JPH0444079A - Heating device and image forming device - Google Patents

Heating device and image forming device

Info

Publication number
JPH0444079A
JPH0444079A JP15360690A JP15360690A JPH0444079A JP H0444079 A JPH0444079 A JP H0444079A JP 15360690 A JP15360690 A JP 15360690A JP 15360690 A JP15360690 A JP 15360690A JP H0444079 A JPH0444079 A JP H0444079A
Authority
JP
Japan
Prior art keywords
film
recording material
heating
heating body
image
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.)
Granted
Application number
JP15360690A
Other languages
Japanese (ja)
Other versions
JP2884716B2 (en
Inventor
Takeshi Setoriyama
武 世取山
Akira Kuroda
明 黒田
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 JP15360690A priority Critical patent/JP2884716B2/en
Priority to EP19910109514 priority patent/EP0461596B1/en
Priority to DE1991627508 priority patent/DE69127508T2/en
Priority to US07/825,789 priority patent/US5148226A/en
Publication of JPH0444079A publication Critical patent/JPH0444079A/en
Application granted granted Critical
Publication of JP2884716B2 publication Critical patent/JP2884716B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

PURPOSE:To prevent a film from slipping breadthwise, especially, outside a recording material by satisfying mu1>mu2, where mu1 is the coefficient of friction of the surface of a rotary body to the outer peripheral surface of the film and mu2 is the coefficient of friction of the surface of a heating body to the inner peripheral surface of the film. CONSTITUTION:The coefficient mu1 of friction of the surface of the roller (rotary body) 10 to the outer peripheral surface of the film 21 and the coefficient mu2 of friction of the surface of the heating body 19 to the inner peripheral surface of the film 21 are so related that mu1>mu2. For example, when mu<=mu2, the film 21 and a recording material sheet P slip in the sectional direction of a heat fixing means to disorder a toner image on a recording material sheet at the time of heat fixation. When, however, mu1>mu2, the film 21 and recording material sheet P are prevented from slipping on the roller 10 in the sectional direction. Consequently, the image disorder due to slip is prevented and a fixed image which is excellent is obtained stably at all times.

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、加熱体に圧接させて移動駆動させた耐熱性フ
ィルムの加熱体側とは反対面側に、顕画像を支持する記
録材を導入して密着させてフィルムと一緒に加熱体位置
を通過させることで加熱体の熱をフィルムを介して導入
記録材に与える方式(フィルム加熱方式)の加熱装置、
及びそれを用いた画像形成装置に関する。
Detailed Description of the Invention (Industrial Field of Application) The present invention introduces a recording material that supports a visible image on the side opposite to the heating body side of a heat-resistant film that is brought into pressure contact with a heating body and driven to move. A heating device of a method (film heating method) in which heat from the heating member is applied to the introduced recording material through the film by passing the heating member position together with the film in close contact with the film.
and an image forming apparatus using the same.

この装置は、電子写真複写機・プリンタ・ファックス等
の画像形成装置における画像加熱定着装置、即ち電子写
真・静電記録・磁気記録等の適宜の画像形成プロセス手
段により加熱溶融性の樹脂等より成るトナーを用いて記
録材(転写胴シート・エレクトロファックスシー1〜・
静電記録シート・印刷紙なと)の面に間接(転写)方式
もしくは直接方式で形成した、目的の画像情報に対応し
た未定着のトナー画像を、該画像を担持している記録材
面に永久固着画像として加熱定着処理する画像加熱定着
装置として活用できる。
This device is an image heating fixing device in an image forming apparatus such as an electrophotographic copying machine, a printer, or a fax machine, that is, it is made of heat-melting resin, etc., by an appropriate image forming process means such as electrophotography, electrostatic recording, magnetic recording, etc. Recording materials (transfer cylinder sheet, electrofax sheet 1~,
An unfixed toner image corresponding to the desired image information, formed by an indirect (transfer) method or a direct method on the surface of an electrostatic recording sheet or printing paper, is transferred to the surface of the recording material carrying the image. It can be used as an image heat fixing device that heats and fixes a permanently fixed image.

また、例えば、画像を担持した記録材を加熱して表面性
を改質(つや出しなと)する装置、仮定着処置する装置
に使用できる。
Furthermore, it can be used, for example, in a device that heats a recording material carrying an image to modify its surface properties (to make it glossy), and in a device that performs temporary adhesion treatment.

(背景技術) 従来、例えば画像の加熱定着のための記録材の加熱装置
は、所定の温度に維持された加熱ローラと、弾性層を有
して該加熱ローラに圧接する加圧ローラとによって、記
録材を挟持搬送しつつ加熱する熱ローラ方式か多用され
ている。
(Background Art) Conventionally, for example, a recording material heating device for heat-fixing an image uses a heating roller maintained at a predetermined temperature and a pressure roller having an elastic layer and in pressure contact with the heating roller. A heated roller system is often used, which heats the recording material while nipping and conveying it.

その他、フラッシュ加熱方式、オーブン加熱方式、熱板
加熱方式、ヘルド加熱方式、高周波加熱方式なと種々の
方式のものか知られている。
In addition, various other methods are known, including a flash heating method, an oven heating method, a hot plate heating method, a heald heating method, and a high frequency heating method.

一方、本出願人は例えば特開昭63−313]82号公
報等において、固定支持された加熱体(以下ヒータと記
す)と、該ヒータに対向圧接しつつ搬送(移動駆動)さ
れる耐熱性フィルムと、該フィルムを介して記録材をヒ
ータに密着させる加圧部材を有し、ヒータの熱をフィル
ムを介して記録材へ付与することで記録材面に形成担持
されている未定着画像を記録材面に加熱定着さセる方式
・構成の装置を提案し、既に実用にも供している。
On the other hand, the present applicant has disclosed, for example, in Japanese Unexamined Patent Publication No. 63-313]82, etc., a fixedly supported heating body (hereinafter referred to as a heater) and a heat resistant It has a film and a pressure member that brings the recording material into close contact with the heater through the film, and by applying heat from the heater to the recording material through the film, the unfixed image formed and carried on the surface of the recording material is removed. We have proposed a system and configuration that heats and fixes the surface of the recording material, and have already put it into practical use.

より具体的には、薄肉の耐熱性フィルム(又はシート)
と、該フィルムの移動駆動手段と、該フィルムを中にし
てその一力面側に固定支持して配置されたヒータと、他
方面側に該ヒータに対向して配置され該ヒータに対して
該フィルムを介して画像定着するべき記録材の顕画像担
持面を密着させる加圧部材を有し、該フィルムは少なく
とも画像定着実行時は該フィルムと加圧部材との間に搬
送導入される画像定着すべき記録材と順方向に略凹−速
度で走行移動させて該走行移動フィルムを挟んでヒータ
と加圧部材との圧接で形成される定着部としてのニップ
部を通過させることにより該記録材の顕画担持面を該フ
ィルムを介して該ヒータで加熱して顕画像(未定着トナ
ー像)に熱エネルギーを付与して軟化・溶融せしめ次い
で定着部通過後のフィルムと記録材を分離点て離間させ
ることを基本とする加熱手段・装置である。
More specifically, a thin heat-resistant film (or sheet)
a means for driving the movement of the film; a heater disposed with the film fixedly supported on one side of the film; The image fixing member has a pressure member that brings the image bearing surface of the recording material on which the image is to be fixed into close contact with the film, and the film is conveyed and introduced between the film and the pressure member at least when image fixing is performed. The recording material to be recorded is moved in the forward direction at a substantially concave speed and passed through a nip portion as a fixing portion formed by pressure contact between a heater and a pressure member with the traveling film sandwiched therebetween. Heat energy is applied to the developed image (unfixed toner image) by heating it with the heater through the film to soften and melt the developed image (unfixed toner image).Then, after passing through the fixing section, the film and the recording material are separated at a point. This is a heating means/device that is basically separated.

この様なフィルム加熱方式の装置においては、昇温の速
い加熱体と薄膜のフィルムを用いるためウェイ1〜タイ
ム短縮化(クイックスタート)かり能となる、その他、
従来装置の種々の欠点を解決できるなとの利点を有し、
効果的なものである。 第13図に耐熱性フィルムとし
てエンドレスフィルムを使用したこの種方式の画像加熱
定着装置の一例の概略構成を示した。
In such a film heating type device, since a heating element with a fast temperature rise and a thin film are used, it is possible to shorten the time from Way 1 (quick start).
It has the advantage of being able to solve various drawbacks of conventional devices,
It is effective. FIG. 13 shows a schematic configuration of an example of this type of image heat fixing device using an endless film as the heat-resistant film.

51はエンドレスベルト状の耐熱性フィルム(以−F定
着フィルム又はフィルムと記す)であり左側の駆動ロー
ラ52と、右側の従動ローラ53と、これ等の駆動ロー
ラ52と従動ローラ53間の下方に配置した低熱容量線
状加熱体54の互いに並行な該3部材52・53・54
間に懸回張設しである。
51 is an endless belt-shaped heat-resistant film (hereinafter referred to as F fixing film or film), which includes a driving roller 52 on the left side, a driven roller 53 on the right side, and a portion below between these driving rollers 52 and driven rollers 53. The three members 52, 53, and 54 of the arranged low heat capacity linear heating body 54 are parallel to each other.
A suspension cable is installed in between.

定着フィルム51は駆動ローラ52の時計方向回転駆動
にイ?rない詩語方向に所定の周速度、即ち不図示の画
像形成部側から搬送されてくる未定着1〜ナー画像Ta
を上面に担持した被加熱材としての記録材シートPの搬
送速度(プロセススピード)と略凹し周速度をもって回
転駆動される。
Does the fixing film 51 follow the clockwise rotation of the drive roller 52? The unfixed 1 to ner images Ta are conveyed at a predetermined circumferential speed in the poetic direction, that is, from the image forming section (not shown).
It is rotated at a circumferential speed approximately equal to the conveyance speed (process speed) of the recording material sheet P as a heated material carrying on the upper surface.

55は加圧部材としての加圧ローラてあり、前記のエン
ドレスベルト状の定着フィルム51の下行側フィルム部
分を挟ませて前記加熱体54の下面に対して不図示の付
勢手段により圧接させてあり、記録材シートPの搬送方
向に順方向の反時計方向に回転する。
Reference numeral 55 denotes a pressure roller as a pressure member, which pinches the downward film portion of the endless belt-shaped fixing film 51 and presses it against the lower surface of the heating body 54 by a biasing means (not shown). , and rotates counterclockwise in the forward direction in the conveyance direction of the recording material sheet P.

加熱体54はフィルム51の面移動方向と交差する方向
(フィルムの幅方向)を長手とする低熱容量線状加熱体
であり、ヒータ基板(ベース材)56・通電発熱抵抗体
(発熱体)57・表面保護層58・検温素子59等より
なり、断熱材60を介して支持体6jに取付けて固定支
持させである。
The heating element 54 is a low heat capacity linear heating element whose length is the direction intersecting the plane movement direction of the film 51 (width direction of the film), and includes a heater substrate (base material) 56 and a current-carrying heating resistor (heating element) 57. - It is composed of a surface protection layer 58, a temperature measuring element 59, etc., and is fixedly supported by being attached to a support body 6j via a heat insulating material 60.

不図示の画像形成部から搬送された未定着のトナー画像
Taを上面に担持した記録材シートPはカイト62に案
内されて加熱体54と加圧ローラ55との圧接部Nの定
着フィルム51と加圧ローラ55との間に進入して、未
定着トナー画像部が記録材シー1− Pの搬送速度と同
一速度で同方向に回動駆動状態の定着フィルム51の下
面に密着してフィルムと一緒の重なり状態で加熱体54
と加圧ローラ55との相互圧接部N間を通過していく。
A recording material sheet P carrying an unfixed toner image Ta on its upper surface, conveyed from an image forming section (not shown), is guided by a kite 62 and placed between the fixing film 51 at the pressure contact portion N between the heating body 54 and the pressure roller 55. The unfixed toner image portion enters between the fixing film 51 and the pressure roller 55, and the unfixed toner image portion comes into close contact with the lower surface of the fixing film 51, which is being rotated in the same direction and at the same speed as the conveyance speed of the recording material sheet 1-P, and is attached to the film. The heating elements 54 are overlapped together.
and the pressure roller 55, passing between the mutual pressure contact portion N.

加熱体54は所定のタイミングで通電加熱されて該加熱
体54側の熱エネルギーかフィルム51を介して該フィ
ルムに密着状態の記録材シート2側に伝達され、トナー
画像Taは圧接部Nを通過していく過程において加熱を
受けて軟化・溶融像Tbとなる。
The heating element 54 is heated with electricity at a predetermined timing, and the thermal energy on the heating element 54 side is transmitted to the recording material sheet 2 side that is in close contact with the film via the film 51, and the toner image Ta passes through the pressure contact part N. During this process, it is heated and becomes a softened and melted image Tb.

回動駆動されている定着フィルム51は断熱材60の1
111率の人きいエツジ部Sにおいて急角度で走行方向
か転向する。従って、定着フィルム51と重なった状態
て圧接部Nを通過して搬送された記録旧シートPばエツ
ジ部Sにおいて定着フィルム51から曲率分離し排紙さ
れてゆく。排紙部へ至る時までにはトナーは十分冷却固
化し記録材シートPに完全に定71TCした状態となっ
ている。
The fixing film 51 being rotated is one of the heat insulating materials 60.
At the 111% narrow edge S, the vehicle turns at a steep angle. Therefore, the old recording sheet P, which is conveyed through the pressure contact part N while overlapping with the fixing film 51, is separated from the fixing film 51 by the curvature at the edge part S and is discharged. By the time the toner reaches the paper discharge section, the toner has sufficiently cooled and solidified and is completely fixed to the recording material sheet P at a constant temperature of 71TC.

(発明か解決しようとする問題点) このようなフィルム加熱方式の装置は問題点として次の
ようなことが挙げられている。
(Problems to be Solved by the Invention) The following problems are listed as problems with such a film heating type device.

即ち、回転体により加熱体に対するフィルムの圧接と移
動駆動を行なう構成とした場合において、 フィルムの外周面に対する該回転体表面の摩擦係数をμ
m ・フィルム内周面に対する加熱体表面の摩擦係数なμ2 ・加熱体表面対する回転体表面の摩擦係数なμ3・記録
材表面に対するフィルム外周面の摩擦係数をμ4、 ・記録材表面に対する回転体表面の摩擦係数なμ5、 ・装置に導入される記録材の搬送力向の最大長さ寸法を
f!、1、 ・装置か画像加熱定着装置として転写式画像形成装置に
紹み込まれている場合において画像転′ゲ手段部から該
定着装置の加熱体と回転体のニップ部までの記録材の搬
送路長を℃2、としたとき、μ4とμ5の関係はμ4〈
μ5と設定され、11と℃2の関係は!1〉ρ2となっ
ているが、このとき、μm≦μ2では加熱定着手段の断
面方向でフィルムと記録材かスリップ(回転体の周速に
対してフィルムの搬送速度か遅れる)して、加熱定着時
に記録材上のトナー画像か乱されてしまう。
That is, in the case where a rotary body presses and moves the film against the heating body, the coefficient of friction of the surface of the rotary body against the outer peripheral surface of the film is μ.
m ・The friction coefficient of the surface of the heating body against the inner peripheral surface of the film μ2 ・The friction coefficient of the surface of the rotating body against the surface of the heating body μ3 ・The friction coefficient of the outer peripheral surface of the film against the surface of the recording material μ4 ・The surface of the rotating body against the surface of the recording material The friction coefficient is μ5, and the maximum length of the recording material introduced into the device in the direction of the conveying force is f! , 1, ・When the apparatus is introduced into a transfer type image forming apparatus as an image heat fixing device, conveyance of the recording material from the image transfer means section to the nip section between the heating body and the rotating body of the fixing device. When the path length is ℃2, the relationship between μ4 and μ5 is μ4<
μ5 is set, and the relationship between 11 and °C2 is! 1>ρ2, but at this time, when μm≦μ2, the film and the recording material slip in the cross-sectional direction of the heat fixing means (the film conveyance speed is slower than the circumferential speed of the rotating body), and the heat fixation Sometimes, the toner image on the recording material is disturbed.

また、記録材とフィルムが一体でスリップした場合には
(回転体の周速に対してフィルムと記録月の搬送速度か
遅れる)、転写式画像形成装置の場合では画像転写手段
部において記録材(転写材)1−にトナー画像か転写さ
れる際に、やはり記録材1−のトナー画像か乱されてし
まう。
In addition, if the recording material and film slip together (the conveyance speed of the film and recording material is delayed relative to the circumferential speed of the rotating body), in the case of a transfer type image forming apparatus, the recording material ( When the toner image is transferred onto the recording material 1-, the toner image on the recording material 1- is also disturbed.

また、μm≦μ3の関係では加熱定着手段の幅方向でフ
ィルムと回転体かスリップし、その結果フィルムと記録
材がスリップし、加熱定着時に記24材シート上のトナ
ー画像か乱されてしまう。
Further, in the relationship of μm≦μ3, the film and the rotating body slip in the width direction of the heat fixing means, and as a result, the film and the recording material slip, and the toner image on the sheet of material 24 is disturbed during heat fixation.

本発明はフィルム加熱力式にフいての上述のような問題
点を解消した加熱装置を提供することを目的とする。
An object of the present invention is to provide a heating device that solves the above-mentioned problems associated with the film heating power type.

(問題点を解決するための手段) 本発明は、下記のような構成を特徴とする加熱装置及び
画像形成装置である。
(Means for Solving the Problems) The present invention is a heating device and an image forming device characterized by the following configuration.

(1)固定の加熱体と、 この加熱体に内面が対向圧接されて移動駆動されるエン
ドレスの耐熱性フィルムと、航記加熱体との間に前記フ
ィルムを挟み込んでニップ部を形成し、そのニップ部に
おけるフィルム外面との間に導入された、顕画像を支持
する記録材をフィルムを介して加熱体に圧接させる加圧
回転体と、 を有し、該加圧回転体はフィルムを挟んで航記加熱体に
圧接しつつ駆動源により回転駆動されてフィルム内面を
加熱体面に摺動させつつフィルムを所定の速度で記録材
搬送方向へ移動駆動さぜる回転体てあり、 フィルム外周面に対する該回転体表面の摩擦係数をμm
とし、フィルム内周面に対する加熱体表面の摩擦係数な
μ2とすると、 μ 1 >μ 2 である ことを特徴とする加熱装置。
(1) A nip is formed by sandwiching the film between a fixed heating body, an endless heat-resistant film whose inner surface is pressed against the heating body and is driven to move, and a navigation heating body. a pressurizing rotary body introduced between the outer surface of the film in the nip portion and pressurizing the recording material supporting the microscope image to the heating body through the film, the pressurizing rotary body sandwiching the film; A rotating body is rotatably driven by a drive source while being in pressure contact with the recording heating body, and moves and drives the film at a predetermined speed in the recording material conveyance direction while sliding the inner surface of the film on the surface of the heating body. The friction coefficient of the surface of the rotating body is μm
A heating device characterized in that μ 1 >μ 2 , where μ 2 is the coefficient of friction of the surface of the heating body against the inner circumferential surface of the film.

(2)固定の加熱体と、 この加熱体に内面か対向圧接されて移動駆動されるエン
ドレスの耐熱性フィルムと、航記加熱体との間に前記フ
ィルムを挟み込んでニップ部を形成し、そのニップ部に
おけるフィルム外面との間に導入された、顕画像を支持
する記録材をフィルムを介して加熱体に圧接させる加圧
回転体と、 を有し、該加圧回転体はフィルムを挟んで前記加熱体に
圧接しつつ駆動源により回転駆動されてフィルム内面を
加熱体面に摺動させつつフィルムを所定の速度で記録材
搬送方向へ移動駆動させる回転体であり、 フィルム外周面に対する回転体表面の摩擦係数をμ1、 加熱体表面に対する回転体表面の摩擦係数をμ3、 フィルムの幅寸法をC1 回転体の長さ寸法をHl 加熱体の長さ月決をD、 としたとき、C<H,C<Dの条件に於いてμm>μ3 であることを特徴とする加熱装置。
(2) A nip is formed by sandwiching the film between a fixed heating body, an endless heat-resistant film whose inner surface is pressed against the heating body and is driven to move, and the navigation heating body. a pressurizing rotary body introduced between the outer surface of the film in the nip portion and pressurizing the recording material supporting the microscope image to the heating body through the film, the pressurizing rotary body sandwiching the film; The rotating body is in pressure contact with the heating body and is rotationally driven by a drive source to move the film at a predetermined speed in the recording material conveying direction while sliding the inner surface of the film on the surface of the heating body, and the surface of the rotating body relative to the outer circumferential surface of the film is The friction coefficient of is μ1, the friction coefficient of the surface of the rotating body against the surface of the heating body is μ3, the width of the film is C1, the length of the rotating body is Hl, the monthly length of the heating body is D, then C<H , C<D, and μm>μ3.

(3)請求項1又は2に記載の加熱装置が画像加熱定着
装置として配置され、転写手段で未定着トナー画像か転
V形成された記録月が被加熱材として該装置へ導入され
ることを特徴とする画像形成装置。
(3) The heating device according to claim 1 or 2 is disposed as an image heating and fixing device, and a recording medium formed by transferring an unfixed toner image by the transfer means is introduced into the device as a material to be heated. Features of the image forming device.

(作 用) (1)フィルムを駆動させ、加熱体を発熱させた状態に
おいて、フィルムを挟んで加熱体と回転体との間に形成
させたニップ部のフィルムと回転体との間に記録材を顕
画像担持面側をフィルム側にして導入すると、記録祠は
フィルム外面に密着してフィルムと一緒にニップ部を移
動通過していき、その移動通過過程てニップ部において
フィルム内面に接している加熱体の熱エネルギかフィル
ムを介して記録材にイ(J与され、顕画像を支持した記
録材かフィルム加熱方式で加熱処理される。
(Function) (1) When the film is driven and the heating body generates heat, the recording material is placed between the film and the rotating body in the nip formed between the heating body and the rotating body with the film sandwiched therebetween. When the recorder is introduced with the image-bearing surface facing the film, the recorder comes into close contact with the outer surface of the film and moves along with the film through the nip, and as it moves, it comes into contact with the inner surface of the film at the nip. Thermal energy of the heating body is applied to the recording material through the film, and the recording material supporting the visible image is heat-treated using a film heating method.

(2)加熱体にフィルムを圧接させる圧接部月はフィル
ムを挟んで加熱体に圧接しつつ駆動源により回転駆動さ
れてフィルム内面を加熱体面に摺動させつつフィルムを
所定の速度で記録材搬送方向へ移動駆動させる回転体(
フィルムの加圧と駆動の両機能をイ1するローラ体又は
エンドレスヘルド体)とすることで、フィルムにかかる
寄り力を低数することか+1丁能となると共に、該回転
体の位置や藷回転体を駆動するためのキアの位置)+’
i度を向上させることかてき、装置構成か簡略化され、
安価て信頼性の高い装置とすることかでき、また使用す
るエンドレスフィルムの全周長を短いものとすることか
できる。
(2) The pressure contact part that presses the film against the heating element is in pressure contact with the heating element with the film in between, and is rotated by a drive source to slide the inner surface of the film against the surface of the heating element while conveying the recording material at a predetermined speed. A rotating body that is driven to move in the direction (
By using a roller body or endless heald body that performs both the functions of pressing and driving the film, the shifting force applied to the film can be reduced by one inch, and the position and position of the rotating body can be adjusted. Kia's position for driving the rotating body)+'
In order to improve the i-degree, the device configuration has been simplified,
The device can be inexpensive and highly reliable, and the total circumference length of the endless film used can be shortened.

(3)また1)「記したようにμmとμ2との関係はμ
m>μ2 とすることにより、断面方向での回転体に対するフィル
ムと記録材のスリップを防止することができる。
(3) Also, 1) “As noted, the relationship between μm and μ2 is μ
By setting m>μ2, it is possible to prevent the film and the recording material from slipping with respect to the rotating body in the cross-sectional direction.

(4)また前記したようにC<H,C<Dという条件に
おいて、 μm>μ3 の関係構成にすることで、幅方向、特に記録材の外側で
回転体に対するフィルムのスリップを防止することかで
きる。
(4) Also, as mentioned above, under the conditions of C<H and C<D, by setting the relationship μm>μ3, it is possible to prevent the film from slipping against the rotating body in the width direction, especially on the outside of the recording material. can.

(5)このようにμm>μ2、μm>μ3とすることに
より、フィルムと記録材の搬送速度は常に回転体の周速
度と同一にすることが可能となり、画像形成装置にあっ
ては定着時の画像乱れを防止することができ、μm>μ
2、μm>μ3を同時に実施することにより、回転体の
周速−プロセススど一ト)と、フィルム及び記録材の搬
送速度を常に同一にすることか可能となり、転写式画像
形成装置においては安定した定着画像を得ることができ
る。
(5) By setting μm>μ2 and μm>μ3 in this way, the transport speed of the film and recording material can always be the same as the peripheral speed of the rotating body. Image disturbance can be prevented, and μm>μ
2. By simultaneously implementing μm>μ3, it is possible to always keep the circumferential speed of the rotating body (the process speed) and the transport speed of the film and recording material the same, and in a transfer type image forming apparatus, A stable fixed image can be obtained.

(実 施 例) 図面は本発明の一実施例装置(画像加熱定着装置100
)を示したものである。
(Embodiment) The drawing shows an embodiment of the present invention (image heat fixing device 100).
).

(1)装置100の全体的概略構造 第1図は装置100の横断面図、第2図は縦断面図、第
3図・第4図は装置の右側面図と左側面図、第5図は要
部の分解斜視図である。
(1) Overall schematic structure of the device 100 FIG. 1 is a cross-sectional view of the device 100, FIG. 2 is a longitudinal sectional view, FIGS. 3 and 4 are right and left side views of the device, and FIG. is an exploded perspective view of main parts.

1は板金製の横断面上向きヂャンネル(講)形の横長の
装置フレーム(底板)、2・3はこの装置フレーム1の
左右両端部に該フレーム1に体に具備させた左側壁板と
右側壁板、4は装置の上カバーてあり、左右の側壁板2
・3の上端部間にはめ込んでその左右端部を夫々左右側
壁板2・3に対してねし5て固定される。ねし5をゆる
め外すことで取り外すことかできる。
1 is a horizontally long device frame (bottom plate) made of sheet metal and has an upward channel-shaped cross section; 2 and 3 are a left side wall plate and a right side wall that are attached to the frame 1 at both left and right ends of the device frame 1; Plate 4 is the top cover of the device, and left and right side wall plates 2
・It is fitted between the upper ends of 3 and fixed by screwing the left and right ends to the left and right side wall plates 2 and 3, respectively. It can be removed by loosening and removing the screw 5.

6・7は左右の各側壁板2・3の略中央部面に対称に形
成した縦方向の切欠き長穴、8・9はその各長穴6・7
のト一端部に嵌係合させた左右対の軸受部材である。
6 and 7 are vertical notched elongated holes formed symmetrically in the approximately central portions of the left and right side wall plates 2 and 3, and 8 and 9 are elongated holes 6 and 7, respectively.
These are a pair of left and right bearing members that are fitted into one end of the shaft.

10は後述する加熱体との間でフィルムを挟んてニップ
部を形成し、フィルムを駆動する回転体としてのフィル
ム加圧ローラ(圧接ローラ、バックアップローラ)であ
り、中心軸11と、この軸に外装したシリコンゴム等の
離型性のよいゴム弾性体からなるローラ部12とからな
り、中心軸11の左右端部を夫々前記左右の軸受部材8
・9に回転自由に軸受支持させである。
Reference numeral 10 denotes a film pressure roller (pressure contact roller, backup roller) as a rotating body that sandwiches the film with a heating body to be described later to form a nip portion and drives the film. The left and right ends of the center shaft 11 are connected to the left and right bearing members 8, respectively.
・9 is supported by a bearing so that it can rotate freely.

13は、板金製の横長のステーであり、後述するフィル
ム21の内面カイト2相と、後述する加熱体19・断熱
部材20の支持・補強部材を兼ねる。
Reference numeral 13 denotes a horizontally elongated stay made of sheet metal, which also serves as a supporting/reinforcing member for the two inner surface kites of the film 21, which will be described later, as well as the heating body 19 and the heat insulating member 20, which will be described later.

このステー13は、横長の平な底面部14と、この底面
部14の長子両辺から夫々一連に立ち上からせて具備さ
せた横断面外向き円弧カーブの前壁板15と後壁板16
と、底面部14の左右両端部から夫々外方へ突出させた
左右一対の水平張り出しラグ部17・18を有している
This stay 13 consists of a horizontally long flat bottom part 14, and a front wall plate 15 and a rear wall plate 16 each having an outwardly curved cross section and extending upright from both sides of the bottom part 14 in series.
It has a pair of left and right horizontally extending lug parts 17 and 18 that project outward from both left and right ends of the bottom part 14, respectively.

19は後述する構造(第6図)を有する横長の低熱容量
線状加熱体であり、横長の断熱部材2゜に取(=Jけ支
持させてあり、この断熱部材2oを加熱体19側を下向
きにして前記ステー13の横長底面部14の下面に並行
に一体に取付は支持させである。
Reference numeral 19 denotes a horizontally long low heat capacity linear heating element having a structure (FIG. 6) which will be described later, and is supported by a horizontally long heat insulating member 2° (=J). The stay 13 is integrally mounted and supported in parallel with the lower surface of the oblong bottom surface portion 14 of the stay 13 facing downward.

21はエンドレスの耐熱性フィルムであり、加熱体重9
・断熱部材20を含むステー13に外嵌させである。こ
のエンドレスの耐熱性フィルム21の内周長と、加熱体
19・断熱部材20を含むステー13の外周長はフィル
ム21の方を例えば3mmはど大きくしてあり、従って
フィルム21は加熱体19・断熱部材20を含むステー
13に対して周長か余裕をもってルーズに外嵌している
21 is an endless heat-resistant film with a heating weight of 9
- It is externally fitted onto the stay 13 including the heat insulating member 20. The inner circumferential length of this endless heat-resistant film 21 and the outer circumferential length of the stay 13 including the heating element 19 and the heat insulating member 20 are larger than that of the film 21 by, for example, 3 mm. It is loosely fitted onto the stay 13 including the heat insulating member 20 with a circumferential margin.

22・23はフィルム21を加熱体19・断熱部材20
を含むステー13に外嵌した後にステ13の左右端部の
各水平張り出しラグ部17・18に対して嵌着して取付
は支持させた左右一対のフィルム端部規制フランジ部材
である。後述するように、この左右一対の各フランジ2
旧22・23の釘座の内面22a・23a間の間隔・j
′法G(第8図)はフィルム21の幅=J−法C(同)
よりもやや大きく設定しである。
22 and 23 connect the film 21 to the heating body 19 and heat insulating member 20
These are a pair of left and right film end regulating flange members that are fitted onto the stay 13 containing the stay 13 and then fitted onto and supported by the horizontally projecting lug portions 17 and 18 at the left and right ends of the stay 13. As described later, this pair of left and right flanges 2
Distance between inner surfaces 22a and 23a of nail seat of old 22 and 23・j
'Method G (Figure 8) is the width of the film 21 = J-Method C (same)
It is set slightly larger than that.

24・25はその左右一対の各フランジ部材22・23
の外面から外方へ突出させた水平張り出しラグ部であり
、前記ステー13側の外向き水平張り出しラグ部17・
18は夫々このフランジ部材22・23の上記水平張り
出しラグ部24・25の肉厚内に具備させた差し込み用
穴部に十分に嵌入していて左右の各フランジ2旧22・
23をしっかりと支持している。
24 and 25 are the pair of left and right flange members 22 and 23.
This is a horizontally extending lug portion that protrudes outward from the outer surface of the stay 13 side.
18 are fully fitted into insertion holes provided within the wall thickness of the horizontally extending lug portions 24 and 25 of the flange members 22 and 23, respectively, so that the left and right flanges 2, the old 22, and
I firmly support 23.

装置の組み立ては、左右の側壁板2・3間から十カバー
4を外した状態において、輔11の左右端部側にPめ左
I;−の軸受部材8・9を嵌着したフィルム加圧ローラ
10のその左右の軸受部材8・9を左′I−i側壁板2
・3の縦方向切欠き長穴6・7に上端開放部から嵌係合
させて加圧ローラ10を左右側壁板2・3間に入れ込み
、左右の軸受部材8・9か長穴6・7の下端部に受け1
1−められる位置まで下ろす(落し込み式)、。
To assemble the device, remove the cover 4 from between the left and right side wall plates 2 and 3, and press the film with the bearing members 8 and 9 fitted on the left and right ends of the support 11. The left and right bearing members 8 and 9 of the roller 10 are connected to the left 'I-i side wall plate 2.
・Insert the pressure roller 10 between the left and right side wall plates 2 and 3 by fitting it into the vertical notched elongated holes 6 and 7 of No. 3 from the open upper end, and then insert the pressure roller 10 between the left and right side wall plates 2 and 3, and insert the pressure roller 10 into the left and right bearing members 8 and 9 or the elongated holes 6 and 7. Receiver 1 at the bottom end of
1- Lower it to the position where you can see it (drop-in type).

次いて、ステー13、加熱体19、断熱部材20、フィ
ルム21、左右のフランジ部材22・23を図のような
関係に予め組み立てた中間組立て体を、加熱体19側を
−F向きにして、かつ断熱部材20の左右の外方突出端
と左右のフランジ部材22・23の水平張り出しラグ部
24・25を夫々左右側壁板2・3の縦方向切欠き長穴
6・7に上端開放部から嵌係合させて左右側壁板2・3
間に入れ込み、下向きの加熱体19がフィルム21を挟
んで先に組み込んである加圧ローラ10のに面に当って
受は止められるまでと−ろす(落し込み式)。
Next, the intermediate assembly in which the stay 13, the heating body 19, the heat insulating member 20, the film 21, and the left and right flange members 22 and 23 are assembled in advance in the relationship shown in the figure is turned with the heating body 19 side facing -F. In addition, the left and right outwardly protruding ends of the heat insulating member 20 and the horizontally projecting lug portions 24 and 25 of the left and right flange members 22 and 23 are inserted into the vertical notched elongated holes 6 and 7 of the left and right side wall plates 2 and 3, respectively, from the open upper end. Fit and engage the left and right side wall plates 2 and 3.
Insert the film 21 between the film 21 and heat it until the downward heating element 19 hits the surface of the previously assembled pressure roller 10 with the film 21 in between and the receiver is stopped (drop-in type).

モしてノ、−君側壁板2・3の閉側に長穴6・7を通し
て突出している、左右の各フランジ部材22・23のラ
グ部24・25の」二に夫々コイルばね26・27をラ
グ部上面に設けた支え凸起て位置決めさせて縦向きにセ
ットし、上カバー4を、該上カバー4の左右端部側に夫
々設けた外方張り出しラグ部28・29をl二記セット
したコイルばね26・27の上端に夫々対応させて各コ
イルばね26・27をラグ部24・28.25・291
11に押し縮めなから、左!jの側壁板2・3 Q)上
端部間の所定の位置まで嵌め入れてねじ5て左!1′の
側壁板2・3間に固定する。
Additionally, coil springs 26 and 27 are attached to the lug portions 24 and 25 of the left and right flange members 22 and 23, respectively, which protrude through the long holes 6 and 7 on the closed side of the side wall panels 2 and 3. The upper cover 4 is positioned vertically using the supporting protrusions provided on the upper surface of the lug portion, and the outer projecting lug portions 28 and 29 provided on the left and right end sides of the upper cover 4, respectively, are set vertically. The coil springs 26 and 27 are connected to the lug portions 24, 28, 25, and 291 in correspondence with the upper ends of the set coil springs 26 and 27, respectively.
Don't compress it to 11, left! Side wall plates 2 and 3 of j Q) Insert until the specified position between the upper ends and screw 5 to the left! Fix it between side wall plates 2 and 3 of 1'.

これによりコイルばね26・27の押し縮め反力で、ス
テー13、加熱体19、断熱部材20、フィルム2I、
左右のフランジ部材22・23の全体が下方へ押圧付勢
されて加熱体19と加圧ローラ10とがフィルム21を
挟んて長手各部略均等に例えば総Fト4〜7kgの当接
圧をもって圧接した状態に保持される。
As a result, the stay 13, heating element 19, heat insulating member 20, film 2I,
The entire left and right flange members 22 and 23 are pressed downward, and the heating body 19 and the pressure roller 10 are brought into contact with the film 21 almost equally on each longitudinal part with a contact pressure of, for example, 4 to 7 kg in total. is maintained in the same state.

30・31は左右の側壁板2・3の外側に長穴6・7を
通して突出している断熱部材20の左右両端部に夫々嵌
着した、加熱体19に対する電力供給用の給電コネクタ
である。
Reference numerals 30 and 31 designate power supply connectors for supplying power to the heating element 19, which are fitted to both left and right ends of the heat insulating member 20, which protrudes from the outside of the left and right side wall plates 2 and 3 through long holes 6 and 7, respectively.

32は装置フレーム1の前面壁に取イく1けて配設した
被加熱材人口カイトであり、装置へ導入される被加熱材
としての顕画像(粉体トナー像)Taを支持する記録材
シートP(第7図)をフィルム21を挟んて圧接してい
る加熱体19と加圧ローラ10とのニップ部(加熱定着
部)Nのフィルム21とローラ1oとの間に向けて案内
する。
Reference numeral 32 denotes a heated material artificial kite placed on the front wall of the device frame 1, which is a recording material that supports a visible image (powder toner image) Ta as a heated material introduced into the device. The sheet P (FIG. 7) is guided toward a nip portion (heat fixing portion) N between the heating body 19 and the pressure roller 10, which are in pressure contact with each other with the film 21 in between, between the film 21 and the roller 1o.

33は装置フレーム1の後面壁に取イ」けて配設した被
加熱利用[jカイト(分離カイト)てあり、」−記ニツ
ブ部を通過して出た記録材シートを下側の排出ローラ3
4と上側のどンチコロ38とのニップ部に案内する。
33 is a heated kite (separation kite) installed on the rear wall of the device frame 1, and the recording material sheet that has passed through the nib part is transferred to the lower ejection roller. 3
4 and the upper end roller 38.

U1出ローラ34はその軸35の左右両端部を左右の側
壁板2・3に設けた軸受36・37間に回転自由に軸受
支持させである。どンチコロ38はその軸39を上カバ
ー4の後面壁の一部を内側に曲げて形成したフック部4
0に受は入れさせて自重と押しはね41とにより排出ロ
ーラ34の上面に当接させである。このピンヂコロ38
はU1出ローラ34の回転駆動に従動回転する。
The U1 output roller 34 is rotatably supported by bearings at both left and right ends of its shaft 35 between bearings 36 and 37 provided on the left and right side wall plates 2 and 3. The shaft 38 is attached to a hook portion 4 formed by bending a part of the rear wall of the upper cover 4 inward.
The receiver is placed in the position 0 and brought into contact with the upper surface of the discharge roller 34 by its own weight and the push spring 41. This Pinjikoro 38
is rotated by the rotational drive of the U1 output roller 34.

G1ば、右側壁板3から外方へ突出させたローラ軸11
の右端に固着した第1キア、G3はおなしく右側壁板3
から外方へ突出させた排出ローラ@35の右端に固着し
た第3ギア、G2は!1側壁板3の外面に枢着して設け
た中継ギアとしての第2キアであり、上記の第1キアG
1と第3キアG3とに噛み合っている。
G1, the roller shaft 11 projected outward from the right side wall plate 3;
The first Kia stuck to the right end of the G3, and the right side wall plate 3
The third gear, G2, is fixed to the right end of the discharge roller @35 that protrudes outward from the! This is a second gear as a relay gear provided pivotally on the outer surface of the first side wall plate 3, and is similar to the first gear G described above.
1 and the third Kia G3.

第1ギアG1は不図示の駆動源機構の駆動ギアGOから
駆動力を受けて加圧ローラ10が第1図」二反時計方向
に回転駆動され、それに連動して第1キアG1の回転力
か第2キアG2を介して第3キアG3へ伝達されて排出
ローラ34も第1図上反時計方向に回転駆動される。
The first gear G1 receives a driving force from a driving gear GO of a drive source mechanism (not shown), and the pressure roller 10 is rotationally driven in the counterclockwise direction in FIG. This is transmitted to the third gear G3 via the second gear G2, and the discharge roller 34 is also rotationally driven in the counterclockwise direction in FIG.

(2)動作 エンドレスの耐熱性フィルム21は非駆動時においては
第6図の要部部分拡大図のように加熱体19と加圧ロー
ラ10とのニップ部Nに挟まれている部分を除く残余の
大部分の略全周長部分がテンションフリーである。
(2) Operation When the endless heat-resistant film 21 is not driven, the remaining part of the endless heat-resistant film 21 except for the part sandwiched between the nip N between the heating body 19 and the pressure roller 10 is shown in the enlarged view of the main part in FIG. Most of the entire circumference is tension-free.

第1キアG1に駆動源機構の駆動ギアGOから駆動か伝
達されて加圧ローラ10か所定の周速度で第7図上反時
計方向へ回転駆動されると、ニップ部Nにおいてフィル
ム21に回転加圧ローラ10との摩擦力で送り移動力か
かかり、エンドレスの耐熱性フィルム21か加圧ローラ
10の回転周速と略同速度をもってフィルム内面が加熱
体19面を摺動しつつ時計方向Aに回動移動駆動される
When the drive is transmitted from the drive gear GO of the drive source mechanism to the first Kia G1 and the pressure roller 10 is rotationally driven in the counterclockwise direction in FIG. A feeding movement force is applied due to the frictional force with the pressure roller 10, and the inner surface of the endless heat-resistant film 21 slides on the surface of the heating body 19 at approximately the same speed as the circumferential rotation speed of the pressure roller 10 in the clockwise direction A. It is driven to rotate and move.

このフィルム21の駆動状態においてはニップ部Nより
もフィルム回動方向」二流側のフィルム部分に引き寄せ
力fが作用することで、フィルム21は第7図に実線で
示したようにニップ部Nよりもフィルム回動方向上流側
であって該ニップ部近傍のフィルム内面カイト部分、即
ちフィルム21を外嵌したステー13のフィルム内面カ
イトとしての外向き円弧カーブ前面板15の略下半面部
分に対して接触して摺動を生しながら回動する。
In this driving state of the film 21, a pulling force f acts on the part of the film on the second flow side in the film rotation direction with respect to the nip part N, so that the film 21 is moved further away from the nip part N as shown by the solid line in FIG. Also, on the upstream side in the film rotation direction, the inner surface of the film near the nip portion, that is, the approximately lower half surface portion of the outward arc curved front plate 15 as the inner surface of the film of the stay 13 on which the film 21 is externally fitted. It contacts and rotates while producing sliding motion.

その結果、回動フィルム21には上記の前面板15との
接触摺動部の始点部Oからフィルム回動方向上流側のニ
ップ部Nにかけてのフィルム部分Bにテンションか作用
した状態て回動することて、少なくともそのフィルム部
分面、即ちニップ部Nの記録材シート進入側近傍のフィ
ルム部分面B、及びニップ部Nのフィルム部分について
のシワの発生か」二記のテンションの作用により防止さ
れる。
As a result, the rotating film 21 rotates with tension acting on the film portion B from the starting point O of the contact sliding portion with the front plate 15 to the nip portion N on the upstream side in the film rotation direction. This means that wrinkles can be prevented from occurring on at least the film part surface, that is, the film part surface B in the vicinity of the recording material sheet entrance side of the nip part N, and the film part in the nip part N. .

そして−に記のフィルム駆動と、加熱体19への通電を
行わせた状態において、人[」ガイド32に案内されて
被加熱材としての未定着トナー像Taを担持した記録材
シートPがニップ部Nの回動フィルム21と加圧ローラ
10との間に像担持面上向きて導入されると記録材シー
1〜Pはフィルム21の而に密着してフィルム21と一
緒にニップ部Nを移動通過していき、その移動通過過程
てニップ部Nにおいてフィルム内面に接している加熱体
19の熱エネルギーかフィルムを介して記録材シートP
にイ・]与されトナー画像Taは軟化溶融像Tbとなる
Then, in the state in which the film is driven as described in - and the heating element 19 is energized, the recording material sheet P carrying the unfixed toner image Ta as the material to be heated is guided by the human guide 32 into the nip. When the recording material sheets 1 to P are introduced between the rotary film 21 of the section N and the pressure roller 10 with the image bearing surface facing upward, the recording material sheets 1 to P come into close contact with the film 21 and move through the nip section N together with the film 21. During the movement and passing process, the recording material sheet P is heated through the film by the thermal energy of the heating element 19 that is in contact with the inner surface of the film at the nip portion N.
The toner image Ta becomes a softened and fused image Tb.

ニップ部Nを通過した記録材シートPはトナー温度かガ
ラス転移点より犬なる状態でフィルム21面から離れて
出ロガイト33て排出ローラ34とどンチコロ38との
間に案内されて装置外へ送り出される。記録材シートP
かニップ部Nを出てフィルム21面から離れて排出ロー
ラ34へ至るまでの間に軟化・溶融トナー像Tbは冷却
して固化像化TCL/て定着する。
The recording material sheet P that has passed through the nip portion N separates from the surface of the film 21 in a state where the toner temperature is lower than the glass transition point and comes out through the log gate 33 and is guided between the discharge roller 34 and the punch roller 38 and sent out of the apparatus. It will be done. Recording material sheet P
The softened/melted toner image Tb is cooled and fixed as a solidified image TCL/ during the time it exits the nip portion N, leaves the surface of the film 21, and reaches the discharge roller 34.

1−記においてニップ部Nへ導入された記録材シー1−
 Pは前述したようにテンションか作用していてシワの
ないフィルム部分面に常に対応密着してニップ部Nをフ
ィルム21と一緒に移動するのでシワのあるフィルムか
ニップ部Nを通過する事態を生しることによる加熱ムラ
・定着ムラの発生、フィルムmiの折れすしを生しない
Recording material sheet 1- introduced into the nip portion N in 1-
As mentioned above, P is under tension and always stays in close contact with the surface of the unwrinkled film portion and moves through the nip N together with the film 21, so that a situation occurs where the wrinkled film passes through the nip N. There is no occurrence of heating unevenness/fixing unevenness due to printing, and no folding of the film mi.

フィルム21は被駆動時も駆動時もその全周長の一部N
又はB−Nにしかテンションか加わらないから、即ち非
駆動時(第6図)においてはフィルム21はニップ部N
を除く残余の大部分の略全周長部分かテンションフリー
であり、駆動時もニップ部Nと、そのニップ部Nの記録
材シート進入(1jll近傍部のフィルム部分Bについ
てのみテンションか作用し残余の大部分の略全周長部分
がテンションフリーであるから、また全体に周長の%j
jいフィルムを使用できるから、フィルム駆動のために
必要な駆動トルクは小さいものとなり、フィルム装置構
成、部品、駆動系構成は簡略化・小型化・低コス1へ化
される。
The film 21 has a part N of its total circumference both when being driven and when being driven.
Or, since tension is applied only to B-N, that is, when not driven (Fig. 6), the film 21 is at the nip portion N.
Almost the entire circumference of the remaining part, excluding Since most of the almost entire circumference is tension-free, the overall circumference is %
Since a thin film can be used, the drive torque required for driving the film is small, and the structure of the film device, parts, and drive system can be simplified, downsized, and lowered in cost.

またフィルム21の非駆動時(第6図)も駆動時(第7
図)もフィルム21には上記のように全周長の一部N又
はB−Nにしかテンションか加わらないので、フィルム
駆動時にフィルム21にフィルム幅方向の一方側Q(第
2図)、又は他方側Rへの寄り移動を生じても、その寄
り力は小さいものである。
Also, when the film 21 is not driven (FIG. 6) and when it is driven (FIG. 7),
2), tension is applied to the film 21 only on part N or B-N of the entire circumference as described above, so when the film is driven, the film 21 is applied to one side Q in the film width direction (Fig. 2) or Even if a shift toward the other side R occurs, the shift force is small.

そのためフィルム21が寄り移動Q又はRしてその左端
縁か左側フランジ部材22のフィルム端部規制面として
の湯圧内面22a、或は右端縁が右側フランジ部材23
の湯圧内面23aに押し当り状態になってもフィルム寄
り力か小さいからその寄り力に対してフィルムの剛矧か
−1−分に打ち勝ちフィルム端部が座屈・破損するなと
のタメーシを生じない。そしてフィルムの寄り規制手段
は本実施例装置のように簡単なフランジ部材22・23
で足りるので、この点ても装置構成の簡略化・小僧化・
低コスト化かなされ、安価で信頼性の高い装置を構成で
きる。
Therefore, the film 21 shifts Q or R and its left edge becomes the hot water pressure inner surface 22a as the film end regulating surface of the left flange member 22, or its right edge becomes the right flange member 23.
Even if the film is pressed against the hot water pressure inner surface 23a, the film's biasing force is small, so the rigidity of the film can overcome the biasing force by -1-min and prevent the edge of the film from buckling or breaking. Does not occur. The film deviation regulating means is simple flange members 22 and 23 as in the device of this embodiment.
suffices, so in this respect as well, the device configuration can be simplified,
The cost can be reduced and an inexpensive and highly reliable device can be constructed.

フィルム寄り規制手段としては本実施例装置の場合のフ
ランジ部材22・23の他にも、例えばフィルム21の
端部にエンドレスフィルム周方向に耐熱性樹脂から成る
リブを設け、このリブを規制してもよい 更に、使用フィルム21としてはF記のように寄り力か
低下する分、剛性を低下させることができるので、より
薄肉て熱容量か/J’lさいものを使用して装置のクイ
ックスタート性を向上させることかできる。
In addition to the flange members 22 and 23 in the case of the device of this embodiment, for example, a rib made of heat-resistant resin is provided at the end of the film 21 in the circumferential direction of the endless film as the film deviation regulating means, and this rib is regulated. In addition, as shown in F, the rigidity of the film 21 can be reduced to compensate for the reduction in bias force, so a thinner film with a smaller heat capacity can be used to improve the quick start performance of the device. can be improved.

(3)フィルム21について。(3) Regarding film 21.

フィルム21は熱容量を小さくしてクイックスタート性
を向上させるために、フィルム21のIIQ厚Tは総厚
100μm以下、好ましくは40μm以下、20μm以
−トの耐熱性・離形性・強度・耐久fト等のある単層或
は複合層フィルムを使用できる。
In order to reduce heat capacity and improve quick start performance, the film 21 has a total IIQ thickness T of 100 μm or less, preferably 40 μm or less, and has heat resistance, mold releasability, strength, and durability f of 20 μm or more. Single layer or composite layer films can be used.

例えば、ボリイミI・・ポリエーテルイミド(PET)
  ・ポリエーテルサルホン(PES)4フツ化工ヂレ
ンーバーフルオロアルキルビニルエーテル共重合体樹脂
(PFA) ・ポリエーテルエーテルケトン(PEEK
)・ポリパラバン酸(PPA)、或いは複合層フィルム
例えば20μm厚のボリイミ1〜フィルムの少なくとも
画像当接面側にPTFE (4フツ化エヂレン樹脂)P
AF−FEP等のフッ素樹脂・シリコン樹脂等更にはそ
れに導電材(カーボンブラック・クラファイト・4定性
ウイスカなと)を添加した離型性コート層を10μm厚
に施したものなとである。
For example, Boliimi I...polyetherimide (PET)
・Polyether sulfone (PES) 4-functional polymer fluoroalkyl vinyl ether copolymer resin (PFA) ・Polyether ether ketone (PEEK)
)・Polyparabanic acid (PPA), or a composite layer film such as 20 μm thick polyimide 1 to PTFE (tetrafluoroethylene resin) P on at least the image contact side of the film
A releasable coating layer made of fluororesin such as AF-FEP, silicone resin, etc. and a conductive material (carbon black, graphite, 4-qualitative whiskers, etc.) added thereto is applied to a thickness of 10 μm.

(4)加熱体19・断熱部材2oについて。(4) Regarding the heating body 19 and the heat insulating member 2o.

加熱体19は面述第13図例装置の加熱体54と同様に
、ヒータ基板19a(第6図参照)通電発熱抵抗体(発
熱体)19b・表面保護層19c・検温素子19d等よ
りなる。
The heating element 19, similar to the heating element 54 of the apparatus shown in FIG. 13, is composed of a heater substrate 19a (see FIG. 6), an energized heating resistor (heating element) 19b, a surface protection layer 19c, a temperature measuring element 19d, and the like.

ヒータ基板19aは耐熱性・絶縁性・低熱容量・高熱伝
導性の部材であり、例えば、厚み1mm・11」10 
m m・長さ240mmのアルミナ基板である。
The heater board 19a is a heat-resistant, insulative, low heat capacity, and highly thermally conductive member, and has a thickness of 1 mm and 11"10, for example.
It is an alumina substrate with a length of 240 mm.

発熱体19bはヒータ基板19aの下面(ンイルム21
との対面側)の略中央部に長手に沿って、例えば、Ag
/Pd (銀パラジウム)、Ta2N、RuO2等の電
気抵抗材料を厚み約1071m・[111〜3mmの線
状もしくは細帯状にスクリーン印刷等により塗工し、そ
の上に表面保護層19cとして耐熱カラスを約10μm
コートしたものである。 検温素子19dは例としてヒ
ータコ、(板19aの上面(発熱体19bを設けた面と
は反対側の而)の略中央部にスクリーン印刷等により塗
二りして具備させたp t Ili等の低熱容量の測温
抵抗体である。低熱容量のサーミスタなとも使用できる
The heating element 19b is located on the lower surface of the heater board 19a (the illumination 21
For example, Ag
/Pd (silver palladium), Ta2N, RuO2, or other electrically resistive material is coated in the form of a line or strip with a thickness of about 1071 m/111 to 3 mm by screen printing, etc., and heat-resistant glass is applied as a surface protective layer 19c on top of it. Approximately 10μm
It is coated. The temperature measuring element 19d is, for example, a heater taco, a PT Ili, etc., which is provided by screen printing or the like on the approximate center of the upper surface of the plate 19a (the side opposite to the surface on which the heating element 19b is provided). It is a low heat capacity resistance temperature detector.It can also be used as a low heat capacity thermistor.

本例の加熱体19の場合は、線状又は細帯状をなす発熱
体1.9 bに対し画像形成スタート信号により所定の
タイミングにて通電して発熱体19bを略全長にわたっ
て発熱させる。
In the case of the heating element 19 of this example, the heating element 1.9b, which has a linear or narrow strip shape, is energized at a predetermined timing in response to an image formation start signal to cause the heating element 19b to generate heat over substantially its entire length.

通電はAClooVであり、検温素子19cの検知温度
に応して1〜ライアツクを含む不図示の通電制御回路に
より通電する位相角を制御することにより供給電力を制
御している。
The power supply is AClooV, and the supplied power is controlled by controlling the phase angle of the current supply by a power supply control circuit (not shown) including 1 to LIACT according to the temperature detected by the temperature measuring element 19c.

加熱体19はその発熱体19bへの通電により、ヒータ
基板19a・発熱体19b・表面保護層19cの熱容量
か小さいので加熱体表面が所要の定着温度(例えば14
0〜200℃)まで急速に温度上昇する。
When the heating element 19 is energized, the surface of the heating element reaches a required fixing temperature (for example, 14
The temperature rises rapidly from 0 to 200°C.

そしてこの加熱体19に接する耐熱性フィルム21も熱
容量か小さく、加熱体19側の熱エネルギーか該フィル
ム21を介して該フィルムに圧接状態の記録材シート2
側に効果的に伝達されて画像の加熱定着が実行される。
The heat-resistant film 21 in contact with the heating element 19 also has a small heat capacity, and the recording material sheet 2 in pressure contact with the film via the heating element 19 receives thermal energy from the heating element 19 side.
The image is effectively transferred to the side and thermal fixation of the image is performed.

」−記のように加熱体19と対向するフィルムの表面温
度は短時間に1ヘナーの融点(又は記録材シートPへの
定着可能温度)に対して十分な高温に昇温するので、ク
イックスタート性に優れ、加熱体19をあらかしめ昇温
させておくいわゆるスタンバイ温調の必要がなく、省エ
ネルギーが実現でき、しかも機内昇温も防止できる。
'', the surface temperature of the film facing the heating element 19 rises to a high enough temperature for the melting point of 1 hener (or the temperature at which it can be fixed on the recording material sheet P) in a short period of time, so the quick start is possible. There is no need for so-called standby temperature control in which the heating element 19 is warmed up, energy saving can be achieved, and temperature rise inside the machine can also be prevented.

断熱部材20は加熱体19を断熱して発熱を有効に使う
ようにするもので、断熱性・高耐熱性を有する、例えは
pps (ポリフェニレンサルファイト)・PAT(ポ
リアミドイミド)・PI(ポリイミド)・PEEK (
ポリエーテルエーテルケトン)・液晶ポリマー等の高耐
熱性樹脂である。
The heat insulating member 20 insulates the heating element 19 to make effective use of heat generated, and is made of materials that have heat insulating properties and high heat resistance, such as pps (polyphenylene sulfite), PAT (polyamideimide), and PI (polyimide).・PEEK (
Polyetheretherketone), liquid crystal polymer, and other highly heat-resistant resins.

(5)フィルム幅Cとニップ長りについて。(5) Regarding film width C and nip length.

第8図の(1法関係図のように、フィルノλ21の幅手
法をCとし、フィルム21を挟んて加熱体19と回転体
としての加圧ローラ10の圧接により形成されるニップ
長寸法なりとしたとき、C<Dの関係構成に設定するの
かよい。
As shown in the (1 method relationship diagram) in FIG. 8, the width of the filler no. In this case, it is better to set the relational structure such that C<D.

即ち上記とは逆にC20の関係構成てローラ10により
フィルム21の搬送を行なうと、ニップ長りの領域内の
フィルム部分か受けるフィルム搬送力(圧接力)と、ニ
ップ長りの領域外のフィルム部分が受けるフィルム搬送
力とか、前者のフィルム部分の内面は加熱体19の而に
接して摺動搬送されるのに対して後者のフィルム部分の
内面は加熱体19の表面とは材質の異なる断熱部材20
の面に接して摺動搬送されるので、大きく異なるために
フィルム21の幅方向両端部分にフィルム搬送過程でシ
ワや折れ等の破損を生しるおそれがある。
In other words, when the film 21 is conveyed by the roller 10 with the relationship C20, contrary to the above, the film conveying force (pressing force) received by the film portion within the nip length area and the film outside the nip length area are The inner surface of the former film portion is slidably transported in contact with the heating element 19, while the inner surface of the latter film portion is insulated from a different material from the surface of the heating element 19. Member 20
Since the film 21 is slidably conveyed in contact with the surface thereof, there is a possibility that damage such as wrinkles or folds may occur at both ends of the film 21 in the width direction due to the large difference.

これに対してC<Dの関係構成に設定することで、フィ
ルム21の幅方向全長域Cの内面か加熱体19の長さ範
囲り内の面に接して該加熱体表面を摺動して搬送される
のでフィルム幅方向全長域Cにおいてフィルム搬送力が
均一化するので上記のようなフィルム端部破損トラブル
か回避される。
On the other hand, by setting the relational structure of C<D, the inner surface of the entire length C in the width direction of the film 21 or the surface within the length range of the heating element 19 can be contacted and the surface of the heating element can be slid. Since the film is transported, the film transport force is made uniform over the entire length region C in the width direction of the film, thereby avoiding the problem of film end damage as described above.

また回転体として本実施例で使用した加圧ローラ10は
シリコンゴム等の弾性に優れたコム材料製であるので、
加熱されると表面の摩擦係数が変化する。そのため加熱
体19の発熱体19bに関してその長さ範囲寸法をEと
したとき、その発熱体19bの長さ範囲Eに対応する部
分におけるローラ10とフィルム21間の摩擦係数と、
発熱体19bの長さ範囲Eの外側に対応する部分におけ
るローラ10とフィルム21間の摩擦係数は異なる。
In addition, the pressure roller 10 used as a rotating body in this embodiment is made of a highly elastic comb material such as silicone rubber.
When heated, the coefficient of friction of the surface changes. Therefore, when the length range dimension of the heating element 19b of the heating element 19 is E, the friction coefficient between the roller 10 and the film 21 at the portion corresponding to the length range E of the heating element 19b,
The coefficient of friction between the roller 10 and the film 21 differs in a portion corresponding to the outside of the length range E of the heating element 19b.

しかし、E<C<Dの寸法関係構成に設定することによ
り、発熱体19bの長さ範囲Eとフィルム幅Cの差を小
さくすることができるため発熱体19bの長さ範囲Eの
内外でのローラ10とフィルム21との摩擦係数の違い
かフィルムの搬送に与える影響を小さくすることができ
る。
However, by setting the dimensional relationship configuration of E<C<D, the difference between the length range E of the heating element 19b and the film width C can be reduced, so that the difference between the length range E of the heating element 19b and the film width C can be reduced. The difference in the coefficient of friction between the roller 10 and the film 21 can reduce the influence on film transport.

これによって、ローラ10によりフィルム21を安定に
駆動することか可能となり、フィルム端部の破損を防止
することが可能となる。
This makes it possible to stably drive the film 21 with the roller 10, making it possible to prevent the edges of the film from being damaged.

フィルム端部規制手段としてのフランジ部材22・23
のフィルム端部規制面22a・23aは加圧ローラ10
の長さ範囲内であり、フィルムか寄り移動してもフィル
ム端部のタメージ防止がなされる。
Flange members 22 and 23 as film end regulating means
The film end regulating surfaces 22a and 23a are the pressure roller 10.
The length is within the range of , and even if the film shifts, the edges of the film are prevented from being damaged.

(6)加圧ローラ10について。(6) Regarding the pressure roller 10.

加熱体19との間にフィルム21を挟んてニップ部Nを
形成し、またフィルムを駆動する回転体としての加圧ロ
ーラ10は、例えば、シリコンゴム等の剛型性のよいゴ
ム弾性体からなるものであり、その形状は長手方向に関
してストレート形状のものよりも、第9図(A)又は(
B)の誇張模型図のように逆クラウン形状、或いは逆ク
ラウン形状でその逆クラウンの端部をカット12aした
実質的に逆クラウン形状のものがよい。
The pressure roller 10, which forms a nip N with the film 21 sandwiched between it and the heating body 19, and serves as a rotating body for driving the film, is made of a rubber elastic body with good rigidity, such as silicone rubber, for example. 9 (A) or (
It is preferable to have an inverted crown shape as shown in the exaggerated model diagram of B), or a substantially inverted crown shape in which the end portion of the inverted crown is cut 12a.

逆クラウンの程度dはローラ10の有効長さHか例えば
230mmである場合においてd−100〜200μm に設定するのかよい。
When the effective length H of the roller 10 is, for example, 230 mm, the degree d of the inverted crown may be set to d - 100 to 200 μm.

即ち、ストレート形状の場合は部品粒度のバラツキ等に
より加熱体19とのニップ部Nにおいて該ローラにより
フィルム21に加えられるフィルム幅方向に関する圧力
分布はフィルムの幅方向端部よりも中央部の方が高くな
ることかあった。つまり該ローラによるフィルムの搬送
力はフィルム幅方向端部よりも中央部の方が大きくフィ
ルム21には搬送に伴ない搬送力の小さいフィルム部分
が搬送力の大きいフィルム部分へ寄り向う力かイ動くの
で、フィルム端部側のフィルム部分かフィルム中央部分
へ寄っていきフィルムにシワを発生させることかあり、
更にはニップ部Nに記録材シートPが導入されたときに
はその記録旧シートPにニップ部搬送通過過程でシワを
発生させることがある。
That is, in the case of a straight shape, the pressure distribution in the width direction of the film applied by the roller to the film 21 at the nip N with the heating element 19 is greater at the center than at the ends in the width direction due to variations in particle size of the parts. It could get expensive. In other words, the conveyance force of the film by the roller is greater at the center than at the ends in the width direction of the film, and the film 21 is affected by the force that causes the portion of the film with a smaller conveying force to move toward the portion of the film with a larger conveying force as it is conveyed. Therefore, wrinkles may occur in the film as it approaches the edges of the film or the center of the film.
Furthermore, when the recording material sheet P is introduced into the nip portion N, wrinkles may occur in the old recording sheet P during the conveyance process through the nip portion.

これに対して加圧ローラ10を逆クラウンの形状にする
ことによって加熱体19とのニップ部Nにおいて該ロー
ラによりフィルム21に加えられるフィルム幅方向に関
する圧力分布は上記の場合とは逆にフィルムの幅方向端
部の方が中央部よりも大きくなり、これによりフィルム
21には中央部から両端側へ向う力か働いて、即ちシワ
のばし作用を受けながらフィルム21の搬送がなされ、
フィルムのシワを防止できると共に、導入記録材シート
Pのシワ発生を防止することが可能である。
On the other hand, by forming the pressure roller 10 into an inverted crown shape, the pressure distribution in the film width direction applied by the roller to the film 21 at the nip N with the heating element 19 is opposite to the above case. The edges in the width direction are larger than the center, and as a result, a force acts on the film 21 from the center toward both ends, that is, the film 21 is conveyed while being subjected to a wrinkle smoothing effect.
It is possible to prevent the film from being wrinkled, and also to prevent the introduced recording material sheet P from being wrinkled.

回転体としての加圧ローラ10は本実施例装置のように
加熱体19との間にフィルム21を挟んで加熱体19に
フィルム21を圧接させると共に、フィルム21を所定
速度に移動駆動し、フィルム21との間に被加熱側とし
ての記録材シートPか導入されたときはその記録材シー
トPをフィルム21面に密着させて加熱体19に圧接さ
せてフィルム21と共に所定速度に移動駆動させる駆動
部材とすることによりフィルムにかかる寄り力を低減す
ることか可能となると共に、圧接ローラ10の位置や該
ローラを駆動するためのギアの位置精度を向上させるこ
とかできる。
The pressure roller 10 as a rotary body presses the film 21 against the heating body 19 by sandwiching the film 21 between it and the heating body 19 as in the apparatus of this embodiment, and drives the film 21 to move at a predetermined speed to When a recording material sheet P as a heated side is introduced between the film 21 and the film 21, the recording material sheet P is brought into close contact with the film 21 surface, pressed against the heating body 19, and driven to move together with the film 21 at a predetermined speed. By making it a member, it is possible to reduce the biasing force applied to the film, and it is also possible to improve the positional accuracy of the pressure roller 10 and the gear for driving the roller.

即ち、加熱体19に対してフィルム21又はフィルム2
1と記録材シートPとを加圧圧接させる加圧機能と、フ
ィルム21を移動駆動させる駆動機能とを夫々別々の加
圧機能回転体(必要な加圧力はこの回転体を加圧するこ
とにより得る)とフィルム駆動機能回転体で行なわせる
構成のものとした場合には、加熱体19とフィルム駆動
機能回転体間のアライメントか狂った場合に薄膜のフィ
ルム21には幅方向への大きな寄り力が働き、フィルム
21の端部は折れやシワ等のタメーシを生じるおそれか
ある。
That is, the film 21 or the film 2
1 and the recording material sheet P, and a drive function to move and drive the film 21, are provided by separate pressurizing rotary bodies (the necessary pressurizing force is obtained by pressurizing these rotary bodies). ) and a film drive function rotating body, if the alignment between the heating body 19 and the film drive function rotary body goes out of alignment, a large biasing force in the width direction will be applied to the thin film 21. As a result, the edges of the film 21 may be bent, wrinkled, or otherwise damaged.

またフィルムの駆動部材を兼ねる加圧回転体に加熱体1
9との圧接に必要な加圧力をバネ等の押し付けにより加
える場合には該回転体の位置や、該回転体を駆動するた
めのギアの位置粒度がだしすらい。
In addition, a heating body 1 is attached to the pressurizing rotary body that also serves as a film drive member.
When applying the pressure necessary for pressure contact with 9 by pressing with a spring or the like, the position of the rotating body and the positional granularity of the gear for driving the rotating body are determined.

これに対して前記したように、加熱体19に定着時に必
要な加圧力を加え回転体たる加圧ローラ10によりJ己
録材シートPをフィルム21を介して圧接させると共に
、記録材シートPとフィルム21の駆動をも同時に行な
わせることにより、前記の効果を得ることができると共
に、装置の構成か簡略化され、安価で信頼性の高い装置
を9;Iることかできる。
On the other hand, as described above, a pressure necessary for fixing is applied to the heating body 19, and the pressure roller 10, which is a rotating body, presses the recording material sheet P through the film 21, and the recording material sheet P and By driving the film 21 at the same time, the above-mentioned effects can be obtained, and the structure of the apparatus can be simplified, resulting in an inexpensive and highly reliable apparatus.

なお、回転体としてはローラ10に代えて、第10図の
ように回動駆動されるエンドレスヘルl−1OAとする
こともてきる。
Incidentally, instead of the roller 10, the rotating body may be an endless hell l-1OA which is rotationally driven as shown in FIG.

回転体10・1. OAにフィルム21を加熱体19に
圧接させる機能と、フィルム21を駆動させる機能を持
たせる構成は、本実施例装置のようなフィルムテンショ
ンフリータイプの装置(フィルム21の少なくとも一部
はフィルムJ1駆動時もフィルム駆動時もテンションか
加わらない状態にあるもの)、フィルムテンションタイ
プの装置(前述第13図例装置のもののように周長の長
いフィルムを常に全周的にテンションを加えて張り状態
にして駆動させるもの)にも、またフィルム寄り規制手
段がセンサ・ソレノイド方式、リブ規制方式、フィルム
端部(両(Illまたは片側)規制方式等の何れの場合
でも、適用して同様の作用・効果を得ることができるが
、殊にテンションフリータイプの装置構成のものに適用
して最適である。
Rotating body 10.1. The configuration in which the OA has the function of bringing the film 21 into pressure contact with the heating body 19 and the function of driving the film 21 is suitable for a film tension-free type device like the device of this embodiment (at least a part of the film 21 is driven by the film J1). A film tension type device (such as the device shown in Fig. 13 above, which constantly applies tension to the entire circumference of a film with a long circumference to maintain tension). The same operation and effect can be achieved regardless of whether the film deviation regulating means is a sensor/solenoid method, a rib regulating method, a film edge regulating method (both sides (Ill or one side)), etc. However, it is particularly suitable for application to a tension-free type device configuration.

(7)記録材シート排出速度について。(7) Regarding recording material sheet ejection speed.

ニップ部Nに導入された被加熱材としての記録材シート
Pの加圧ローラ10(回転体)による搬送速度、即ち該
ローラ10の周速度なVIOとし、排出ローラ34の記
録材シートjJj出搬送速度、即ち該排出ローラ34の
周速度なV34としたとき、VIO>V34の速度関係
に設定するのかよい。その速度差は数%例えば1〜3%
程度の設定でよい。
Let VIO be the conveyance speed of the recording material sheet P as a heated material introduced into the nip portion N by the pressure roller 10 (rotating body), that is, the circumferential speed of the roller 10, and the output conveyance of the recording material sheet jJj by the discharge roller 34. When the speed, that is, the circumferential speed of the discharge roller 34 is V34, it is better to set the speed relationship such that VIO>V34. The speed difference is a few percent, for example 1 to 3%.
It is sufficient to set the degree.

装置に導入して使用できる記録材シートPの最大幅寸法
をF(第8図参照)としたとき、フィルム21の幅寸法
Cとの関係において、F<Cの条件下ではVIO≦V3
4となる場合にはニップ部NとDト出ローラ34との両
者間にまたかって搬送されている状態にある記録材シー
トPはニップ部Nを通過中のシート部分は排出ローラ3
4によって引っ張られる。
When the maximum width of the recording material sheet P that can be introduced into the apparatus and used is F (see FIG. 8), in relation to the width C of the film 21, under the condition of F<C, VIO≦V3.
4, the recording material sheet P that is being conveyed astride between the nip portion N and the D ejection roller 34 has a portion of the sheet that is passing through the nip portion N that is conveyed between the nip portion N and the D ejection roller 34.
Pulled by 4.

このとき、表面に離型性の良いPTFE等のコーティン
グかなされているフィルム21は加圧ローラ10と同一
速度で搬送されている。
At this time, the film 21 whose surface is coated with PTFE or the like having good mold releasability is being conveyed at the same speed as the pressure roller 10.

方記録材シートPには加圧ローラ10による搬送力の他
に排出ローラ34による引っ張り搬送力も加わるため、
加圧ローラ10の周速よりも速い速度で搬送される。つ
まりニップ部Nにおいて記録材シートPとフィルム21
はスリップする状態を生し、そのために記録材シートP
がニップ部Nを通過している過程で記録材シートPトの
未定着トナー像Ta(第7図)もしくは軟化・溶融状態
となったトナー像Tbに乱れを生しさせる”T O’t
 elかある。
In addition to the conveyance force by the pressure roller 10, a tensile conveyance force by the discharge roller 34 is also applied to the recording material sheet P.
It is transported at a speed faster than the circumferential speed of the pressure roller 10. In other words, at the nip portion N, the recording material sheet P and the film 21
This causes a slipping condition, which causes the recording material sheet P to slip.
During the process of passing through the nip N, the unfixed toner image Ta (FIG. 7) or the softened/melted toner image Tb of the recording material sheet P is disturbed.
There is el.

そこで前記したように加圧ローラ10の周速度VIOと
排出ローラ34の周速度V34をVIO>V34 の関係に設定することで、記録材シートPとフィルム2
1にはシートPに排出ローラ34による引フ張り力が作
用せず加圧ローラ1oの搬送力のみが与えられるので、
シートPとフィルム21間のスリップにもとすく上記の
画像部れの発生を防止することができる。
Therefore, as described above, by setting the circumferential velocity VIO of the pressure roller 10 and the circumferential velocity V34 of the discharge roller 34 in the relationship of VIO>V34, the recording material sheet P and the film 2
1, since the pulling tension force by the discharge roller 34 does not act on the sheet P and only the conveying force of the pressure roller 1o is applied,
The slip between the sheet P and the film 21 can also prevent the above-mentioned image blur from occurring.

排出ローラ34は本実施例では加熱装置100側に配設
具備させであるが、加熱装置100を組み込む画像形成
装置笠木機側に具備させてもよい。
Although the discharge roller 34 is provided on the heating device 100 side in this embodiment, it may be provided on the Kasagi machine side of the image forming apparatus into which the heating device 100 is incorporated.

(8)フィルム端部規制フランジ間隔について。(8) Regarding the film edge regulation flange spacing.

フィルム端部規制手段としての左右一対のフランジ部材
22・23のフィルム端部規制面としての湯圧内面22
a・23a間の間隔寸法をG(第8図)としたとき、フ
ィルム21の幅寸法Cとの関係において、C<Gの寸法
関係に設定するのかよい。例えばCを230mmとした
ときGは1〜3 m m程度大きく設定するのである。
Hot water pressure inner surface 22 as a film end regulating surface of a pair of left and right flange members 22 and 23 as film end regulating means
When the distance between a and 23a is G (FIG. 8), the relationship with the width C of the film 21 may be set such that C<G. For example, when C is set to 230 mm, G is set approximately 1 to 3 mm larger.

即ち、フィルム21はニップ部Nにおいて例えば200
℃近い加熱体19の熱を受けて膨張して寸法Cか増加す
る。従って常温時におけるフィルム21の幅寸法Cとフ
ランジ間隔寸法GをC=Gに設定してフィルム21の両
端部をフランジ部材22・23て規制するようにすると
、装置稼働時には上述したフィルムの熱膨張によりC>
Gの状態を生しる。フィルム21は例えば50μm程度
の薄膜フィルムであるために、C>Gの状態ではフラン
ジ部材22・23のフィルム端部規制面22a・23a
に対するフィルム端部当接圧力(端部圧)か増大してそ
れに耐え切れすに端部折れ・座屈等のタメージを受ける
ことになると共に、フィルム端部圧の増加によりフィル
ム21の端部とフランジ部材22・23のフィルム端部
規制面22a・23a間での摩擦力も増大するためにフ
ィルムの搬送力か低−ドしてしまうことにもなる。
That is, the film 21 has a thickness of, for example, 200 at the nip portion N.
It expands upon receiving the heat from the heating element 19 at a temperature close to 0.degree. C., and its dimension C increases. Therefore, if the width dimension C of the film 21 and the flange interval dimension G at room temperature are set to C=G, and both ends of the film 21 are regulated by the flange members 22 and 23, the thermal expansion of the film described above occurs when the device is in operation. By C>
produces the state of G. Since the film 21 is a thin film of about 50 μm, for example, in a state where C>G, the film end regulating surfaces 22a and 23a of the flange members 22 and 23
The end contact pressure (end pressure) of the film 21 increases, and before it is able to withstand the pressure, the end part is subject to damage such as bending and buckling. Since the frictional force between the film end regulating surfaces 22a and 23a of the flange members 22 and 23 also increases, the film conveyance force is also reduced.

C<Gの=J−法関係に設定することによって、加熱に
よりフィルム21か膨張しても、膨張量以上の隙間(C
,C)をフィルム21の両端部とフランジ部材のフィル
ム端部規制面22a・23a間に設けることによりフィ
ルム21の両端部が同時にフランジ部材のフィルム端部
規制面22a・23aに当接することはない。
By setting the = J-law relationship of C<G, even if the film 21 expands due to heating, the gap (C
, C) are provided between both ends of the film 21 and the film end regulating surfaces 22a and 23a of the flange member, so that both ends of the film 21 do not come into contact with the film end regulating surfaces 22a and 23a of the flange member at the same time. .

従ってフィルム21か熱膨張してもフィルム端部圧接力
は増加しないため、フィルム21の端部タメージを防止
することが可能になると共に、フィルム駆動力も軽減さ
せることができる。
Therefore, even if the film 21 expands thermally, the film end pressure contact force does not increase, making it possible to prevent damage to the end of the film 21 and to reduce the film driving force.

(9)各部材間の摩擦係数関係について。(9) Regarding the friction coefficient relationship between each member.

a、フィルム21の外周面に対するローラ(回転体)1
0表面の摩擦係数をμ1、 b フィルム21の内周面に対する加熱体19表面の摩
擦係数なμl、 C加熱体19表面に対するローラ10表面の摩擦係数を
μ3、 d、被加熱材としての記録材シート2表面に対するフィ
ルム21の外周面の摩擦係数をμ4、e、記録材シート
2表面に対するローラ1o表面の摩擦係数なμ5、 f、装置に導入される記録材シートPの搬送方向の最大
長さ1法を21、 g 装置か画像加熱定着装置として転写式画像形成装置
に組み込まれている場合において画像転写手段部から画
像加熱定着装置と1ノでの該装置のニップ部Nまての記
録材シート(転写材)Pの搬送路長を!2、 とする。
a, roller (rotating body) 1 against the outer peripheral surface of the film 21
0 The friction coefficient of the surface is μ1, b The friction coefficient of the heating body 19 surface against the inner peripheral surface of the film 21 is μl, C The friction coefficient of the roller 10 surface against the heating body 19 surface is μ3, d, Recording material as heated material The friction coefficient of the outer peripheral surface of the film 21 with respect to the surface of the sheet 2 is μ4, e, the friction coefficient of the surface of the roller 1o with respect to the surface of the recording material sheet 2 is μ5, f, the maximum length in the transport direction of the recording material sheet P introduced into the apparatus. 21. g When the device is incorporated into a transfer type image forming device as an image heat fixing device, the recording material from the image transfer means section to the image heat fixing device and the nip portion N of the device in 1. Convey path length of sheet (transfer material) P! 2.

而して、μlとμlとの関係は μl>μl の関係構成にする。Therefore, the relationship between μl and μl is μl>μl The relationship structure is as follows.

即ち、この種のフィルム加熱方式の装置では面記μ4と
μ5との関係はμ4〈μ5と設定されており、また画像
形成装置では前記11と℃2との関係は11 >12と
なっている。
That is, in this type of film heating type device, the relationship between the surface numbers μ4 and μ5 is set as μ4<μ5, and in the image forming device, the relationship between the above 11 and °C2 is 11 > 12. .

このとき、μm≦μ2ては加熱定着手段の断面方向でフ
ィルム21と記録材シートPかスリップ(ローラ10の
周速に対してフィルム21の搬送速度か遅れる)して、
加熱定着時に記録材シート上のトナー画像か乱されてし
まう。
At this time, if μm≦μ2, the film 21 and the recording material sheet P slip in the cross-sectional direction of the heat fixing means (the transport speed of the film 21 lags behind the circumferential speed of the roller 10).
The toner image on the recording material sheet is disturbed during heat fixing.

また、記録材シートPとフィルム21が一体でスリップ
(ローラ10の周速に対I)でフィルム21と記録層シ
ートPの搬送速度か遅れる)した場合には、転写式画像
形成装置の場合では画像転写手段部において記録材シー
ト(転写材)上にトナー画像が転写される際に、やはり
記録打手のトナー画像が乱されてしまう。
In addition, if the recording material sheet P and the film 21 slip together (the conveyance speed of the film 21 and the recording layer sheet P is delayed due to the circumferential speed of the roller 10), in the case of a transfer type image forming apparatus, When the toner image is transferred onto the recording material sheet (transfer material) in the image transfer means section, the toner image of the recording material is also disturbed.

上記のようにμm>μlとすることにより、断面方向で
のローラ10に対するフィルム21と記録材シー+へp
のスリップを防止することができる。
By setting μm>μl as described above, the film 21 and the recording material sheet + are connected to the roller 10 in the cross-sectional direction.
can prevent slipping.

また、フィルム21の幅寸法Cと、回転体としてのロー
ラ10の長さ寸法Hと、加熱体19の長さ寸法りに関し
て、C<H,c<Dという条件において、 μm>μ3 の関係構成にする。
Furthermore, regarding the width C of the film 21, the length H of the roller 10 as a rotating body, and the length H of the heating body 19, under the conditions of C<H, c<D, the relationship configuration is μm>μ3. Make it.

即ち、μl≦μ3の関係ては加熱定着手段の幅方向で、
フィルム21とローラ1oがスリップし、その結果フィ
ルム21と記録材シー1〜Pかスリップし、加熱定着時
に記録材シート上のトナー画像か乱されてしまう。
That is, if μl≦μ3, in the width direction of the heat fixing means,
The film 21 and the roller 1o slip, and as a result, the film 21 and the recording material sheets 1 to P also slip, and the toner image on the recording material sheet is disturbed during heat fixing.

上記のようにμl>μ3の関係構成にすることて、幅方
向、特に記録層シートPの外倶[てローラ10に対する
フィルム21のスリップを防1」二することかてきる。
By establishing the relationship μl>μ3 as described above, it is possible to prevent the film 21 from slipping against the roller 10 in the width direction, especially on the outer surface of the recording layer sheet P.

このようにμm>μl、μm>μ3とすることにより、
フィルム21と記録層シートPの搬送速度ば常にローラ
10の周速度と同一にすることか可能となり、定着時ま
たは転写時の画像部れを防止することかでき、μm>μ
l、μl>μ3を同時に実施することにより、ローラ1
0の周速(=プロセススど一ト)と、フィルム21及び
記録材シートPの搬送速度を常に同一にすることか可能
となり、転写式画像形成装置においては安定した定着画
像を得ることができる。
By setting μm>μl and μm>μ3 in this way,
The conveyance speed of the film 21 and the recording layer sheet P can always be the same as the circumferential speed of the roller 10, and it is possible to prevent image blurring during fixing or transfer, and μm>μ.
By simultaneously implementing l, μl>μ3, roller 1
It becomes possible to always keep the peripheral speed of 0 (=process speed) and the conveying speed of the film 21 and the recording material sheet P the same, and a stable fixed image can be obtained in a transfer type image forming apparatus. .

(10)フィルムの寄り制御について。(10) Regarding film shift control.

第1〜10図の実施例装置のフィルム寄り制御はフィル
ム21を中にしてその幅方向両端側にフィルム端部規利
用の左右一対のフランジ部材22・23を配設してフィ
ルム21の左右両方向の寄り移動Q−Rに対処したもの
であるか(フィルム両側端部規制式)、フィルム片側端
部規制式として次のような構成も有効である。
The film shift control of the embodiment apparatus shown in FIGS. 1 to 10 is performed by disposing a pair of left and right flange members 22 and 23 on both ends of the film 21 in the width direction for use in controlling the film edges. The following configuration is also effective as a method to deal with the deviation movement QR of the film (film both-side edge restriction type) or a film one-side edge restriction type.

即ち、フィルムの幅方向への寄り方向は常に左方Qか右
方Rへの一方方向となるように、例えば、第11図例装
置のように左右の加圧コイルはね26・27の駆動側の
ばね27の加ルカf27が非駆動側のばね26の加圧力
f26に比べて高くなる(f27>f26)ように設定
することでフィルム21を常に駆動側である右方Rへ寄
り移動するようにしたり、その他、加熱体19の形状や
ローラ10の形状を駆動端側と非駆動端側とて変化をつ
けてフィルムの搬送力をコントロールしてフィルムの寄
り方向を常に一方向のものとなるようにし、その寄り側
のフィルム端部をその側のフィルム端部の規制部材とし
てのフランジ部材や、フィルムリブと係合案内部材等の
手段で規制する、つまり第11図例装置においてフィル
ム21の寄りfllll Rの端部のみを規制部材27
て規制することにより、フィルムの寄り制御を安定に且
つ容易に行なうことが可能となる。これにより装置か画
像加熱定着装置である場合では常に安定し良好な定着画
像を得ることができる。
That is, the left and right pressure coil springs 26 and 27 are driven, for example, as in the apparatus shown in FIG. By setting the force f27 of the spring 27 on the side to be higher than the force f26 of the spring 26 on the non-driving side (f27>f26), the film 21 is always moved toward the right side R, which is the driving side. In addition, the shape of the heating element 19 and the shape of the roller 10 can be changed between the drive end side and the non-drive end side to control the film conveyance force so that the film always moves in one direction. The end of the film on the closer side is regulated by means such as a flange member as a regulating member for the end of the film on that side, a film rib and an engagement guide member, etc. In other words, in the apparatus shown in FIG. 11, the film 21 Only the end of the R is restricted by the regulating member 27.
By regulating the film deviation, it is possible to stably and easily control the film deviation. As a result, when the apparatus is an image heat fixing apparatus, a stable and good fixed image can always be obtained.

また、エン1〜レスフイルム21はニップ部Nを形成す
る加圧ローラ10により駆動されているため特別な駆動
ローラは必要としない。
Further, since the film 1 to the film 21 are driven by the pressure roller 10 forming the nip portion N, no special drive roller is required.

このような作用効果はフィルムに全周的にテンションを
かけて駆動するテンションタイプの装置構成の場合でも
、本実施例装置のようにテンションフリータイプの装置
構成の場合でも同様の効果を得ることかできるか、該手
段構成はテンションフリータイプのものに殊に最適なも
のである。
These effects can be obtained both in the case of a tension-type device configuration in which the film is driven by applying tension all around it, and in the case of a tension-free type device configuration like the device of this embodiment. However, the means structure is particularly suitable for tension-free types.

(11)画像形成装置例 第12図は第1〜10図例の画像加熱定着装置100を
組み込んだ画像形成装置の一例の概略構成を示している
(11) Example of Image Forming Apparatus FIG. 12 shows a schematic configuration of an example of an image forming apparatus incorporating the image heat fixing apparatus 100 shown in FIGS. 1 to 10.

本例の画像形成装置は転写式電子写真プロセス利用のレ
ーザービームプリンタである。
The image forming apparatus of this example is a laser beam printer using a transfer type electrophotographic process.

60ばプロセスカートリッジであり、回転ドラム型の電
子写真感光体(以下、1へラムと記す)61・帯電器6
2・現像器6.3・クリーニンク装置64の4つのプロ
セス機器を包含させである。このプロセスカートリッジ
は装置の開閉部65を開けて装置内を開放することで装
置内の所定の位置に一対して着脱交換自在である。
60 is a process cartridge, which includes a rotating drum type electrophotographic photoreceptor (hereinafter referred to as ram) 61 and a charger 6
It includes four process devices: 2, developing device 6.3, and cleaning device 64. This process cartridge can be attached to and removed from a predetermined position within the apparatus by opening the opening/closing part 65 of the apparatus and opening the inside of the apparatus.

画像形成スタート信号によりドラム61か矢示の時計方
向に回転駆動され、その回転1くラム61面が帯電器6
2により所定の極性・電イ17に様帯電され、そのドラ
ムの帯電処理面に対してレーザースキャナ66から出力
される、IJ的の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ビーム67による主走査
露光かなされることで、l・ラム61面に目的の画像情
報に対応した静電潜像か順次に形成されていく。その潜
像は次いて現像器63てトナー画像として顕画化される
The drum 61 is driven to rotate in the clockwise direction indicated by the arrow in response to the image forming start signal.
2 to a predetermined polarity and electric charge 17, and modulated in accordance with a time-series electric digital pixel signal of IJ-like image information outputted from a laser scanner 66 to the charged surface of the drum. By performing main scanning exposure using the laser beam 67, an electrostatic latent image corresponding to the target image information is sequentially formed on the surface of the l-ram 61. The latent image is then developed into a toner image by a developing device 63.

方、給紙カセット68内の記録材シー1〜Pか給紙ロー
ラ69と分離バット70との共働て1枚宛分離給送され
、レジストローラ対71によりトラム61の回転と同期
取りされてトラム61とそれに対向圧接している転写ロ
ーラ72との定着部たる圧接ニップ部73へ給送され、
該給送記録側シートP面にドラム1面側のトナー画像か
順次に転写されていく。
On the other hand, the recording material sheets 1 to P in the paper feed cassette 68 are separated and fed one by one by the cooperation of the paper feed roller 69 and the separation bat 70, and are synchronized with the rotation of the tram 61 by a pair of registration rollers 71. The tram 61 is fed to a pressure nip 73 which is a fixing portion between the tram 61 and a transfer roller 72 which is in pressure contact with the tram 61, and
The toner image on the first side of the drum is sequentially transferred onto the P side of the fed recording side sheet.

転写部73を通った記録材シートPはドラム61面から
分離されて、ガイド74て定着装置100へ導入され、
前述した該装置100の動作・作用で未定着トナー画像
の加熱定着が実行されて出ロア5から画像形成物(プリ
ント)として出力される。
The recording material sheet P that has passed through the transfer section 73 is separated from the surface of the drum 61 and introduced into the fixing device 100 via a guide 74.
The unfixed toner image is heat-fixed by the operation and action of the device 100 described above, and is outputted from the output lower 5 as an image-formed product (print).

転写部73を通って記録材シートPが分離されたドラム
61面はクリーニング装置64て転写残りトナー等の付
着汚染物の除去を受けて繰り返して作像に使用される。
The surface of the drum 61 from which the recording material sheet P has been separated through the transfer section 73 is subjected to removal of adhered contaminants such as untransferred toner by a cleaning device 64, and is used repeatedly for image formation.

本発明の加熱装置は上述例の画像形成装置の画像加熱定
着装置としてたけでなく、その他、画像面加熱つや出し
装置、仮定着装置としても効果的に活用することかでき
る。
The heating device of the present invention can be effectively utilized not only as an image heating and fixing device of the image forming apparatus described above, but also as an image surface heating and polishing device and a temporary fixing device.

(発明の効果) 以上のように本発明のフィルム加熱方式の加熱装置は、
回転体の周速度と、フィルム及び被加熱材としての記録
材の搬送速度を相互間でのスリップを防止して常に同一
にすることが可能となり、画像形成装置にあっては定着
時または転写時の上記スリップに起因の画像乱れを防止
して常に安定に良好な定着処理画像を得ることが出来る
(Effects of the invention) As described above, the film heating type heating device of the present invention has the following features:
This makes it possible to always keep the circumferential speed of the rotating body and the transport speed of the film and the recording material (heated material) the same by preventing slips between them. It is possible to always stably obtain a good fixed image by preventing image disturbance caused by the above-mentioned slip.

加圧回転体によりフィルムを駆動することにより装置の
構成か更に簡略化されると共に、コストの低減が可能と
なる。
By driving the film with a pressurizing rotor, the structure of the apparatus can be further simplified and costs can be reduced.

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

第1図は一実施例装置の横断面図。 第2図は縦断面図。 第3図は右側面図。 第4図は左側面図。 第5図は要部の分解斜視図。 第6図は非駆動時のフィルム状態を示した要部の拡大横
断面図。 第7図は駆動時の同上図。 第8図は構成部材の寸法関係図。 第9図(A)・ (B)は夫々回転体としてのローラ1
0の形状例を示した誇張形状図。 第10図は回転体として回動ベルトを用いた例を示す図
。 第11図はフィルムシ1側端部規制式の装置例の縦断面
図。 第12図は画像形成装置例の概略構成図。 第13図はフィルム加熱方式の画像加熱定着装置の公知
例の概略構成図。 19は加熱体、21はエン1(レスフィルム、13はス
テー、10は回転体としてのローラ。
FIG. 1 is a cross-sectional view of an embodiment of the device. Figure 2 is a longitudinal sectional view. Figure 3 is a right side view. Figure 4 is a left side view. FIG. 5 is an exploded perspective view of the main parts. FIG. 6 is an enlarged cross-sectional view of the main part showing the state of the film when not driven. FIG. 7 is the same diagram as above when driving. FIG. 8 is a dimensional relationship diagram of the constituent members. Figures 9(A) and 9(B) each show the roller 1 as a rotating body.
An exaggerated shape diagram showing an example of the shape of 0. FIG. 10 is a diagram showing an example in which a rotating belt is used as the rotating body. FIG. 11 is a longitudinal cross-sectional view of an example of a device in which the end of the film sheet 1 is restricted. FIG. 12 is a schematic configuration diagram of an example of an image forming apparatus. FIG. 13 is a schematic diagram of a known example of a film heating type image heating fixing device. 19 is a heating body, 21 is an en 1 (less film), 13 is a stay, and 10 is a roller as a rotating body.

Claims (3)

【特許請求の範囲】[Claims] (1)固定の加熱体と、 この加熱体に内面が対向圧接されて移動駆動されるエン
ドレスの耐熱性フィルムと、 前記加熱体との間に前記フィルムを挟み込んでニップ部
を形成し、そのニップ部におけるフィルム外面との間に
導入された、顕画像を支持する記録材をフィルムを介し
て加熱体に圧接させる加圧回転体と、 を有し、該加圧回転体はフィルムを挟んで 前記加熱体に圧接しつつ駆動源により回転駆動されてフ
ィルム内面を加熱体面に摺動させつつフィルムを所定の
速度で記録材搬送方向へ移動駆動させる回転体であり、 フィルム外周面に対する該回転体表面の摩擦係数をμ1
とし、フィルム内周面に対する加熱体表面の摩擦係数を
μ2とすると、 μ1>μ2 である ことを特徴とする加熱装置。
(1) A fixed heating body, an endless heat-resistant film whose inner surface is pressed against the heating body and is driven to move, and the film is sandwiched between the heating body to form a nip portion, and the nip portion is formed by sandwiching the film between the heating body and the heating body. a pressurizing rotary body which is introduced between the outer surface of the film in the section and presses the recording material supporting the microscope image onto the heating body through the film, the pressurizing rotary body sandwiching the film between the recording material and the heating body; A rotating body that is in pressure contact with the heating body and is rotationally driven by a drive source to move the film at a predetermined speed in the recording material conveying direction while sliding the inner surface of the film on the surface of the heating body, and the surface of the rotating body relative to the outer circumferential surface of the film is The friction coefficient of μ1
A heating device characterized in that μ1>μ2, where μ2 is the coefficient of friction of the surface of the heating body against the inner peripheral surface of the film.
(2)固定の加熱体と、 この加熱体に内面が対向圧接されて移動駆動されるエン
ドレスの耐熱性フィルムと、 前記加熱体との間に前記フィルムを挟み込んでニップ部
を形成し、そのニップ部におけるフィルム外面との間に
導入された、顕画像を支持する記録材をフィルムを介し
て加熱体に圧接させる加圧回転体と、 を有し、該加圧回転体はフィルムを挟んで 前記加熱体に圧接しつつ駆動源により回転駆動されてフ
ィルム内面を加熱体面に摺動させつつフィルムを所定の
速度で記録材搬送方向へ移動駆動させる回転体であり、 フィルム外周面に対する回転体表面の摩擦係数をμ1、 加熱体表面に対する回転体表面の摩擦係数をμ3、 フィルムの幅寸法をC、 回転体の長さ寸法をH、 加熱体の長さ寸法をD、 としたとき、C<H、C<Dの条件に於いてμ1>μ3 であることを特徴とする加熱装置。
(2) A fixed heating body, an endless heat-resistant film whose inner surface is pressed against the heating body and is driven to move, and the film is sandwiched between the heating body to form a nip portion, and the nip portion is formed by sandwiching the film between the heating body and the heating body. a pressurizing rotary body which is introduced between the outer surface of the film in the section and presses the recording material supporting the microscope image onto the heating body through the film, the pressurizing rotary body sandwiching the film between the recording material and the heating body; The rotating body is in pressure contact with the heating body and is rotationally driven by a drive source to move the film at a predetermined speed in the recording material conveying direction while sliding the inner surface of the film on the surface of the heating body, and the surface of the rotating body relative to the outer peripheral surface of the film is When the coefficient of friction is μ1, the coefficient of friction of the surface of the rotating body against the surface of the heating body is μ3, the width of the film is C, the length of the rotating body is H, and the length of the heating body is D, C<H , C<D, and μ1>μ3.
(3)請求項1又は2に記載の加熱装置が画像加熱定着
装置として配置され、転写手段で未定着トナー画像が転
写形成された記録材が被加熱材として該装置へ導入され
ることを特徴とする画像形成装置。
(3) The heating device according to claim 1 or 2 is arranged as an image heating and fixing device, and a recording material on which an unfixed toner image is transferred and formed by the transfer means is introduced into the device as a material to be heated. image forming apparatus.
JP15360690A 1990-06-11 1990-06-11 Image heating device Expired - Lifetime JP2884716B2 (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
JP15360690A JP2884716B2 (en) 1990-06-11 1990-06-11 Image heating device
EP19910109514 EP0461596B1 (en) 1990-06-11 1991-06-10 Heating apparatus using endless film
DE1991627508 DE69127508T2 (en) 1990-06-11 1991-06-10 Heater with continuous film
US07/825,789 US5148226A (en) 1990-06-11 1992-01-21 Heating apparatus using endless film

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15360690A JP2884716B2 (en) 1990-06-11 1990-06-11 Image heating device

Publications (2)

Publication Number Publication Date
JPH0444079A true JPH0444079A (en) 1992-02-13
JP2884716B2 JP2884716B2 (en) 1999-04-19

Family

ID=15566161

Family Applications (1)

Application Number Title Priority Date Filing Date
JP15360690A Expired - Lifetime JP2884716B2 (en) 1990-06-11 1990-06-11 Image heating device

Country Status (1)

Country Link
JP (1) JP2884716B2 (en)

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