローラとテンションローラによって張架されたエンドレスベルト状のフィルムの駆動によって加圧ローラを従動回転させる装置構成にすることもできる。
(Other)
1) In the fixing device of the embodiment, the fixing film 16 is a cylindrical or endless belt-like film as a rotating body, and a driving method thereof includes a film guide for guiding the inner peripheral surface of the film and a pressure roller. The pressure-contacted film is driven and rotated by the pressure roller (pressure roller drive system), but the pressure roller is driven by driving an endless belt-like film stretched between the drive roller and tension roller. Ru can also be a device configured to rotate.
2)加熱体17はセラミックヒータに限られるものではなく、他の各種ヒータを使用できる。例えば鉄板等の電磁誘導発熱部材を加熱体17とすることもできる。 2) The heating element 17 is not limited to a ceramic heater, and other various heaters can be used. For example, an electromagnetic induction heating member such as an iron plate may be used as the heating body 17.
16・・定着フィルム(可撓性部材)、17・・ヒータ(加熱体)、18・・フィルムガイド、19・・加圧部材、20・・加圧用ステイ、25・・定着フィルム寄り移動規制部材、N・・定着ニップ部 16 .. Fixing film (flexible member), 17 .. Heater (heating body), 18 .. Film guide, 19 .. Pressing member, 20 .. Stay for pressing, 25. , N ... Fixing nip
Claims (2)
前記基層は導電性物質が分散していることで体積抵抗率ρvが1×10 3 (Ω・cm)≦ρv≦1×10 9 (Ω・cm)となっているポリイミド樹脂層であり、前記ゴム層と前記離型層が絶縁層であることを特徴とする定着装置。 A cylindrical fixing film having a resin base layer, a release layer, and a rubber layer provided between the base layer and the release layer, a heater in contact with the base layer of the fixing film, and the fixing And a pressure roller that forms a fixing nip portion together with the heater via a film, and a fixing device that heats and fixes the toner image onto the recording material while nipping and conveying the recording material carrying the toner image at the fixing nip portion In
The base layer is a polyimide resin layer having a volume resistivity ρv of 1 × 10 3 (Ω · cm) ≦ ρv ≦ 1 × 10 9 (Ω · cm) due to the dispersion of a conductive substance, A fixing device, wherein the rubber layer and the release layer are insulating layers.
前記基層は導電性物質が分散していることで体積抵抗率ρvが1×10 3 (Ω・cm)≦ρv≦1×10 9 (Ω・cm)となっているポリイミド樹脂層であり、前記ゴム層と前記離型層が絶縁層であることを特徴とする定着フィルム。 A cylindrical fixing film having a resin base layer, a release layer, and a rubber layer provided between the base layer and the release layer, a heater in contact with the base layer of the fixing film, and the fixing And a pressure roller that forms a fixing nip portion together with the heater via a film, and a fixing device that heats and fixes the toner image onto the recording material while nipping and conveying the recording material carrying the toner image at the fixing nip portion In the fixing film used for
The base layer is a polyimide resin layer having a volume resistivity ρv of 1 × 10 3 (Ω · cm) ≦ ρv ≦ 1 × 10 9 (Ω · cm) due to the dispersion of a conductive substance, A fixing film, wherein the rubber layer and the release layer are insulating layers.
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JP5127153B2 (en) * | 2006-04-27 | 2013-01-23 | キヤノン株式会社 | Image heating device and film |
US9158251B2 (en) | 2013-08-30 | 2015-10-13 | Canon Kabushiki Kaisha | Film and image heating device using film |
JP6192443B2 (en) * | 2013-08-30 | 2017-09-06 | キヤノン株式会社 | Fixing film and fixing device having the same |
JP6872463B2 (en) * | 2017-07-27 | 2021-05-19 | 株式会社沖データ | Fixing device and image forming device |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH07156287A (en) * | 1993-12-10 | 1995-06-20 | Gunze Ltd | Semiconductive polyimide endless bent and manufacture thereof |
JPH08286534A (en) * | 1995-04-11 | 1996-11-01 | Canon Inc | Heating device and image forming device |
JPH11258834A (en) * | 1998-01-08 | 1999-09-24 | Xerox Corp | Film for melting device |
JP2000187407A (en) * | 1998-10-13 | 2000-07-04 | Canon Inc | Heating unit, image forming device using same and dielectric heating member |
JP2002229345A (en) * | 2000-11-14 | 2002-08-14 | Sumitomo Rubber Ind Ltd | Conductive belt |
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2004
- 2004-02-27 JP JP2004053613A patent/JP4708718B2/en not_active Expired - Lifetime
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH07156287A (en) * | 1993-12-10 | 1995-06-20 | Gunze Ltd | Semiconductive polyimide endless bent and manufacture thereof |
JPH08286534A (en) * | 1995-04-11 | 1996-11-01 | Canon Inc | Heating device and image forming device |
JPH11258834A (en) * | 1998-01-08 | 1999-09-24 | Xerox Corp | Film for melting device |
JP2000187407A (en) * | 1998-10-13 | 2000-07-04 | Canon Inc | Heating unit, image forming device using same and dielectric heating member |
JP2002229345A (en) * | 2000-11-14 | 2002-08-14 | Sumitomo Rubber Ind Ltd | Conductive belt |
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