JP3569454B2 - Developing roller - Google Patents

Description

【００１２】
（ただし、Ｘ_１ 乃至Ｘ_８ は水素原子、メチロール、ブチロール、メトキシメチル、ブトキシメチル基などを表す。）
【００１３】
本発明者らはフタログアナミン、フタログアナミン誘導体または、フタログアナミン系縮合物を現像ローラ表面層に含有させることにより、本発明の目的である、長期にわたってトナーに安定した帯電量を付与し、地肌かぶりを防止することが可能であることを見い出した。
【００１４】
請求項２に記載の現像ローラは、トナーを担持して回転しながら、静電潜像が形成された像担持体に接触または近接して該像担持体の表面にトナーを供給することによって、前記静電潜像を可視化する現像ローラであって、外周の表面層が、主鎖または側鎖末端にヒドロキシル基を有する樹脂またはプレポリマーと、フタログアナミン、フタログアナミン誘導体、フタログアナミン系縮合物のうち１種以上とからなる縮合架橋物を含有することを特徴とする。
【００１５】
上記フタログアナミン系縮合物は、フタログアナミン誘導体の脱水反応や、脱アルコール反応により得られる縮合反応物であり、構造式が下記［化２］で示されるものである。
【００１６】
【化２】

【００１７】
本発明者らは、フタログアナミン誘導体、あるいはその縮合物との反応性を有する、ヒドロキシル基（水酸基）を含有する樹脂またはプレポリマーをフタログアナミン誘導体あるいは、その縮合物で架橋反応させて得られる縮合架橋物をローラ表面層中に含有させることにより、感光体汚染やトナーのタッキング防止、さらには弾性層に対する粘着や、表面層のヒビ割れ防止に効果的な現像ローラが得られることを見い出したものである。
【００１８】
【実施の形態】
以下、本発明の実施の形態を、図面を参照しながら説明する。図１は本発明に係わる現像ローラを用いた現像装置の概略説明図である。
この現像装置において現像ローラ１、芯軸の周囲にスポンジ層を形成してなる補給ローラ２、およびトナー搬送部材３は、ケース４の側板に軸支されている。トナーはトナー搬送部材３および補給ローラ２を介して現像ローラ１の表面に供給される。
現像ローラ１（トナー担持体）上のトナーは、トナー層形成部材５によって所定量に薄層化され、現像ローラ１の回転により感光体６に搬送される。現像ローラ１は感光体６に平行に接触し、電源７の板バネ電極を介して感光体６の帯電電位と光書き込み後（露光後）の残留電位とのほぼ中間のバイアス電圧が印加される。
現像ローラ１上のトナーは感光体６との接触部に搬送され、感光体電位と現像バイアスによる現像電界に応じて帯電したトナーが感光体６に付着し、静電潜像が可視像化される。
【００１９】
図２は現像ローラ１の構造を示す断面図である。現像ローラ１は、金属からなる芯軸１１の周囲にゴムまたはエラストマーからなる弾性層１２と、その周囲に表面層１３とを被覆して構成されたものである。
弾性層１２の材料としては例えば、エチレンプロピレンゴム、ブタジエンゴム、ニトリルゴム、スチレンゴム、イソプレンゴム、シリコーンゴム、ウレタンゴムまたはフォームなど公知のゴムやエラストマーが使用可能である。表面層１３を形成するには、弾性層１２の周囲に例えばディップ法、スプレーコート、ロールコートなど公知のコーティング法により塗膜を形成するか、あるいはチューブ状の成形物で弾性層１２の周囲を被覆すれば良い。
【００２０】
つぎに、本発明の実施例および比較例について説明する。
実施例１
接着剤を塗布したφ８ｍｍのＳＵＳ芯軸の周囲に、弾性層として下記組成からなるエピクロルヒドリンゴムをクロス押し出し成形後、加熱加硫を行った。その後、外径研削によりφ２０ｍｍに調整することで６ｍｍ厚の弾性層を得た。
エピクロルヒドリンゴム １００重量部
炭酸カルシウム ３０重量部
加硫促進剤 ３重量部
イオウ １重量部
【００２１】
つぎに、下記組成からなる材料を弾性層上にスプレーコートし、この塗膜を１５０℃×１時間の条件で焼成して表面層を形成した。
アクリル樹脂 ７０重量部
フタログアナミンの縮合物 ３０重量部
【００２２】
実施例２
実施例１と同様に弾性層を形成した後、下記組成の架橋物からなる表面層をスプレーコートで形成し、この表面層を１５０℃×１時間の条件で焼成した。
アクリルポリオール ７０重量部
フタログアナミン ３０重量部
【００２３】
実施例３
実施例１と同様に弾性層を形成した後、下記組成の架橋物からなる表面層をスプレーコートによって形成し、１５０℃×１時間の条件で焼成した。
ポリエステルポリオール ７０重量部
フタログアナミン ３０重量部
【００２４】
比較例１
実施例１と同様に弾性層を形成した後、アクリル樹脂のみからなる表面層をスプレーコートによって形成し、１５０℃×１時間の条件で焼成した。
【００２５】
比較例２
実施例１と同様に弾性層を形成した後、下記組成の架橋物からなる表面層をスプレーコートによって形成し、１５０℃×１時間の焼成を行った。
アクリルポリオール ７０重量部
ベンゾグアナミン ３０重量部
【００２６】
実施例１〜３および比較例１，２で得られた現像ローラについて、トナー帯電性とそれに関わる地肌かぶり、および画像濃度の安定性を、２３℃×５０％ＲＨの環境および３０℃×８０％ＲＨの環境で評価した。また、長期の使用による安定性を１万枚プリント後に評価した。さらに、現像ローラと感光体との当接放置による感光体汚染、また１万枚プリント後の膜（表面層）のヒビ割れの有無についても評価を行った。結果を下記［表１］〜［表４］に示す。
【００２７】
ただし、［表１］および［表２］は、「使用初期」の現像ローラに係わるものであり、［表３］および［表４］は１万枚プリント後の現像ローラに係わるものである。また、これらの表において◎は「特に優れる」、○は「良好」、△は「やや劣る」、×は「劣る」を示す。
【００２８】
【表１】

【００２９】
【表２】

【００３０】
【表３】

【００３１】
【表４】

【００３２】
実施例１と比較例１との比較から、本発明のフタログアナミン系化合物を表面層に含有させることにより、トナーの帯電性が向上していることがわかる。またこれにより地肌かぶりが抑えられ、画像濃度の安定性も向上している。
ただし、実施例１においては、フタログアナミン系化合物との反応性がないアクリル樹脂を用いているため無架橋であるころから、表面層が弾性層からのブリードをブロックすることができず感光体の汚染防止性が劣っている。また、膜のヒビ割れがある。
【００３３】
主鎖および側鎖末端にヒドロキシル基を導入したアクリルポリオールを用いた実施例２では、焼成によってヒドロキシル基とフタログアナミン化合物との脱水・脱アルコールによる縮合反応によってヒドロキシル基を架橋点とした架橋反応が起こる。
これによって表面層の膜強度が増加し、長期にわたる使用においてもヒビ割れすることなく耐久性が確保できる。また、感光体の汚染防止性も向上する。
さらに比較例２との比較から、ベンゾグアナミン系化合物よりもフタログアナミン系化合物を用いたほうが、経時でのトナー帯電量の低下が少ないことが分かる。
このような結果になったのは、フタログアナミンは両端にトリアジン環を有しているため、表面層の塗膜表面にはこれらのトリアジン環の少なくとも一方が存在するのに対し、ベンゾクアナミン系化合物ではトリアジン環が塗膜中で偏在しやすいためと考えられる。
【００３４】
実施例３は、アクリルポリオールに代えてポリエステルポリオールを用いたものであるが、この場合も同様にトナー帯電性、すなわち地肌かぶりや画像濃度安定性が良好で、かつ耐久性、感光体汚染防止性も確保できる。すなわち、主鎖または側鎖末端にヒドロキシル基を有する樹脂またはプレポリマーと、フタログアナミン系化合物とからなる縮合架橋物を表面層に含有せしめることで、本発明の目的が達成される。
【００３５】
【発明の効果】
以上の説明で明らかなように、本発明によれば以下の効果が得られる。
（１）請求項１の発明による効果
この現像ローラでは、表面層にフタログアナミン、フタログアナミン誘導体またはフタログアナミン系縮合物を含有するので、高温多湿環境における使用、長期にわたる使用においても、トナーに充分な帯電量を付与することができ、地肌かぶりや濃度低下のない画像を安定して形成することができる。
【００３６】
（２）請求項２の発明による効果
この現像ローラでは表面層に、主鎖または側鎖末端にヒドロキシル基を有する樹脂またはプレポリマーと、フタアログアナミン、フタログアナミン誘導体、フタログアナミン系縮合物のうち１種以上とからなる縮合架橋物を含有しているので、高温多湿環境における使用、長期にわたる使用においても、トナーに充分な帯電量を付与することができ、地肌かぶりや濃度低下のない画像を安定して形成することができるとともに、この現像ローラを感光体に当接させた状態で放置しても感光体が汚染することがなく、また長期にわたる使用においても、膜のヒビ割れ等のない、耐久性の高い現像ローラを提供することができる。
【図面の簡単な説明】
【図１】本発明の現像ローラを用いた現像装置の概略説明図である。
【図２】本発明の現像ローラの構造を示す断面図である。
【符号の説明】
１ 現像ローラ
２ 補給ローラ
３ トナー搬送部材
４ ケース
５ トナー層形成部材
６ 感光体
７ 電源
１１ 芯軸
１２ 弾性層
１３ 表面層[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a dry one-component toner developing roller in an electrophotographic apparatus.
[0002]
[Prior art]
2. Description of the Related Art In recent years, maintenance has been simplified in electrophotographic apparatuses such as copiers, printers, and facsimile machines, especially in the field of small machines, and a dry type one-component toner developing method has been put to practical use.
[0003]
In particular, there are various types of contact developing method for a photoreceptor using a developing roller composed of an elastic material such as rubber or elastomer as disclosed in Japanese Patent Application Laid-Open No. 53-3233, and various developing rollers used for the same. Proposed.
In this contact developing method, an elastic developing roller is brought into contact with a drum photoreceptor on which an electrostatic latent image is formed, and the toner thinned on the surface of the developing roller is moved in accordance with a developing electric field, so that a visible image is formed. Image. This method has an advantage that colorization is easy without using a magnetic material for the toner.
[0004]
In order to bring the developing roller into contact with the photoreceptor, the developing roller has a structure in which an elastic layer made of conductive synthetic rubber, urethane foam, or the like is formed around a metal shaft. This developing roller is used to prevent contamination of the photoreceptor due to bleed-out of plasticizers and low molecular components from the rubber or urethane foam of the elastic layer, or adhesion (tacking) or filming of the toner around the elastic layer. In general, the elastic layer has a structure in which a surface layer made of a resin having good toner release properties is coated to block bleeding of a plasticizer or the like on the surface of the elastic layer.
[0005]
[Problems to be solved by the invention]
In such a conventional developing roller, it is necessary to control the polarity and amount of toner charging by frictional charging due to contact between the toner and the surface of the developing roller. The movement of the toner to the photoconductor is performed by selecting an image portion and a background portion (non-image portion) of the electrostatic latent image according to the charging polarity of the toner and the developing electric field. When the charge amount of the toner is low and the amount of toner having the opposite polarity is large, toner adheres to a background portion, and there is a problem that the background portion is fogged (background fog) in an output image on transfer paper. Further, when the charge amount of the toner is low and its rise is poor, a difference in image density occurs between the front end and the rear end of the sheet. Further, there is a problem that density stability is deteriorated such as appearance of ghost. Further, in a high-temperature and high-humidity environment, in particular, the charge amount of the toner tends to decrease, the background fog tends to occur, and the image density tends to become unstable.
[0006]
Even if such a problem does not occur in the early stage of use, as the number of prints increases, the toner may film on the surface of the developing roller as the number of printed sheets increases, and the coating film itself may be damaged. The charge amount of the toner is reduced due to deterioration (scraping) and the like, and the background fog is increased. Due to such a problem that sufficient image density cannot be obtained due to such a problem, there has been a problem that sufficient durability cannot be obtained in practical use.
[0007]
From such a problem, it is important to impart a stable charge amount to the toner on the surface layer of the developing roller even in an environment and a long-term use. Further, since the surface layer rotates while being pressed by the photoreceptor or the toner seal member, a problem such as a crack may occur due to long-term use. Since the cracks appear as image defects in the output image, it is necessary to have sufficient flexibility to follow the deformation of the elastic layer pressed by the outer layer.
[0008]
The present invention has been made in view of such various problems, and an object thereof is to provide a toner with a stable power outage amount even when used in a high-temperature and high-humidity environment or when used continuously for a long period of time. Accordingly, it is an object of the present invention to provide a developing roller having stable durability for a long period of time without causing background fogging or image density reduction and without causing a surface layer to crack.
[0009]
[Means for Solving the Problems]
The developing roller according to claim 1 is configured to supply the toner to the surface of the image carrier in contact with or close to the image carrier on which the electrostatic latent image is formed while rotating while carrying the toner. A developing roller for visualizing the electrostatic latent image, wherein an outer peripheral surface layer contains one or more of phthalologamine, a phthalologamine derivative, and a phthalologamine condensate.
[0010]
Phthaloganamine and phthalologamine derivatives have a structural formula represented by the following [Formula 1].
[0011]
Embedded image

[0012]
(However, _{X 1} to _{X 8} each represents a hydrogen atom, a methylol, Buchiroru, methoxymethyl, and the like butoxymethyl group.)
[0013]
The present inventors provide a stable charge amount to a toner for a long period of time, which is an object of the present invention, by including a phthalocyanine, a phthalocyanine derivative, or a phthalocyanine-based condensate in a surface layer of a developing roller. Has been found to be possible.
[0014]
The developing roller according to claim 2, while carrying the toner and rotating, supplies the toner to the surface of the image carrier in contact with or close to the image carrier on which the electrostatic latent image is formed, A developing roller for visualizing the electrostatic latent image, wherein the outer peripheral surface layer is a resin or a prepolymer having a hydroxyl group at a main chain or a side chain terminal, and phthaloguanamine, a phthaloguanamine derivative, and a phthaloanamin-based condensate. It is characterized by containing a condensation crosslinked product comprising at least one of them.
[0015]
The phthalologamine-based condensate is a condensate obtained by a dehydration reaction or a dealcoholation reaction of a phthalologamine derivative, and has a structural formula represented by the following [Chemical Formula 2].
[0016]
Embedded image

[0017]
The present inventors have proposed a condensation reaction obtained by subjecting a resin or prepolymer containing a hydroxyl group (hydroxyl group) having a reactivity with a phthalocyanine derivative or a condensate thereof to a cross-linking reaction with the phthalocyanine derivative or the condensate thereof. It has been found that by including a crosslinked product in the roller surface layer, it is possible to obtain a developing roller that is effective in preventing photoreceptor contamination, toner tacking, adhesion to the elastic layer, and crack prevention in the surface layer. It is.
[0018]
Embodiment
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic explanatory view of a developing device using a developing roller according to the present invention.
In this developing device, a developing roller 1, a supply roller 2 having a sponge layer formed around a core shaft, and a toner conveying member 3 are supported by a side plate of a case 4. The toner is supplied to the surface of the developing roller 1 via the toner conveying member 3 and the supply roller 2.
The toner on the developing roller 1 (toner carrier) is thinned to a predetermined amount by the toner layer forming member 5 and is conveyed to the photoconductor 6 by the rotation of the developing roller 1. The developing roller 1 contacts the photoconductor 6 in parallel, and a bias voltage substantially intermediate between the charged potential of the photoconductor 6 and the residual potential after optical writing (after exposure) is applied via a leaf spring electrode of the power supply 7. .
The toner on the developing roller 1 is conveyed to a contact portion with the photoconductor 6, and the charged toner adheres to the photoconductor 6 according to the developing electric field by the photoconductor potential and the developing bias, and the electrostatic latent image is visualized. Is done.
[0019]
FIG. 2 is a sectional view showing the structure of the developing roller 1. The developing roller 1 is configured such that a core shaft 11 made of metal is covered with an elastic layer 12 made of rubber or elastomer, and a surface layer 13 is covered around the elastic layer 12.
As the material of the elastic layer 12, for example, a known rubber or elastomer such as ethylene propylene rubber, butadiene rubber, nitrile rubber, styrene rubber, isoprene rubber, silicone rubber, urethane rubber, or foam can be used. In order to form the surface layer 13, a coating film is formed around the elastic layer 12 by a known coating method such as a dip method, a spray coat, a roll coat, or the periphery of the elastic layer 12 is formed by a tubular molded product. What is necessary is just to coat.
[0020]
Next, examples and comparative examples of the present invention will be described.
Example 1
An epichlorohydrin rubber having the following composition was cross-extruded and formed as an elastic layer around a SUS core shaft having a diameter of φ8 mm to which an adhesive was applied, and then heated and vulcanized. Thereafter, the diameter was adjusted to 20 mm by outer diameter grinding to obtain a 6 mm-thick elastic layer.
Epichlorohydrin rubber 100 parts by weight Calcium carbonate 30 parts by weight Vulcanization accelerator 3 parts by weight Sulfur 1 part by weight
Next, a material having the following composition was spray-coated on the elastic layer, and the coated film was fired at 150 ° C. for 1 hour to form a surface layer.
70 parts by weight of acrylic resin 30 parts by weight of condensate of phthaloanamin
Example 2
After forming an elastic layer in the same manner as in Example 1, a surface layer composed of a crosslinked material having the following composition was formed by spray coating, and this surface layer was baked at 150 ° C. × 1 hour.
Acrylic polyol 70 parts by weight Phthaloganamin 30 parts by weight
Example 3
After forming the elastic layer in the same manner as in Example 1, a surface layer composed of a crosslinked product having the following composition was formed by spray coating, and baked at 150 ° C. for 1 hour.
Polyester polyol 70 parts by weight Phthaloganamin 30 parts by weight
Comparative Example 1
After forming the elastic layer in the same manner as in Example 1, a surface layer consisting only of an acrylic resin was formed by spray coating, and baked at 150 ° C. for 1 hour.
[0025]
Comparative Example 2
After forming the elastic layer in the same manner as in Example 1, a surface layer composed of a crosslinked product having the following composition was formed by spray coating, and baked at 150 ° C. × 1 hour.
Acrylic polyol 70 parts by weight Benzoguanamine 30 parts by weight
Regarding the developing rollers obtained in Examples 1 to 3 and Comparative Examples 1 and 2, the toner chargeability, the background fog related thereto, and the stability of the image density were measured in an environment of 23 ° C. × 50% RH and 30 ° C. × 80%. The evaluation was made in the environment of RH. Further, the stability after long-term use was evaluated after printing 10,000 sheets. Further, the evaluation was also made on the photoreceptor contamination due to the contact between the developing roller and the photoreceptor and the presence or absence of cracks in the film (surface layer) after printing 10,000 sheets. The results are shown in Tables 1 to 4 below.
[0027]
However, [Table 1] and [Table 2] relate to the developing roller in “early use”, and [Table 3] and [Table 4] relate to the developing roller after printing 10,000 sheets. In these tables, ◎ indicates “especially excellent”, ○ indicates “good”, Δ indicates “slightly inferior”, and X indicates “poor”.
[0028]
[Table 1]

[0029]
[Table 2]

[0030]
[Table 3]

[0031]
[Table 4]

[0032]
From a comparison between Example 1 and Comparative Example 1, it can be seen that the charging property of the toner is improved by including the phthalologamine compound of the present invention in the surface layer. This also reduces background fog and improves image density stability.
However, in Example 1, since the acrylic resin having no reactivity with the phthalocyanine compound was used, it was not crosslinked, so that the surface layer could not block bleed from the elastic layer, and the Poor pollution control. In addition, the film has cracks.
[0033]
In Example 2 using an acrylic polyol having a hydroxyl group introduced into a main chain and a terminal of a side chain, a crosslinking reaction in which a hydroxyl group was a crosslinking point by a condensation reaction of dehydration and dealcoholation of a hydroxyl group and a phthaloguanamine compound by calcination was carried out. Occur.
As a result, the film strength of the surface layer is increased, and durability can be ensured without cracking even during long-term use. Further, the contamination prevention property of the photoconductor is also improved.
Further, from the comparison with Comparative Example 2, it can be seen that the use of the phthaloguanamine compound compared to the benzoguanamine compound causes less decrease in the toner charge amount over time.
Such a result was obtained because phthaloguanamine has triazine rings at both ends, and at least one of these triazine rings is present on the surface of the coating film of the surface layer, whereas the benzoquanamine-based compound has This is probably because the triazine ring tends to be unevenly distributed in the coating film.
[0034]
In Example 3, a polyester polyol was used in place of the acrylic polyol. In this case, similarly, the toner chargeability, that is, the background fog and the image density stability were good, and the durability and the photoreceptor contamination prevention properties were also good. Can also be secured. That is, the object of the present invention is achieved by allowing a surface layer to contain a condensation crosslinked product comprising a resin or prepolymer having a hydroxyl group at the terminal of a main chain or a side chain, and a phthalocyanine compound.
[0035]
【The invention's effect】
As apparent from the above description, the following effects can be obtained according to the present invention.
(1) Effect of the invention of claim 1 In this developing roller, since the surface layer contains phthalologamine, a phthalologamine derivative or a phthalologamine condensate, the toner is sufficient for the toner even in a high-temperature and high-humidity environment or for a long time. Therefore, it is possible to stably form an image without background fog or density reduction.
[0036]
(2) Effect of the invention of claim 2 In this developing roller, a resin or a prepolymer having a hydroxyl group at a main chain or a side chain terminal in a surface layer and phthalologamine, a phthalologamine derivative, or a phthalologamine condensate Since it contains a condensation cross-linking product composed of at least one kind, the toner can be provided with a sufficient charge amount even in a high-temperature and high-humidity environment or a long-term use, and an image without background fog or density reduction can be obtained. It can be formed stably, does not contaminate the photoreceptor even if the developing roller is left in contact with the photoreceptor, and does not crack the film even when used for a long time. Thus, a highly durable developing roller can be provided.
[Brief description of the drawings]
FIG. 1 is a schematic explanatory view of a developing device using a developing roller of the present invention.
FIG. 2 is a cross-sectional view illustrating a structure of a developing roller of the present invention.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 developing roller 2 replenishing roller 3 toner transport member 4 case 5 toner layer forming member 6 photoconductor 7 power supply 11 core shaft 12 elastic layer 13 surface layer

Claims (2)

A developing roller that visualizes the electrostatic latent image by supplying toner to the surface of the image carrier in contact with or near the image carrier on which the electrostatic latent image has been formed while rotating while carrying the toner A developing roller, wherein the outer peripheral surface layer contains one or more of phthalologamine, a phthalologamine derivative, and a phthalologamine condensate. A developing roller that visualizes the electrostatic latent image by supplying toner to the surface of the image carrier in contact with or near the image carrier on which the electrostatic latent image has been formed while rotating while carrying the toner Wherein the outer peripheral surface layer is a condensation crosslinked product comprising a resin or prepolymer having a hydroxyl group at a main chain or a side chain terminal and at least one of phthaloguanamine, a phthaloanamin derivative, and a phthaloanamin condensate. A developing roller comprising:

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