JP3333069B2 - Charging member - Google Patents
Charging memberInfo
- Publication number
- JP3333069B2 JP3333069B2 JP18452795A JP18452795A JP3333069B2 JP 3333069 B2 JP3333069 B2 JP 3333069B2 JP 18452795 A JP18452795 A JP 18452795A JP 18452795 A JP18452795 A JP 18452795A JP 3333069 B2 JP3333069 B2 JP 3333069B2
- Authority
- JP
- Japan
- Prior art keywords
- charging
- charging member
- surface layer
- elastic layer
- weight
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Electrostatic Charge, Transfer And Separation In Electrography (AREA)
- Rolls And Other Rotary Bodies (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は,電子写真装置に使
用される帯電部材に関し,より詳細には,導電性支持体
上にエピクロルヒドリンゴムを主体とする弾性層を形成
した帯電部材に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging member used in an electrophotographic apparatus, and more particularly, to a charging member having an elastic layer mainly composed of epichlorohydrin rubber formed on a conductive support.
【0002】[0002]
【従来の技術】従来,電子写真方式の画像形成装置にお
いて,感光体表面を一様に全面帯電するための帯電方式
としては,コロナ放電器が広く利用されていた。このコ
ロナ放電器にあっては,感光体をある一定の電位に均一
に帯電する手段としては有効であるが,反対に,コロナ
放電による帯電処理にあっては高圧電源を必要とし,放
電に伴いオゾンが発生するという不都合や,オゾンが大
量に発生すると環境に悪影響を及ぼすばかりでなく,オ
ゾンによって帯電部材,感光体が劣化するという不都合
があった。2. Description of the Related Art Conventionally, in an electrophotographic image forming apparatus, a corona discharger has been widely used as a charging method for uniformly charging the entire surface of a photosensitive member. This corona discharger is effective as a means to uniformly charge the photoreceptor to a certain potential. Conversely, charging by corona discharge requires a high-voltage power supply, The generation of ozone and the generation of a large amount of ozone not only adversely affect the environment but also deteriorate the charging member and the photoreceptor due to the ozone.
【0003】これに対して帯電ローラ(帯電部材)を感
光体に接触させ,従動回転させながら電圧を印加し,感
光体表面を帯電させる接触ローラ帯電方式が,特開昭6
3−167380号公報『交流誘導帯電装置』に開示さ
れている。特開昭63−167380号公報によれば,
コロナ放電方式と比べ電源の低電圧化とオゾンの発生が
少ないという利点を有しているが,帯電の均一性に関し
ては劣っている。[0003] On the other hand, a contact roller charging system in which a charging roller (charging member) is brought into contact with a photosensitive member and a voltage is applied while being driven to rotate to charge the surface of the photosensitive member is disclosed in Japanese Unexamined Patent Publication No. Sho.
It is disclosed in Japanese Unexamined Patent Publication No. 3-167380, “AC induction charging device”. According to JP-A-63-167380,
Compared with the corona discharge method, it has the advantages of lowering the voltage of the power supply and generating less ozone, but is inferior in terms of charging uniformity.
【0004】この帯電の均一性を改善するために,例え
ば,特開昭63−149668号公報に開示されている
「接触帯電方法」にあっては,直流電圧印加時における
帯電開始電圧の2倍以上のピーク間電圧をもつ交流電圧
を重畳させることにより,帯電の均一性がかなり改善で
きることを開示している。ところが,この交流電圧と直
流電圧とを重畳した電圧を印加して帯電を行う接触帯電
方法にあっては,帯電装置の交流電圧による機械の振動
による帯電音としての不快な環境を与えたり,また,交
流電流を多量に消費することにより,オゾン発生の低減
を損なうことになるという不都合が発生する。In order to improve the uniformity of the charging, for example, in the “contact charging method” disclosed in Japanese Patent Application Laid-Open No. 63-149668, twice the charging start voltage when a DC voltage is applied. It is disclosed that by superimposing an AC voltage having the above-mentioned peak-to-peak voltage, charging uniformity can be considerably improved. However, in the contact charging method in which charging is performed by applying a voltage obtained by superimposing an AC voltage and a DC voltage, an unpleasant environment is given as a charging noise due to mechanical vibration caused by the AC voltage of the charging device. In addition, a large amount of the alternating current consumes a disadvantage that the reduction of ozone generation is impaired.
【0005】これらの不都合は,帯電装置に直流電圧の
みを印加して帯電を行うことにより解消されるものの,
帯電の均一性が得られ難いという問題がある。このた
め,特開平5−341627号公報によれば,ゴム自体
で半導電性が得られるエピクロルヒドリンゴムを帯電部
材(帯電ローラ)の弾性層に使用することにより,帯電
の均一性と耐電圧が改善されている。[0005] These disadvantages can be solved by applying only a DC voltage to the charging device to perform charging.
There is a problem that it is difficult to obtain uniform charging. For this reason, according to Japanese Patent Application Laid-Open No. Hei 5-341627, uniformity of charge and withstand voltage are improved by using epichlorohydrin rubber, which is semiconductive by itself, for the elastic layer of the charging member (charging roller). Have been.
【0006】[0006]
【発明が解決しようとする課題】しかしながら,上記従
来の導電性支持体上にエピクロルヒドリンゴムを主体と
する弾性層を形成した帯電部材によれば,半導電性の弾
性層上に非粘着性の表面層が形成されているものの,複
写機の帯電器として長期間使用すると,クリーニングユ
ニットをすり抜けて,そのまま感光体上に留まった残留
トナー粒子が,感光体と接触している帯電部材の表面に
付着し,帯電部材表面にトナー,紙粉等が固着してしま
うため,帯電部材の電気抵抗が高くなり,帯電性能が低
下するという問題点があった。換言すれば,帯電部材の
耐久性が低いという問題点があった。However, according to the charging member in which the elastic layer mainly composed of epichlorohydrin rubber is formed on the conventional conductive support, the non-adhesive surface is formed on the semiconductive elastic layer. Although a layer is formed, when used as a charger in a copier for a long time, residual toner particles that pass through the cleaning unit and remain on the photoreceptor adhere to the surface of the charging member that is in contact with the photoreceptor However, since toner, paper powder, and the like adhere to the surface of the charging member, there is a problem that the electrical resistance of the charging member is increased and the charging performance is reduced. In other words, there is a problem that the durability of the charging member is low.
【0007】本発明は上記に鑑みてなされたものであっ
て,帯電部材の表面にトナーや,紙粉等が付着するのを
抑制して,帯電部材の耐久性を向上させることを目的と
する。SUMMARY OF THE INVENTION The present invention has been made in view of the above, and has as its object to improve the durability of a charging member by suppressing adhesion of toner, paper powder, and the like to the surface of the charging member. .
【0008】[0008]
【課題を解決するための手段】上記の目的を達成するた
めに,請求項1に係る帯電部材は,導電性支持体上にエ
ピクロルヒドリンゴムを主体とする弾性層を形成した帯
電部材において,前記弾性層上に,フルオロオレフィン
と水酸基含有ビニルエステルとを共重合した溶剤可溶性
ポリマをイソシアネートで硬化させて得られるポリマを
含有する表面層を形成したものである。According to a first aspect of the present invention, there is provided a charging member according to a first aspect of the present invention, wherein an elastic layer mainly composed of epichlorohydrin rubber is formed on a conductive support. A surface layer containing a polymer obtained by curing a solvent-soluble polymer obtained by copolymerizing a fluoroolefin and a hydroxyl group-containing vinyl ester with isocyanate is formed on the layer.
【0009】また,請求項2に係る帯電部材は,導電性
支持体上にエピクロルヒドリンゴムを主体とする弾性層
を形成した帯電部材において,前記弾性層上に,フルオ
ロオレフィンと水酸基含有ビニルエステルとを共重合し
た溶剤可溶性ポリマをメラミンで硬化させて得られるポ
リマを含有する表面層を形成したものである。According to a second aspect of the present invention, there is provided a charging member in which an elastic layer mainly composed of epichlorohydrin rubber is formed on a conductive support, wherein a fluoroolefin and a hydroxyl group-containing vinyl ester are formed on the elastic layer. This is a polymer-containing surface layer formed by curing a copolymerized solvent-soluble polymer with melamine.
【0010】[0010]
【発明の実施の形態】以下,本発明の帯電部材につい
て, 本発明の帯電部材の形状および構成例 本発明の帯電部材を用いた帯電装置の構成例 実施例1〜実施例3 の順に図面を参照して詳細に説明する。BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the charging member of the present invention will be described in the form of a charging member of the present invention and a configuration example of a charging device using the charging member of the present invention. This will be described in detail with reference to FIG.
【0011】本発明の帯電部材の形状および構成例 先ず,本発明の帯電部材の形状例について説明する。本
発明の帯電部材は,例えば,図1に示すようなローラ形
状のもので,芯金の形状をなす導電性支持体101と,
導電性支持体101の周囲に設けられた半導電性弾性層
102と,半導電性弾性層102の外周面上に形成され
た表面層103とから構成される。First, an example of the shape of the charging member of the present invention will be described. The charging member of the present invention has, for example, a roller shape as shown in FIG.
It comprises a semiconductive elastic layer 102 provided around the conductive support 101 and a surface layer 103 formed on the outer peripheral surface of the semiconductive elastic layer 102.
【0012】なお,図1において,上記導電性支持体1
01,半導電性弾性層102および表面層103の各層
間の接着性を向上させる接着層を設けても良い。例え
ば,導電性支持体101をカーボンブラック等の導電性
物質を配合した合成ゴム等の導電性プライマで処理して
も良い。In FIG. 1, the conductive support 1
01, an adhesive layer for improving the adhesiveness between the semiconductive elastic layer 102 and the surface layer 103 may be provided. For example, the conductive support 101 may be treated with a conductive primer such as synthetic rubber mixed with a conductive substance such as carbon black.
【0013】上記導電性支持体101としては,鉄,ス
テンレス,アルミニウム等の金属,カーボンブラック分
散樹脂,金属粒子分散樹脂等の導電性樹脂を用いること
ができる。As the conductive support 101, a conductive resin such as a metal such as iron, stainless steel, and aluminum, a resin dispersed with carbon black, and a resin dispersed with metal particles can be used.
【0014】半導電性弾性層102は,その電気抵抗を
107 〜109 Ω・cmの範囲にすると良好な結果が得
られる。したがって,その材料としては,極性ゴムであ
るエピクロルヒドリンゴム,ニトリルゴム,ウレタンゴ
ム,クロロプレンゴム,アクリルゴム等を用いることが
できるが,中でも比較的ゴム自体の電気抵抗が低いこ
と,さらには環境変動が小さいこと等の点より,エピク
ロルヒドリンゴムを使用するものである。Good results can be obtained when the electric resistance of the semiconductive elastic layer 102 is in the range of 10 7 to 10 9 Ω · cm. Therefore, polar rubbers such as epichlorohydrin rubber, nitrile rubber, urethane rubber, chloroprene rubber, and acrylic rubber can be used. Among them, the rubber itself has relatively low electric resistance, and furthermore, environmental fluctuations may occur. Because of its small size, epichlorohydrin rubber is used.
【0015】また,エピクロルヒドリンゴム(略号:E
CO)は,ECOの単独重合体,ECOとエチレンオキ
サイド(略号:EO)との共重合体,ECOとアリルグ
リシジルエーテル(略号:AGE)との共重合体,EC
OとEOとAGEとの三元共重合体(略号:GECO)
があるが,中でも電気抵抗が比較的低いこと,および環
境変動が小さい(すなわち,環境依存性が少ない)等の
点より,GECOが好ましい。Further, epichlorohydrin rubber (abbreviation: E
CO) is a homopolymer of ECO, a copolymer of ECO and ethylene oxide (abbreviation: EO), a copolymer of ECO and allyl glycidyl ether (abbreviation: AGE), EC
Terpolymer of O, EO and AGE (abbreviation: GECO)
Among them, GECO is preferred because of its relatively low electric resistance and small environmental fluctuation (that is, low environmental dependency).
【0016】また,半導電性弾性層102の層厚は,
0.5〜10mmの範囲が良好な結果が得られる。その
理由は,半導電性弾性層102の層厚が0.5mmより
薄くなると感光体を絶縁破壊したり,帯電が不安定にな
ったりする他に,感光体にピンホールがあると,その部
分に電流が集中してリークが生じ易くなり,その結果,
画像に横すじが現れたりするようになる。また,半導電
性弾性層102の層厚が10mmより厚くなると,帯電
効率が低下し,より高い電圧の印加が必要となり,その
結果オゾン発生量が多くなってしまうためである。The thickness of the semiconductive elastic layer 102 is
Good results are obtained in the range of 0.5 to 10 mm. The reason for this is that if the thickness of the semiconductive elastic layer 102 is less than 0.5 mm, the photoreceptor will not only break down the insulation or become unstable, but if there is a pinhole in the photoreceptor, the portion will be damaged. The current is concentrated on the surface and leakage is likely to occur.
Horizontal streaks appear on the image. On the other hand, if the thickness of the semiconductive elastic layer 102 is more than 10 mm, the charging efficiency is reduced, and a higher voltage needs to be applied. As a result, the amount of ozone generated increases.
【0017】この半導電性弾性層102の外周面上に表
面層103として,厚さが1〜20μmの非粘着性の被
膜が形成されている。この表面層103は,帯電部材表
面へのトナー等の付着を抑制して,長期間にわたって良
好な帯電特性を維持させる目的で形成されている。On the outer peripheral surface of the semiconductive elastic layer 102, a non-adhesive film having a thickness of 1 to 20 μm is formed as a surface layer 103. The surface layer 103 is formed for the purpose of suppressing adhesion of toner and the like to the surface of the charging member and maintaining good charging characteristics for a long period of time.
【0018】この目的に対して,半導電性弾性層102
の表面に形成する非粘着性材料として,フルオロオレフ
ィンと水酸基含有ビニルエステルとを共重合した溶剤可
溶性ポリマを,イソシアネートまたはメラミンで硬化さ
せて得られるポリマを含有する表面層103が用いられ
る。For this purpose, the semiconductive elastic layer 102
The surface layer 103 containing a polymer obtained by curing a solvent-soluble polymer obtained by copolymerizing a fluoroolefin and a hydroxyl group-containing vinyl ester with isocyanate or melamine is used as a non-adhesive material formed on the surface of the polymer.
【0019】表面層103を構成する材料は,表面層1
03に用いられるポリマを母体にして表面層103全体
を半導電性弾性層102に調整するために,エピクロル
ヒドリンゴム,ニトリルブタジエンゴム,クロロプレン
ゴム等の導電性ゴム組成物,または,カーボンブラッ
ク,酸化亜鉛,酸化スズ,酸化チタン等の導電性微粉末
を適宜添加させて形成することができるが,中でも電気
抵抗の均一性等の点により,抵抗調整剤としては,導電
性ゴム組成物が好ましい。The material constituting the surface layer 103 is the surface layer 1
In order to adjust the entire surface layer 103 to the semiconductive elastic layer 102 using the polymer used in the base material 03 as a base, a conductive rubber composition such as epichlorohydrin rubber, nitrile butadiene rubber, chloroprene rubber, or carbon black, zinc oxide It can be formed by appropriately adding a conductive fine powder such as tin oxide, titanium oxide, or the like. Among them, a conductive rubber composition is preferable as the resistance adjuster from the viewpoint of uniformity of electric resistance.
【0020】また,表面層103の被膜の厚さは1〜2
0μmとし,特に5〜10μmが好ましい。The thickness of the coating of the surface layer 103 is 1-2.
0 μm, particularly preferably 5 to 10 μm.
【0021】なお,表面層103の抵抗値が1×108
Ω・cm以下では感光体ドラム等に損傷が発生したとき
に耐圧が出せずに好ましくなく,また反対に1×1011
Ω・cm以上では電流が流れにくく,帯電不良が発生す
るおそれがある。Note that the resistance value of the surface layer 103 is 1 × 10 8
When the resistance is less than Ω · cm, it is not preferable because the pressure resistance cannot be obtained when the photosensitive drum is damaged, and 1 × 10 11
Above Ω · cm, it is difficult for current to flow, and charging failure may occur.
【0022】現在のところ表面層103に用いられるポ
リマの母材である溶剤可溶性ポリマは,フルオロオレフ
ィン水酸基含有ビニルエステル共重合体と,フルオロオ
レフィン水酸基含有ビニルエーテル共重合体とがある
が,塗膜のトナー等に対する非粘着性,導電性ゴム組成
物との相容性,導電性微粉末の分散性,あるいは塗料化
したときの経時での液粘度の変化(増粘)が少ない等の
点より,フルオロオレフィン水酸基含有ビニルエステル
共重合体の方が優れていることを見出した。At present, the solvent-soluble polymer which is the base material of the polymer used for the surface layer 103 includes a fluoroolefin hydroxyl group-containing vinyl ester copolymer and a fluoroolefin hydroxyl group-containing vinyl ether copolymer. From the viewpoints of non-adhesion to toner, compatibility with conductive rubber composition, dispersibility of conductive fine powder, and little change in liquid viscosity (thickening) over time when formed into a paint, It has been found that the fluoroolefin hydroxyl group-containing vinyl ester copolymer is superior.
【0023】本発明の帯電部材を用いた帯電装置の構
成例 次に,図2を参照して,上記帯電部材を用いた帯電装置
の構成ついて説明する。図において,201は本発明の
帯電部材を示し,ここでは図1に示したローラ形状の帯
電部材を使用している。また,202は帯電部材201
の芯金に直流電圧を印加するための直流電源を示す。Configuration Example of Charging Device Using Charging Member of the Present Invention Next, a configuration of a charging device using the charging member will be described with reference to FIG. In the figure, reference numeral 201 denotes a charging member of the present invention, in which the roller-shaped charging member shown in FIG. 1 is used. 202 denotes a charging member 201
1 shows a DC power supply for applying a DC voltage to the metal core of FIG.
【0024】なお,図2は,本発明の帯電装置を電子写
真装置に適用した例を示し,この電子写真装置は,ドラ
ム状の電子写真感光体203の周囲上に帯電部材20
1,像露光装置(図示せず),現像手段204,転写帯
電装置205,クリーニング装置206および前露光装
置(図示せず)が配置されている。なお,図において,
207は像露光装置から出射された露光光,208は前
露光装置の前露光光,209は紙等の被転写部材を示
す。FIG. 2 shows an example in which the charging device of the present invention is applied to an electrophotographic apparatus. In this electrophotographic apparatus, a charging member 20 is provided around a drum-shaped electrophotographic photosensitive member 203.
1, an image exposure device (not shown), a developing means 204, a transfer charging device 205, a cleaning device 206, and a pre-exposure device (not shown) are arranged. In the figure,
Reference numeral 207 denotes exposure light emitted from the image exposure device, 208 denotes pre-exposure light of the pre-exposure device, and 209 denotes a member to be transferred such as paper.
【0025】例えば,OPC等の電子写真感光体203
上に接触配置されている帯電部材201の芯金に直流電
源202により電圧(例えば,1.5KV)を印加し,
電子写真感光体203表面を帯電させ,像露光装置によ
って原稿上の画像を電子写真感光体203に像露光して
静電潜像を形成する。For example, an electrophotographic photosensitive member 203 such as an OPC
A voltage (for example, 1.5 KV) is applied by the DC power supply 202 to the core metal of the charging member 201 which is disposed in contact with the upper part,
The surface of the electrophotographic photosensitive member 203 is charged, and an image on an original is image-exposed to the electrophotographic photosensitive member 203 by an image exposure device to form an electrostatic latent image.
【0026】次に,現像装置204の中の現像剤を電子
写真感光体203に付着させることにより,電子写真感
光体203上の静電潜像を現像し,さらに電子写真感光
体203上の現像剤を転写帯電装置205によって,紙
等の被転写部材209に転写し,クリーニング装置20
6によって転写時に紙に転写されずに電子写真感光体2
03上に残った現像剤を回収する。また,電子写真感光
体203に残留電荷が残るような場合には,帯電部材2
01による一時帯電を行う前に,前露光装置によって電
子写真感光体203の残留電荷を除電したほうが良い。Next, the electrostatic latent image on the electrophotographic photosensitive member 203 is developed by attaching the developer in the developing device 204 to the electrophotographic photosensitive member 203, and the developing agent on the electrophotographic photosensitive member 203 is further developed. The transfer agent is transferred to the transfer member 209 such as paper by the transfer charging device 205, and the cleaning device 20
6, the electrophotographic photosensitive member 2 is not transferred to paper at the time of transfer.
The developer remaining on 03 is collected. If residual charge remains on the electrophotographic photosensitive member 203, the charging member 2
Before performing the temporary charging by 01, it is better to remove the residual charge of the electrophotographic photosensitive member 203 by a pre-exposure device.
【0027】以上,上記本発明の帯電部材の形状およ
び構成例,本発明の帯電部材を用いた帯電装置の構成
例を説明することにより,本発明にいたる経過について
説明したが,直流電圧の印加のみで,均一帯電を得よう
とする本発明の帯電部材201の帯電均一性は,交流電
圧の重畳に任せる従来の帯電ローラ(例えば,特開昭6
4−73364号公報,同64−73367号公報)と
では,自ずとその電気特性(R,C)およびローラの層
構成が大きく相違している。すなわち,交流電圧重畳型
は導電性弾性層(カーボンブラック等の導電性粒子を分
散させたゴム)と表面抵抗層よりなり,表面抵抗層がコ
ンデンサーとして機能するため,静電容量が大きく,交
流電圧重畳による帯電電位の均一化効果が大きい。The course up to the present invention has been described above by describing the shape and configuration example of the charging member of the present invention and the configuration example of the charging device using the charging member of the present invention. The charging uniformity of the charging member 201 of the present invention, which seeks to obtain uniform charging only by using a conventional charging roller (for example, Japanese Unexamined Patent Publication No.
The electrical characteristics (R, C) and the layer configuration of the rollers are naturally greatly different from those in JP-A-4-73364 and JP-A-7373367. In other words, the AC voltage superposition type consists of a conductive elastic layer (rubber in which conductive particles such as carbon black are dispersed) and a surface resistance layer. Since the surface resistance layer functions as a capacitor, the capacitance is large. The effect of making the charged potential uniform by superimposition is large.
【0028】これに対して,本発明の直流電圧印加のみ
のタイプは,ローラ層が抵抗体として働く(すなわち,
静電容量が小さい)ため,交流電圧を重畳しても帯電の
均一化にはほとんど寄与してない。On the other hand, in the DC voltage only type of the present invention, the roller layer functions as a resistor (ie,
(Since the capacitance is small), even if the AC voltage is superimposed, it hardly contributes to uniform charging.
【0029】実施例1〜実施例3 以下,本発明の帯電部材について,〔実施例1〕,〔実
施例2〕,〔実施例3〕の順に図面を参照して説明す
る。Embodiments 1 to 3 Hereinafter, the charging member of the present invention will be described in the order of [Embodiment 1], [Embodiment 2], and [Embodiment 3] with reference to the drawings.
【0030】〔実施例1〕実施例1では,帯電部材を以
下の方法で作成する。先ず,導電性支持体101とし
て,φ8mmのステンレス芯金を用いる。次に,半導電
性弾性層102を以下の配合物で作成する。 GECO系エピクロルヒドリン (商品名:エピクロマCG102,ダイソー製) 100 重量部 軽質炭酸カルシウム 30 重量部 サブ (商品名:GT,天満サブ化工製) 10 重量部 亜鉛華 5 重量部 ステアリン酸 0.5 重量部 加硫促進剤 (商品名:ノクセラーTT,大内新興化学製) 1.0 重量部 加硫促進剤 (商品名:ノクセラーDM,大内新興化学製) 1.5 重量部 加硫促進剤 (商品名:バルノックR,大内新興化学製) 1.0 重量部 加硫剤 (商品名:サルファックス,鶴見化学製) 0.25重量部[Embodiment 1] In Embodiment 1, a charging member is prepared by the following method. First, a stainless steel core of φ8 mm is used as the conductive support 101. Next, the semiconductive elastic layer 102 is formed with the following composition. GECO-based epichlorohydrin (trade name: Epichroma CG102, manufactured by Daiso) 100 parts by weight Light calcium carbonate 30 parts by weight Sub (trade name: GT, manufactured by Tenma Sub Chemicals) 10 parts by weight Zinc flower 5 parts by weight Stearic acid 0.5 parts by weight Vulcanization accelerator (trade name: Noxeller TT, manufactured by Ouchi Shinko Chemical) 1.0 parts by weight Vulcanization accelerator (trade name: Noxeller DM, manufactured by Ouchi Shinko Chemical) 1.5 parts by weight Vulcanization accelerator (trade name) : Barnock R, manufactured by Ouchi Shinko Chemical) 1.0 part by weight Vulcanizing agent (trade name: Sulfax, manufactured by Tsurumi Chemical) 0.25 part by weight
【0031】上記配合物を混練して均一な組成のコンパ
ウンドとした後,φ8mmのステンレス芯金(導電性支
持体101)上に一次加硫(金型成形法:150℃×1
5分間),二次加硫(金型成形法:155℃×7時間)
によって,外径φ14mmのローラ状の半導電性弾性層
102を設けた。この弾性ローラの体積抵抗は,2×1
07 Ω・cm,ローラゴム硬度は38度(JisA)で
あった。After kneading the above-mentioned compound to form a compound having a uniform composition, primary vulcanization (mold forming method: 150 ° C. × 1) is performed on a φ8 mm stainless steel core (conductive support 101).
5 minutes), secondary vulcanization (molding method: 155 ° C x 7 hours)
Accordingly, a roller-shaped semiconductive elastic layer 102 having an outer diameter of 14 mm was provided. The volume resistance of this elastic roller is 2 × 1
0 7 Ω · cm and the roller rubber hardness was 38 degrees (JisA).
【0032】ローラの体積抵抗の測定は,ローラを20
℃,60%R.Hの環境中に16時間放置した後,2
5.4mm幅の銅箔テープ(商品名:スコッチNo.1
181,3M製)をローラの円周に巻き付けて電極と
し,ローラ芯金と電極との間に直流1KVを印加し,そ
の1分後の電流値を計測して,芯金と電極間の抵抗値を
求めた。また,ローラのゴム硬度測定は,JisK63
01に記載の硬度計JisAを用いて,ローラの中心軸
方向に対して垂直に加圧して測定した。The measurement of the volume resistance of the roller is as follows.
° C, 60% R.C. After leaving in the environment of H for 16 hours, 2
5.4mm width copper foil tape (trade name: Scotch No. 1)
181 and 3M) are wound around the circumference of the roller to form an electrode, a direct current of 1 KV is applied between the roller core and the electrode, and the current value one minute after that is measured, and the resistance between the core and the electrode is measured. The value was determined. The rubber hardness of the roller was measured using JisK63.
Using a hardness meter JisA described in No. 01, the pressure was measured perpendicular to the center axis direction of the roller.
【0033】次に,前記の半導電性弾性層102の上に
表面層103を次のようにして形成した。先ず,表面層
用塗料液を以下のように調整した。フルオロオレフィン
水酸基含有ビニルエステル共重合体(商品名:ザフロン
FC−110,東亜合成化学工業製)100重量部,イ
ソシアネート硬化剤(商品名:コロネートHX,日本ポ
リウレタン工業製)11重量部,トルエン/キシレン=
1/1の混合溶媒500重量部を十分に攪拌して均一な
溶液とし,これをA溶液とした。Next, a surface layer 103 was formed on the semiconductive elastic layer 102 as follows. First, the coating liquid for the surface layer was prepared as follows. 100 parts by weight of fluoroolefin hydroxyl group-containing vinyl ester copolymer (trade name: Zafflon FC-110, manufactured by Toagosei Chemical Industry), 11 parts by weight of isocyanate curing agent (trade name: Coronate HX, manufactured by Nippon Polyurethane Industry), toluene / xylene =
500 parts by weight of 1/1 mixed solvent was sufficiently stirred to obtain a uniform solution, which was designated as solution A.
【0034】A溶液母材の電気抵抗調整のためのポリマ
溶液を次のように調整した。GECO系エピクロルヒド
リン(商品名:エピクロマCG102,ダイソー製)1
00gを8インチ二本ローラで約15分間素練りを行
い,エピクロルヒドリン生ゴムの可塑性を増大させて,
後に行う有機溶剤処理を容易にした。Solution A A polymer solution for adjusting the electric resistance of the base material was prepared as follows. GECO-based epichlorohydrin (trade name: Epichroma CG102, manufactured by Daiso) 1
100 g is masticated for about 15 minutes with an 8-inch double roller to increase the plasticity of the epichlorohydrin raw rubber.
The subsequent organic solvent treatment was facilitated.
【0035】トルエン/4−メチル−2−ペンタノン=
1/1の混合溶媒100重量部に前記素練り後のエピク
ロルヒドリン生ゴム5重量部を加えて,十分に攪拌して
生ゴムを溶解させてエピクロルヒドリン溶液を作成し
た。Toluene / 4-methyl-2-pentanone =
To 100 parts by weight of a 1/1 mixed solvent was added 5 parts by weight of the above masticated epichlorohydrin raw rubber, and the mixture was sufficiently stirred to dissolve the raw rubber to prepare an epichlorohydrin solution.
【0036】次いで,A溶液100重量部にエピクロル
ヒドリン溶液40重量部を加え,十分に攪拌して表面層
用塗料とした。この表面層用塗料の液粘着について調整
直後と,24時間後について測定した結果を表1に示し
た。なお,粘度測定は,液温度25℃でB型粘度計(東
京計器製)を用いた。Next, 40 parts by weight of the epichlorohydrin solution was added to 100 parts by weight of the solution A, and the mixture was sufficiently stirred to obtain a surface layer paint. Table 1 shows the results obtained by measuring the liquid adhesion of the surface layer paint immediately after the adjustment and after 24 hours. The viscosity was measured using a B-type viscometer (manufactured by Tokyo Keiki) at a liquid temperature of 25 ° C.
【0037】さらに,前記半導電性弾性層102の上
に,前記表面層用塗料を用いて浸漬塗装をした後,10
0℃×2時間で塗膜を硬化させて,厚さ6μmの表面層
103を形成した。また,この帯電ローラ(帯電部材)
の体積抵抗を測定した結果を表1に示した。Further, after the dip coating is performed on the semiconductive elastic layer 102 using the surface layer coating,
The coating film was cured at 0 ° C. for 2 hours to form a surface layer 103 having a thickness of 6 μm. The charging roller (charging member)
Table 1 shows the results of measuring the volume resistance of the sample.
【0038】以上のように作られた帯電ローラ(帯電部
材)を正規現像方式の複写機FT5500(リコー製)
の一次コロナ帯電器の代わりに取り付け,感光体(OP
C)ドラム表面に接触させて従動回転するようにした。
一次帯電電圧として直流電圧−1.4KVを印加し,2
4±1℃,50〜55%R.Hの環境中で連続稼働させ
て,初期,5000枚,10000枚毎の感光体の暗電
位の電位測定および帯電ローラ表面の汚染状態,画像品
質について測定・評価した。The charging roller (charging member) manufactured as described above is used as a regular development type copier FT5500 (manufactured by Ricoh).
A photoconductor (OP) is installed instead of the primary corona charger.
C) The drum was rotated in contact with the drum surface.
A DC voltage of -1.4 KV is applied as a primary charging voltage, and 2
4 ± 1 ° C., 50-55% R.C. The apparatus was continuously operated in the environment of H, and the potential of the dark potential of the photoreceptor was initially measured every 5,000 sheets and every 10,000 sheets, and the contamination state of the charging roller surface and the image quality were measured and evaluated.
【0039】上記測定・評価した結果を表1に示した。
なお,帯電ローラ表面のトナー等による汚染状態を次の
基準で評価した。 二重丸:僅かなトナー等が付着しているが,布等でロー
ラ表面の付着物を簡単に拭きとることができる。 ○:拭きとりで,僅かにトナー等がローラ表面に残存し
ている。 △:完全に拭きとりができず,ローラ表面にトナー等の
薄い膜が残る。 ×:トナー等が強くローラ表面に固着している。Table 1 shows the results of the above measurements and evaluations.
The state of contamination of the surface of the charging roller with toner and the like was evaluated according to the following criteria. Double circle: A small amount of toner or the like is attached, but the attached matter on the roller surface can be easily wiped off with a cloth or the like. :: Toner is slightly left on the roller surface after wiping. Δ: Complete wiping was not possible, and a thin film such as toner remained on the roller surface. X: The toner and the like are strongly fixed to the roller surface.
【0040】[0040]
【表1】 [Table 1]
【0041】〔実施例2〕実施例1と同様の半導電性弾
性層102の上に表面層103を次のように形成した。
先ず,表面層用塗料液を次のように調整した。フルオロ
オレフィン水酸基含有ビニルエステル共重合体(商品
名:ザフロンFC−110,東亜合成化学工業製)10
0重量部,メチル化メラミン硬化剤(商品名:スミジュ
ールM−40S,住友バイエルウレタン製)28重量
部,トルエン/キシレン=1/1の混合溶媒500重量
部を十分に攪拌して均一な溶液とし,これをB溶液とし
た。Example 2 A surface layer 103 was formed on a semiconductive elastic layer 102 as in Example 1 as follows.
First, the coating liquid for the surface layer was prepared as follows. Fluoroolefin hydroxyl group-containing vinyl ester copolymer (trade name: Zafflon FC-110, manufactured by Toa Gosei Chemical Industry) 10
0 parts by weight, 28 parts by weight of a methylated melamine curing agent (trade name: Sumidur M-40S, manufactured by Sumitomo Bayer Urethane), and 500 parts by weight of a mixed solvent of toluene / xylene = 1/1 are sufficiently stirred to obtain a uniform solution. This was designated as solution B.
【0042】B溶液母材の電気抵抗調整のためのポリマ
溶液として,実施例1と同様のエピクロルヒドリン溶液
を用いた。B溶液100重量部にエピクロルヒドリン溶
液35重量部を加え,十分に攪拌して表面層用塗料とし
た。B solution The same epichlorohydrin solution as in Example 1 was used as a polymer solution for adjusting the electrical resistance of the base material. 35 parts by weight of the epichlorohydrin solution was added to 100 parts by weight of the B solution, and the mixture was sufficiently stirred to obtain a coating for the surface layer.
【0043】この表面層用塗料を実施例1と同様にし
て,半導電性弾性層102の上に塗装した後,170℃
×2時間で塗膜を硬化させて,厚さ7μmの表面層10
3を形成した。After the surface layer paint was applied on the semiconductive elastic layer 102 in the same manner as in Example 1, the paint was applied at 170 ° C.
The coating is cured in × 2 hours, and the surface layer 10 having a thickness of 7 μm is cured.
3 was formed.
【0044】表面層用塗料の液粘度および帯電ローラ
(帯電部材)について実施例1と同様に測定・評価した
結果を表1に示した。Table 1 shows the results of measurement and evaluation of the liquid viscosity of the coating material for the surface layer and the charging roller (charging member) in the same manner as in Example 1.
【0045】〔実施例3〕実施例1と同様の半導電性弾
性層102の上に表面層103を次のように形成した。
先ず,表面層用塗料液を次のように調整した。フルオロ
オレフィン水酸基含有ビニルエステル共重合体(商品
名:ザフロンFC−110,東亜合成化学工業製)10
0重量部,ブチル化メラミン硬化剤(商品名:スーパベ
ッカミンL−117−60,大日本インキ化学工業製)
25重量部,トルエン/キシレン=1/1の混合溶媒5
00重量部を十分に攪拌して均一な溶液とし,これをC
溶液とした。Example 3 A surface layer 103 was formed on a semiconductive elastic layer 102 similar to that of Example 1 as follows.
First, the coating liquid for the surface layer was prepared as follows. Fluoroolefin hydroxyl group-containing vinyl ester copolymer (trade name: Zafflon FC-110, manufactured by Toa Gosei Chemical Industry) 10
0 parts by weight, butylated melamine curing agent (trade name: Superbecamine L-117-60, manufactured by Dainippon Ink and Chemicals, Inc.)
25 parts by weight, a mixed solvent of toluene / xylene = 1/1 5
00 parts by weight was sufficiently stirred to obtain a uniform solution.
The solution was used.
【0046】C溶液母材の電気抵抗調整のためのポリマ
溶液として,実施例1と同様のエピクロルヒドリン溶液
を用いた。C溶液100重量部にエピクロルヒドリン溶
液37重量部を加え,十分に攪拌して表面層用塗料とし
た。The same epichlorohydrin solution as in Example 1 was used as a polymer solution for adjusting the electric resistance of the C solution base material. 37 parts by weight of the epichlorohydrin solution was added to 100 parts by weight of the C solution, and the mixture was sufficiently stirred to obtain a surface layer paint.
【0047】この表面層用塗料を実施例1と同様にし
て,半導電性弾性層102の上に塗装した後,170℃
×2時間で塗膜を硬化させて,厚さ10μmの表面層1
03を形成した。After the surface layer paint was applied on the semiconductive elastic layer 102 in the same manner as in Example 1, the paint was applied at 170 ° C.
The coating is cured in × 2 hours, and the surface layer 1 having a thickness of 10 μm
03 was formed.
【0048】表面層用塗料の液粘度および帯電ローラ
(帯電部材)について実施例1と同様に測定・評価した
結果を表1に示した。Table 1 shows the results of measurement and evaluation of the liquid viscosity of the surface layer paint and the charging roller (charging member) in the same manner as in Example 1.
【0049】〔比較例1〕ここで,比較例として比較例
1を以下のようにして作成した。実施例1の半導電性弾
性層102のみのローラを実施例1と同様に評価した結
果を表1に示した。[Comparative Example 1] Here, Comparative Example 1 was prepared as a comparative example as follows. Table 1 shows the results of evaluating the roller having only the semiconductive elastic layer 102 of Example 1 in the same manner as in Example 1.
【0050】〔比較例2〕ここで,比較例として比較例
2を以下のようにして作成した。実施例1と同様の半導
電性弾性層102の上に表面層103を次のように形成
した。先ず,表面層用塗料液を次のように調整した。フ
ルオロオレフィン水酸基含有ビニルエーテル共重合体
(商品名:ルミフロンLF601C主剤,旭硝子製)1
00重量部,イソシアネート硬化剤(商品名:コロネー
トHX,日本ポリウレタン工業製)9重量部,トルエン
/キシレン=1/1の混合溶媒500重量部を十分に攪
拌して均一な溶液とし,これをD溶液とした。[Comparative Example 2] Here, Comparative Example 2 was prepared as a comparative example as follows. A surface layer 103 was formed on a semiconductive elastic layer 102 similar to that in Example 1 as follows. First, the coating liquid for the surface layer was prepared as follows. Fluoroolefin hydroxyl group-containing vinyl ether copolymer (trade name: Lumiflon LF601C main agent, manufactured by Asahi Glass) 1
00 parts by weight, 9 parts by weight of an isocyanate curing agent (trade name: Coronate HX, manufactured by Nippon Polyurethane Industry Co., Ltd.) and 500 parts by weight of a mixed solvent of toluene / xylene = 1/1 are sufficiently stirred to form a uniform solution. The solution was used.
【0051】D溶液母材の電気抵抗調整のためのポリマ
溶液として,実施例1と同様のエピクロルヒドリン溶液
を用いた。D溶液100重量部にエピクロルヒドリン溶
液40重量部を加え,十分に攪拌して表面層用塗料とし
た。D Solution The same epichlorohydrin solution as in Example 1 was used as a polymer solution for adjusting the electrical resistance of the base material. 40 parts by weight of the epichlorohydrin solution was added to 100 parts by weight of the D solution, and the mixture was sufficiently stirred to obtain a coating for the surface layer.
【0052】この表面層用塗料を実施例1と同様にし
て,半導電性弾性層102の上に塗装した後,100℃
×2時間で塗膜を硬化させて,厚さ8μmの表面層10
3を形成した。After this surface layer paint was applied on the semiconductive elastic layer 102 in the same manner as in Example 1, the paint was applied at 100 ° C.
The coating film is cured in × 2 hours, and the surface layer 10 having a thickness of 8 μm is cured.
3 was formed.
【0053】表面層用塗料の液粘度および帯電ローラ
(帯電部材)について実施例1と同様に測定・評価した
結果を表1に示した。Table 1 shows the results of measurement and evaluation of the liquid viscosity of the surface layer paint and the charging roller (charging member) in the same manner as in Example 1.
【0054】〔比較例3〕ここで,比較例として比較例
3を以下のようにして作成した。実施例1と同様の半導
電性弾性層102の上に表面層103を次のように形成
した。先ず,表面層用塗料液を次のように調整した。フ
ルオロオレフィン水酸基含有ビニルエーテル共重合体
(商品名:ルミフロンLF601,旭硝子製)100重
量部,メチル化メラミン硬化剤(商品名:サイメル30
3,三井サイアナミッド製)16重量部,,トルエン/
キシレン=1/1の混合溶媒500重量部を十分に攪拌
して均一な溶液とし,これをE溶液とした。Comparative Example 3 Here, Comparative Example 3 was prepared as a comparative example as follows. A surface layer 103 was formed on a semiconductive elastic layer 102 similar to that in Example 1 as follows. First, the coating liquid for the surface layer was prepared as follows. 100 parts by weight of a fluoroolefin hydroxyl group-containing vinyl ether copolymer (trade name: Lumiflon LF601, manufactured by Asahi Glass), a methylated melamine curing agent (trade name: Cymel 30)
3, Mitsui Cyanamid) 16 parts by weight, toluene /
500 parts by weight of a mixed solvent of xylene = 1/1 was sufficiently stirred to obtain a uniform solution, which was used as an E solution.
【0055】E溶液母材の電気抵抗調整のためのポリマ
溶液として,実施例1と同様のエピクロルヒドリン溶液
を用いた。E溶液100重量部にエピクロルヒドリン溶
液42重量部を加え,十分に攪拌して表面層用塗料とし
た。E Solution The same epichlorohydrin solution as in Example 1 was used as a polymer solution for adjusting the electric resistance of the base material. To 100 parts by weight of the E solution was added 42 parts by weight of the epichlorohydrin solution, and the mixture was sufficiently stirred to obtain a coating for the surface layer.
【0056】この表面層用塗料を実施例1と同様にし
て,半導電性弾性層102の上に塗装した後,170℃
×2時間で塗膜を硬化させて,厚さ6μmの表面層10
3を形成した。After the surface layer paint was applied on the semiconductive elastic layer 102 in the same manner as in Example 1, the paint was applied at 170 ° C.
The coating film is cured in × 2 hours, and the surface layer 10 having a thickness of 6 μm is cured.
3 was formed.
【0057】表面層用塗料の液粘度および帯電ローラ
(帯電部材)について実施例1と同様に測定・評価した
結果を表1に示した。Table 1 shows the results of measurement and evaluation of the liquid viscosity of the coating material for the surface layer and the charging roller (charging member) in the same manner as in Example 1.
【0058】前述したように実施例1〜実施例3および
比較例1〜比較例3から明らかなように,本発明の帯電
部材を直流電圧印加で用いることにより,トナーに対す
る非粘着性,帯電特性が長期間にわたって初期特性をほ
ぼ維持することができる。すなわち,長期間にわたって
帯電部材の表面にトナーや,紙粉等が付着するのを抑制
して,帯電部材の耐久性を向上させることができ,安定
した画像特性(すなわち,画像品質)が得られる。As is apparent from Examples 1 to 3 and Comparative Examples 1 to 3, as described above, the non-adhesiveness to toner and the charging characteristics by using the charging member of the present invention by applying a DC voltage. Can substantially maintain the initial characteristics over a long period of time. That is, it is possible to improve the durability of the charging member by suppressing adhesion of toner, paper powder, and the like to the surface of the charging member for a long period of time, and to obtain stable image characteristics (that is, image quality). .
【0059】また,表面層103を形成する表面層用塗
料は,経時による液粘度の変化が少ないので,例えば,
帯電ローラ(帯電部材)を量産する時,表面層103
(塗膜)の厚みを均一に作成できる。すなわち,帯電ロ
ーラ(帯電部材)の量産の管理が容易である。Further, the coating material for the surface layer forming the surface layer 103 has a small change in the liquid viscosity over time.
When mass-producing the charging roller (charging member), the surface layer 103
The thickness of the (coating film) can be made uniform. That is, it is easy to manage the mass production of the charging roller (charging member).
【0060】[0060]
【発明の効果】以上説明したように,本発明の帯電部材
(請求項1)は,弾性層上に,フルオロオレフィンと水
酸基含有ビニルエステルとを共重合した溶剤可溶性ポリ
マをイソシアネートで硬化させて得られるポリマを含有
する表面層を形成したため,帯電部材表面の非粘着性が
向上するので,帯電部材の表面にトナーや,紙粉等が付
着するのを抑制して,長期間にわたって安定した帯電特
性得られるようになる。すなわち,長期間にわたって良
好な出力画像品質を維持することができる。As described above, the charging member of the present invention (claim 1) is obtained by curing a solvent-soluble polymer obtained by copolymerizing a fluoroolefin and a hydroxyl group-containing vinyl ester with an isocyanate on the elastic layer. Since the surface layer containing the polymer to be formed is formed, the non-adhesiveness of the charging member surface is improved, so that toner and paper dust are prevented from adhering to the surface of the charging member, and the charging characteristics are stable over a long period of time. Will be obtained. That is, good output image quality can be maintained over a long period of time.
【0061】また,表面層用塗料の経時による液粘度の
変化が少ないので,例えば,帯電ローラ(帯電部材)を
量産する時,弾性層の表面(塗膜)の厚みを均一に作成
できる。すなわち,帯電ローラ(帯電部材)の量産の管
理が容易になる。Further, since the viscosity of the liquid for the surface layer changes little with time, for example, when mass-producing a charging roller (charging member), the thickness of the surface (coating film) of the elastic layer can be made uniform. That is, management of mass production of the charging roller (charging member) becomes easy.
【0062】また,本発明の帯電部材(請求項2)は,
弾性層上に,フルオロオレフィンと水酸基含有ビニルエ
ステルとを共重合した溶剤可溶性ポリマをメラミンで硬
化させて得られるポリマを含有する表面層を形成したた
め,帯電部材表面の非粘着性が向上するので,帯電部材
の表面にトナーや,紙粉等が付着するのを抑制して,長
期間にわたって安定した帯電特性得られるようになる。
すなわち,長期間にわたって良好な出力画像品質を維持
することができる。Further, the charging member of the present invention (Claim 2) is
Since a surface layer containing a polymer obtained by curing a solvent-soluble polymer obtained by copolymerizing a fluoroolefin and a hydroxyl group-containing vinyl ester with melamine is formed on the elastic layer, the non-adhesiveness of the charging member surface is improved. Adhesion of toner, paper powder, and the like to the surface of the charging member is suppressed, and stable charging characteristics can be obtained over a long period of time.
That is, good output image quality can be maintained over a long period of time.
【0063】また,表面層用塗料の経時による液粘度の
変化が少ないので,例えば,帯電ローラ(帯電部材)を
量産する時,弾性層の表面(塗膜)の厚みを均一に作成
できる。すなわち,帯電ローラ(帯電部材)の量産の管
理が容易になる。Further, since the change in the liquid viscosity of the paint for the surface layer with the passage of time is small, for example, when mass-producing a charging roller (charging member), the thickness of the surface (coating film) of the elastic layer can be made uniform. That is, management of mass production of the charging roller (charging member) becomes easy.
【図1】本発明の帯電部材の形状および構成例を示す説
明図である。FIG. 1 is an explanatory view showing a shape and a configuration example of a charging member of the present invention.
【図2】本発明の帯電部材を用いた帯電装置の構成例を
示す説明図である。FIG. 2 is an explanatory diagram showing a configuration example of a charging device using the charging member of the present invention.
101 導電性支持体 102 半導電性弾性層 103 表面層 201 帯電部材 Reference Signs List 101 conductive support 102 semiconductive elastic layer 103 surface layer 201 charging member
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) G03G 15/02 G03G 15/08 F16C 13/00 G03G 15/16 103 ──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. 7 , DB name) G03G 15/02 G03G 15/08 F16C 13/00 G03G 15/16 103
Claims (2)
ムを主体とする弾性層を形成した帯電部材において,前
記弾性層上に,フルオロオレフィンと水酸基含有ビニル
エステルとを共重合した溶剤可溶性ポリマをイソシアネ
ートで硬化させて得られるポリマを含有する表面層を形
成したことを特徴とする帯電部材。1. A charging member in which an elastic layer mainly composed of epichlorohydrin rubber is formed on a conductive support, wherein a solvent-soluble polymer obtained by copolymerizing a fluoroolefin and a hydroxyl group-containing vinyl ester with isocyanate on the elastic layer. A charging member having a surface layer containing a polymer obtained by curing.
ムを主体とする弾性層を形成した帯電部材において,前
記弾性層上に,フルオロオレフィンと水酸基含有ビニル
エステルとを共重合した溶剤可溶性ポリマをメラミンで
硬化させて得られるポリマを含有する表面層を形成した
ことを特徴とする帯電部材。2. A charging member having an elastic layer mainly composed of epichlorohydrin rubber formed on a conductive support, wherein a solvent-soluble polymer obtained by copolymerizing a fluoroolefin and a hydroxyl group-containing vinyl ester with melamine is formed on the elastic layer. A charging member having a surface layer containing a polymer obtained by curing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP18452795A JP3333069B2 (en) | 1995-07-20 | 1995-07-20 | Charging member |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP18452795A JP3333069B2 (en) | 1995-07-20 | 1995-07-20 | Charging member |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0934217A JPH0934217A (en) | 1997-02-07 |
JP3333069B2 true JP3333069B2 (en) | 2002-10-07 |
Family
ID=16154764
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP18452795A Expired - Fee Related JP3333069B2 (en) | 1995-07-20 | 1995-07-20 | Charging member |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3333069B2 (en) |
-
1995
- 1995-07-20 JP JP18452795A patent/JP3333069B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH0934217A (en) | 1997-02-07 |
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