JP3664226B2 - Image forming apparatus - Google Patents

Description

【００１７】
表１および図１ないし図４から、定着温度の約１６５℃〜１８５℃の範囲で、グロス値はイエロー、マゼンタ、シアン、ブラックとも定着速度にほとんど関係することなく、全体的に定着温度の増減に対し概略直線状に増減することがわかる。特に、従来からの通常の定着速度ではイエロー、マゼンタ、シアン、ブラックともグロス値が定着温度の増減に対し概略直線状に増減することが顕著に現れている。なお、実験結果においてグロス値の一部が概略直線状に変化しないのは、主にトナーのバインダー樹脂の軟化点に±２〜３℃のばらつきがあることに起因していると考えられる。
【００１８】
この実験結果に基づいて、本発明のトナーは、軟化点が互いに異なる２種類以上のトナーを混合して形成されており、トナーの組成は、トナー母粒子であるバインダー樹脂、帯電制御剤（５ｗｔ％以下）、離型剤（５ｗｔ％以下）、着色剤（各色毎１０ｗｔ％以下）、外添剤（１〜２ｗｔ％）からなっている。バインダー樹脂としてはポリエステル樹脂、スチレン・アクリル樹脂、エポキシ樹脂を用いることができ、また、帯電制御剤としてはサルチル酸類金属錯体、有機ホウ素塩類、４級アンモニウム塩類等を用いることができ、更に、離型剤としてはポリプロピレン、ポリエチレン等のワックス類を用いることができ、着色剤としてはイエローにジスアゾイエロー等の顔料、マゼンタにカーミン６Ｂ、キナクリドン等の顔料、シアンに銅フタロシアニン等の顔料、ブラックにカーボンブラックを用いることができ、外添剤にシリカ、チタニア、アルミナ等の無機微粒子、樹脂微粒子を用いることができる。そして、この第１例のトナーはトナーカートリッジに収容されるようになっている。
【００１９】
このトナーの定着温度に対する光沢度を表すグロス値の特性は、図５に示すように直線の特性を有している。なお、前述の実験結果に示すようにトナーの定着温度に対するグロス値は概略直線状を呈しているので、本発明のトナーも実際には概略直線の特性となるが、例えば、最小自乗法等により図５に示すような直線に近似させることが可能である。
【００２０】
また、この本発明のトナーにおいては、２種類以上のそれぞれのトナーの混合比率を種々変えることで、定着温度に対するグロス値の特性が種々異なるトナーが可能となる。これらのトナーは、それぞれ定着温度に対するグロス値の同じ特性のトナー毎にトナーカートリッジに収容され、したがって定着温度に対するグロス値の特性が種々異なる複数種類のトナーカートリッジが形成されるようになっている。その場合、軟化点が低いトナーを軟化点が高いトナーより多く混合する、つまり、（軟化点が高いトナー量／軟化点が低いトナー量）＜１であると、グロス方向（光沢が出る方向）となって図１ないし図４の概略直線の勾配が大きくなる。また、軟化点が高いトナーを軟化点が低いトナーより多く混合する、つまり、（軟化点が高いトナー量／軟化点が低いトナー量）＞１であると、マット方向（光沢が出ない方向）となって図１ないし図４の概略直線の勾配が小さくなる。
【００２１】
更に、前述のようにトナーのバインダー樹脂の軟化点に±２〜３℃のばらつきがあることから、軟化点の異なるトナー間の軟化点の差は、少なくとも５℃以上の差を有することが望ましい。
【００２２】
更に、トナーの微粉が多くなるとトナーの凝集が発生しやすくなるため、混合する前の個々のトナーをフロー式粒子像分析装置（前述のＦＰＩＡー２１００：Flow Particle Image Analysis ）で測定し、その測定データに基づいて各トナー内に粒径が４μｍ以下のトナー粒子の個数累積が１０％以下であるように個々のトナー毎に設定することが望ましい。このように設定することで、トナーの凝集が発生し難くなる。
【００２３】
更に、トナーの軟化点はトナーの分子量分布によっても変化する。例えば、ポリエステル樹脂において同じ組成でも分子量分布を変えると、軟化点も変わるようになる。分子量分布を下げると軟化点も下がるが、軟化点が下がってトナーが軟らか過ぎるとブロッキング性が悪くなり、トナーが現像ローラ、感光体に付着し、更には定着ローラにも付着するようになる。そこで、ある程度分子量分布を下げた場合には、トナーの組成を変えることで、適正な軟化点に調整するようにする。
【００２４】
更に、外添剤が付着したトナー母粒子の接触面積が大きくなると、トナー母粒子どうしが付着してブロッキングを起こしてしまうおそれがある。特に、軟化点が低いトナーでは定着温度でトナー母粒子が大きく軟化するため、母粒子どうしがより一層付着し易くなる。そこで、外添剤として、少なくとも１次粒径（外添剤の粒子１個の粒径：外添剤の粒子が２個以上付着したものは除く）が１６ｎｍ以上のものを０.５ｗｔ％以上添加することが望ましい。これにより、大きな粒径の外添剤を多く用いることにより、トナー母粒子の接触面積を減少させ、ブロッキングが効果的に防止されるようになる。
【００２５】
更に、軟化点の低いトナーは、トナー母粒子と外添剤との同期率（外添剤が付着したトナー母粒子の個数／トナー母粒子と外添剤粒子との全体の個数）が可能な限り高い方が望ましい。これは、トナー母粒子と外添剤との同期率が高いと、外添剤が均一に付着しているトナー母粒子が多くなるが、このように外添剤がトナー母粒子に均一に付着することで、定着温度で柔らかくなっているトナー母粒子が硬い外添剤から外に出難くなる。したがって、トナー母粒子どうしが互いに付着し難くなり、ブロッキングが効果的に防止できるようになる。また、柔らかくなったトナー母粒子が硬い外添剤から外に出難くなることで、トナーのベタつきが抑制されるようになる。
【００２６】
なお、同期率を測定するために、トナー母粒子と外添剤との付着状態を分析する必要があるが、このトナー分析方法としては、電子写真学会年次大会（通算９５回）、“ Japan Hardcopy'97 ”論文集、「新しい外添評価方法−パーティクルアナライザによるトナー分析−」、鈴木俊之、高原寿雄、電子写真学会主催、１９９７年７月９〜１１日、に開示されているトナー分析方法を採用することができる。このトナー分析方法は、樹脂からなる母粒子の表面にシリカ（ＳｉＯ₂）からなる外添剤を付着させて形成されたトナーの粒子をプラズマ中に導入することにより、トナー粒子を励起させ、この励起に伴う発光スペクトルを得ることにより、元素分析を行う方法である。他のトナー分析方法で同期率を測定することができることはもちろんである。
【００２７】
次に、このように構成された本発明のトナーを使用して、所望の光沢度を有する画像を形成するための本発明の画像形成装置について説明する。
本発明の実施の形態の第１例の画像形成装置は、ユーザーが定着温度を種々変えることができるようにされており、これによりユーザーの所望する光沢度に調整可能となっている。その場合、図示しないが画像形成装置の操作パネルに、画像光沢度を調整して所望のグロス値に設定するための操作ボタンや操作キー等の光沢度設定操作手段を設けて、ユーザが光沢度設定操作手段を操作することにより所望の画像光沢度を得ることができるようにしてもよいし、また、ワープロやパソコン等の画像信号を画像形成装置に送信する装置側で光沢度の設定操作を行うことで所望の画像光沢度を得られるようにしてもよい。
【００２８】
また、第１例の画像形成装置では、軟化点の異なる２種類以上のトナーを所定の混合比率で混合して前述のように定着温度で光沢度が変化するトナーを収容したトナーカートリッジがイエロー、マゼンタ、シアンおよびブラックの各色毎に予め１種類用意されている。
【００２９】
そして、この第１例の画像形成装置では、光沢度の可変許容範囲が図５に示すように定着温度ｔ₀〜ｔ₅℃の範囲でグロス値が１０〜６０％の範囲に設定されている。これは、グロス値が１０％を下回ると肉眼では光沢度の変化が認識できないとともに、グロス値が６０％を上回ると照かり過ぎてしまい、逆に見にくくなってしまうためである。
【００３０】
このように構成された第１例の画像形成装置によれば、ユーザーが予め用意された１種類のトナーカートリッジを購入してそのトナーカートリッジを画像形成装置にセットし、画像形成時に光沢度設定操作手段を操作することにより、画像形成装置の定着温度が調整されて画像の所望の光沢度が得られるようになる。したがって、ユーザーは１台の画像形成装置で所望する画像光沢を持った画像形成物を簡単に得ることができるようになる。
【００３１】
また、本発明の実施の形態の第２例の画像形成装置は、前述の第１例とは異なり、定着温度は一定に設定されている。また、軟化点の異なる２種類以上のトナーの混合比率を種々変えて前述のように一定の定着温度で光沢度が異なるトナーをそれぞれ収容したトナーカートリッジをトナーの各色毎に予め複数種類用意しておく。その場合、図６に示すようにこれらの複数種類のトナーカートリッジには、それぞれ、例えば１０、２０、３０、４０、５０、６０％のグロス値が得られるようにそれぞれトナーの混合比率が設定されたトナーが収容されている。
【００３２】
このように構成された第２例の画像形成装置によれば、ユーザーが複数種類のトナーカートリッジの中から所望の光沢度のトナーカートリッジを購入し、そのトナーカートリッジを画像形成装置にセットし、画像形成装置の画像形成操作を行うことにより、一定の定着温度で画像の所望の光沢度が得られるようになる。したがって、ユーザーは１台の画像形成装置で所望する画像光沢を持った画像形成物を簡単に得ることができるようになる。また、この第２例の画像形成装置では、定着温度を制御する必要がないので、その分、マシンの構造が簡単になり、マシンのコストが低減する。
【００３３】
なお、複数種類のトナーカートリッジは前述のグロス値以外の種々のグロス値のための種々のトナーカートリッジを用意してもよいことは言うまでもない。また、定着速度を速くした場合あるいは定着速度を遅くした場合にも前述の各例と同様な効果を得ることができることも言うまでもない。
【００３４】
【発明の効果】
以上の説明から明らかなように、請求項１ないし５の発明の画像形成装置によれば、軟化点が互いに異なる２種類以上のトナーを混合して、画像を形成するための現像剤トナーを形成しているので、画像形成装置の定着温度を調整することにより、画像の光沢度を種々変えることが可能となる。そして、ユーザーが予め用意された現像剤トナーを使用するとともに、画像形成時に画像形成装置の定着温度を調整することで画像の所望の光沢度を得ることができるようになる。したがって、ユーザーは１台の画像形成装置で所望する画像光沢を持った画像形成物を簡単に得ることができる。
特に、請求項２の発明によれば、軟化点の異なるトナー間の軟化点の差が少なくとも５℃以上の差を有するようにしているので、トナーのバインダー樹脂の軟化点にある±２〜３℃のばらつきの影響を抑制することができ、光沢度をより一層明確に出すことができる。
【００３５】
更に、請求項３の発明によれば、フロー式粒子像分析装置（前述のＦＰＩＡ−２１００：Flow Particle Image Analysis ）で測定したデータに基づいて各トナー内に粒径が４μｍ以下のトナー粒子の個数累積を１０％以下に設定しているので、トナーの微粉を少なくでき、トナーの凝集を抑制することができる。
更に、請求項４の発明によれば、外添剤として、少なくとも１次粒径が１６ｎｍ以上のものを０.５ｗｔ％以上添加しているので、大きな粒径の外添剤を多く用いるようになり、トナー母粒子の接触面積を減少でき、ブロッキングをより効果的に防止できる。
【００３７】
更に、請求項３の発明の画像形成装置によれば、軟化点が互いに異なる２種類以上のトナーが混合されて形成されている現像剤トナーを複数種類用意しているので、一定の定着温度に対する光沢度が種々異なる現像剤トナーを複数種類用意することができる。そして、ユーザーが複数種類の現像剤トナーのうち、所望の光沢度の現像剤トナーを用いた現像器で画像形成装置の画像形成操作を行うことにより、一定の定着温度で画像の所望の光沢度を得ることができるようになる。したがって、ユーザーは１台の画像形成装置で所望する画像光沢を持った画像形成物を簡単に得ることができる。しかも、この画像形成装置によれば、定着温度を制御する必要がないので、その分、マシンの構造を簡単にできるとともに、マシンのコストを低減できる。
【図面の簡単な説明】
【図１】 軟化点の異なる２種類のトナーを混合して形成されたイエローのトナーを用いて定着温度と定着速度とをパラメータとして光沢度を測定した実験結果を示す図である。
【図２】 軟化点の異なる２種類のトナーを混合して形成されたマゼンタのトナーを用いて定着温度と定着速度とをパラメータとして光沢度を測定した実験結果を示す図である。
【図３】 軟化点の異なる２種類のトナーを混合して形成されたシアンのトナーを用いて定着温度と定着速度とをパラメータとして光沢度を測定した実験結果を示す図である。
【図４】 軟化点の異なる２種類のトナーを混合して形成されたブラックのトナーを用いて定着温度と定着速度とをパラメータとして光沢度を測定した実験結果を示す図である。
【図５】 本発明の実施の形態の一例のトナーにおける、定着温度に対する光沢度の特性を示す図である。
【図６】 本発明の実施の形態の他の例のトナーにおける、一定の定着温度に対する光沢度の特性を示す図である。
【図７】 従来の画像形成装置の一例であるフルカラ−の中間転写型の画像形成装置を模式的に示す図である。
【符号の説明】
１…画像形成装置、２…潜像担持体（ＯＰＣ）、３,４,５,６…現像器、７…転写器、８…転写材、９…定着器[0001]
BACKGROUND OF THE INVENTION
In the present invention, a development image obtained by developing an electrostatic latent image on a latent image carrier with a toner for developing the electrostatic latent image on the latent image carrier is transferred to a transfer material, and then fixed and printed. In particular, an image forming apparatus that can obtain a print image having a desired gloss level using a toner that can adjust the gloss level of a printed image after fixing. It belongs to the technical field.
[0002]
[Prior art]
For example, in an image forming apparatus such as a printer or a copying machine, an electrostatic latent image on a latent image carrier is developed with toner, and the developed print image is transferred to a transfer material such as paper, and then transferred onto the transfer material. By fixing the transfer print image, an electrostatic latent image print image exposed on the latent image carrier is obtained on the transfer material.
[0003]
FIG. 7 is a view schematically showing a full-color intermediate transfer type image forming apparatus as an example of such a conventional image forming apparatus.
As shown in FIG. 7, in this image forming apparatus 1, an image is exposed as an electrostatic latent image on a latent image carrier (hereinafter also referred to as OPC) 2, and the electrostatic latent image on the OPC 2 is displayed. Each of the yellow, magenta, cyan, and black developing units 3, 4, 5, and 6 is sequentially visualized (the order of each color is arbitrary) to be visualized, and further, the developed image on the OPC 2 is colored by the transfer unit 7. After being aligned and transferred to the transfer material 8, the image is fixed by the fixing device 9, so that a desired print image can be obtained on the transfer material 8.
[0004]
By the way, in such a conventional image forming apparatus 1, the glossiness of a print image obtained after fixing is determined by the model of the image forming apparatus 1, and in one model, the glossiness set in advance for that model is set. Only a print image can be obtained.
[0005]
[Problems to be solved by the invention]
However, when the image glossiness is determined according to the model of the image forming apparatus 1 as described above, a desired glossiness other than the image glossiness determined by the model is desired to be obtained on a print image to be obtained using the certain model. In such a case, there is a problem that the model cannot do it.
For this reason, for example, a model with a high gloss level is good because the resulting image such as a picture is glossy, but the print obtained with this model is glossy. End up. Further, in a print image in which an image such as a picture and a print are mixed, it has been conventional to make the image portion of the picture glossy and the print portion not glossy (so-called matte). This was not possible with the image forming apparatus.
[0006]
The present invention has been made in view of such circumstances, and an object of the present invention is to make it possible to adjust the glossiness of an image obtained by one model of the image forming apparatus and to obtain a desired glossiness. An object of the present invention is to provide an image forming apparatus using possible toner.
[0007]
[Means for Solving the Problems]
In order to solve this problem, the invention of claim 1 is directed to a developing device using a developer toner formed by mixing two or more kinds of toners having different softening points, and a fixing device capable of changing a fixing temperature. And a vessel.
The invention of claim 2 is characterized in that a difference in softening point between the toners is at least 5 ° C. or more.
[0009]
The invention of claim 3 further includes a developing device using a developer toner formed by mixing two or more kinds of toners having different softening points, and a fixing device having a fixed fixing temperature. ,
A plurality of types of developer toners are prepared in which mixing ratios of two or more types of toners to be mixed are different from each other.
[0010]
[Action]
In the invention of claim 1 configured as described above, a developer toner for forming an image is formed by mixing two or more kinds of toners having different softening points. By using this developer toner and adjusting the fixing temperature of the image forming apparatus, the glossiness of the image can be changed variously. Then, the user uses a developer toner prepared in advance and the fixing temperature of the image forming apparatus is adjusted at the time of image formation, so that the glossiness of the image desired by the user can be obtained. Therefore, the user can easily obtain an image formed product having a desired image gloss with one image forming apparatus.
In the invention of claim 2, the difference in softening point between toners having different softening points has a difference of at least 5 ° C. or more. Therefore, the influence of a variation of ± 2 to 3 ° C. on the softening point of the binder resin of the toner is avoided, and the glossiness becomes more clear.
[0011]
Furthermore, in the invention of claim 3, toner particles having a particle diameter of 4 μm or less in each toner based on data measured by a flow particle image analyzer (FPIA-2100: Flow Particle Image Analysis; manufactured by Sysmex Corporation) Is set for each individual toner so that the cumulative number of toners is 10% or less. As a result, toner fines are reduced and toner aggregation is less likely to occur.
Furthermore, in the invention of claim 4, since at least a primary particle size of 16 nm or more is added as 0.5 wt% or more as an external additive, a large particle size external additive can be used frequently. Become. Thereby, the contact area of the toner base particles is reduced, and blocking is effectively prevented.
[0013]
Furthermore, in the invention of claim 3, a plurality of types of developer toners prepared by mixing two or more types of toners having different softening points are prepared. These developer toners have various glossiness with respect to a fixed fixing temperature. Then, when the user performs an image forming operation of the image forming apparatus with a developing device using a developer toner having a desired glossiness among a plurality of types of developer toners, a desired glossiness of an image at a fixed fixing temperature. Can be obtained. Therefore, the user can easily obtain an image formed product having a desired image gloss with one image forming apparatus. Further, in this image forming apparatus, since it is not necessary to control the fixing temperature, the structure of the machine is simplified correspondingly, and the cost of the machine is reduced.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
The present inventor first conducted various experimental studies on the toner in order to freely adjust the glossiness of the image. As a result, the glossiness of the image is determined by the softening point (Tm value) of the toner, which is one of the characteristics of the developer toner, and particularly by the softening point of the main binder made of the thermoplastic resin used in the toner. I understood. That is, when the softening point of the toner is low, the viscosity of the toner decreases due to heating during fixing, the printed image surface becomes relatively flat and easily reflected, and the printed image becomes glossy. Also, if the softening point of the toner is high, the viscosity of the toner does not drop much during heating during fixing, and the printed image surface becomes uneven and difficult to reflect, so the printed image does not become glossy and is in a matte state. Become.
The glossiness of the image is also affected by a transfer material such as printing paper. However, since the period of the unevenness of the transfer material and the period of the unevenness of the toner are different, the glossiness is greatly influenced by the unevenness of the toner and is influenced by the unevenness of the toner.
[0015]
Then, using one type of toner with a low softening point and one type of toner with a high softening point, and experimenting on the glossiness of the image by changing the fixing temperature, the glossiness changes almost even when the fixing temperature is changed. There was no glossiness gradation. Therefore, a toner in which a toner A having a lower softening point and a toner B having a higher softening point were mixed was prepared, and the glossiness of the image was tested by using this toner and changing the fixing temperature. The experiment was performed for yellow, magenta, cyan, and black toners using the fixing temperature and fixing speed as parameters. In that case, the fixing temperature is changed from 165 ° C. to 190 ° C., and the fixing speed is a normal speed of 1 × speed (eg, 180 mm / sec), 1/2 speed of this normal speed, 1/3 × speed, and The experiment was carried out with the speed changed to 1/4. The results are shown in Table 1 and FIGS. Here, the gloss values shown in Table 1 and FIGS. 1 to 4 represent the glossiness of the image. When the gloss value is large, the glossiness is high, that is, the image has a large glossiness. If the value is small, the glossiness is low, that is, the image is not so glossy.
[0016]
[Table 1]

[0017]
From Table 1 and FIGS. 1 to 4, in the range of the fixing temperature of about 165 ° C. to 185 ° C., the gloss value is almost independent of the fixing speed for all of yellow, magenta, cyan, and black, and the increase and decrease of the fixing temperature as a whole. It can be seen that there is an increase or decrease in a substantially linear shape. In particular, at the conventional normal fixing speed, the gross values of yellow, magenta, cyan, and black remarkably increase or decrease substantially linearly as the fixing temperature increases and decreases. In addition, it is thought that it is mainly that the softening point of the binder resin of the toner has a variation of ± 2 to 3 ° C. in the experimental result that part of the gloss value does not change substantially linearly.
[0018]
Based on the experimental results, the toner of the present invention is formed by mixing two or more kinds of toners having different softening points, and the composition of the toner consists of a binder resin that is toner base particles, a charge control agent (5 wt. % Or less), a release agent (5 wt% or less), a colorant (10 wt% or less for each color), and an external additive (1 to 2 wt%). As the binder resin, a polyester resin, a styrene / acrylic resin, or an epoxy resin can be used. As the charge control agent, a salicylic acid metal complex, an organic boron salt, a quaternary ammonium salt, or the like can be used. Waxes such as polypropylene and polyethylene can be used as the mold, and pigments such as disazo yellow as yellow, pigments such as carmine 6B and magenta as magenta, pigments such as copper phthalocyanine as cyan, and carbon as black. Black can be used, and inorganic fine particles such as silica, titania and alumina, and resin fine particles can be used as the external additive. The toner of the first example is accommodated in a toner cartridge.
[0019]
The gloss value characteristic representing the glossiness with respect to the fixing temperature of the toner has a linear characteristic as shown in FIG. As shown in the above experimental results, since the gloss value with respect to the fixing temperature of the toner is substantially linear, the toner of the present invention actually has a substantially linear characteristic. For example, the least square method is used. It is possible to approximate a straight line as shown in FIG.
[0020]
In the toner of the present invention, it is possible to change the mixing ratio of two or more kinds of toners, and thus toners having different gloss value characteristics with respect to the fixing temperature can be obtained. These toners are accommodated in a toner cartridge for each toner having the same gloss value with respect to the fixing temperature, and therefore, a plurality of types of toner cartridges having different gloss value characteristics with respect to the fixing temperature are formed. In that case, the toner having a low softening point is mixed more than the toner having a high softening point, that is, if (the amount of toner having a high softening point / the amount of toner having a low softening point) <1, the gloss direction (the direction in which the gloss appears) Thus, the gradient of the general straight line in FIGS. 1 to 4 increases. Further, when the toner having a high softening point is mixed more than the toner having a low softening point, that is, (the amount of toner having a high softening point / the amount of toner having a low softening point)> 1, the mat direction (the direction in which no gloss occurs) Thus, the gradient of the general straight line in FIGS. 1 to 4 becomes small.
[0021]
Further, since the softening point of the binder resin of the toner has a variation of ± 2 to 3 ° C. as described above, the difference in softening point between toners having different softening points is preferably at least 5 ° C. or more. .
[0022]
Furthermore, since toner aggregation tends to occur when the amount of toner fine powder increases, each toner before mixing is measured with a flow type particle image analyzer (the aforementioned FPIA-2100: Flow Particle Image Analysis), and the measurement is performed. It is desirable to set for each individual toner based on the data so that the cumulative number of toner particles having a particle diameter of 4 μm or less in each toner is 10% or less. With this setting, toner aggregation is less likely to occur.
[0023]
Further, the softening point of the toner also changes depending on the molecular weight distribution of the toner. For example, when the molecular weight distribution is changed even in the same composition in a polyester resin, the softening point also changes. When the molecular weight distribution is lowered, the softening point is also lowered, but when the softening point is lowered and the toner is too soft, the blocking property is deteriorated, so that the toner adheres to the developing roller and the photoreceptor, and further adheres to the fixing roller. Therefore, when the molecular weight distribution is lowered to some extent, the toner composition is changed to adjust to an appropriate softening point.
[0024]
Further, when the contact area of the toner base particles to which the external additive is adhered increases, the toner base particles may adhere to each other and cause blocking. In particular, in the toner having a low softening point, the toner base particles are greatly softened at the fixing temperature, so that the base particles are more easily adhered to each other. Therefore, the external additive having at least a primary particle size (particle size of one external additive particle: excluding those having two or more external additive particles attached) of 16 nm or more is 0.5 wt% or more. It is desirable to add. As a result, by using a large amount of an external additive having a large particle size, the contact area of the toner base particles is reduced, and blocking is effectively prevented.
[0025]
Further, the toner having a low softening point can achieve a synchronization rate between the toner base particles and the external additive (the number of toner base particles to which the external additive is attached / the total number of toner base particles and external additive particles). As high as possible. This is because, when the synchronization rate between the toner base particles and the external additive is high, the toner base particles to which the external additive uniformly adheres increase, but the external additive uniformly adheres to the toner base particles in this way. This makes it difficult for the toner base particles softened at the fixing temperature to come out of the hard external additive. Therefore, it becomes difficult for the toner base particles to adhere to each other, and blocking can be effectively prevented. Further, since the toner base particles that have become softer are difficult to come out of the hard external additive, stickiness of the toner is suppressed.
[0026]
In order to measure the synchronization rate, it is necessary to analyze the adhesion state between the toner base particles and the external additive. As this toner analysis method, the Electrophotographic Society Annual Meeting (95 times in total), “Japan Hardcopy '97 "Paper Collection," New External Evaluation Method-Toner Analysis with Particle Analyzer ", Toshiyuki Suzuki, Toshio Takahara, Sponsored by the Electrophotographic Society, July 9-11, 1997 Can be adopted. In this toner analysis method, toner particles are excited by introducing toner particles formed by attaching an external additive made of silica (SiO ₂ ) to the surface of base particles made of resin. In this method, elemental analysis is performed by obtaining an emission spectrum accompanying excitation. Of course, the synchronization rate can be measured by other toner analysis methods.
[0027]
Next, an image forming apparatus of the present invention for forming an image having a desired glossiness using the toner of the present invention configured as described above will be described.
The image forming apparatus according to the first example of the embodiment of the present invention is configured such that the user can change the fixing temperature in various ways, and thereby the glossiness desired by the user can be adjusted. In this case, although not shown, the operation panel of the image forming apparatus is provided with glossiness setting operation means such as operation buttons and operation keys for adjusting the image glossiness and setting it to a desired gloss value so that the user can obtain the glossiness. A desired image glossiness may be obtained by operating the setting operation means, or the glossiness setting operation may be performed on the device side that transmits an image signal to an image forming apparatus such as a word processor or a personal computer. By performing this, a desired image glossiness may be obtained.
[0028]
In the image forming apparatus of the first example, a toner cartridge containing two or more kinds of toners having different softening points mixed at a predetermined mixing ratio and containing toner whose glossiness changes at the fixing temperature as described above is yellow, One type is prepared in advance for each color of magenta, cyan, and black.
[0029]
In the image forming apparatus of the first example, the glossable variable allowable range is set in the range of the fixing temperature t _{0 to} t ₅ ° C. and the gloss value in the range of 10 to 60% as shown in FIG. . This is because if the gloss value is less than 10%, the change in glossiness cannot be recognized with the naked eye, and if the gloss value exceeds 60%, the gloss value is excessively lit, making it difficult to see.
[0030]
According to the image forming apparatus of the first example configured as described above, the user purchases one kind of toner cartridge prepared in advance, sets the toner cartridge in the image forming apparatus, and performs the glossiness setting operation at the time of image formation. By operating the means, the fixing temperature of the image forming apparatus is adjusted, and the desired glossiness of the image can be obtained. Therefore, the user can easily obtain an image formed product having a desired image gloss with one image forming apparatus.
[0031]
Also, in the image forming apparatus of the second example of the embodiment of the present invention, the fixing temperature is set constant, unlike the first example. In addition, a plurality of types of toner cartridges are prepared in advance for each color of the toner, each containing toners having different glossiness at a fixed fixing temperature by changing the mixing ratio of two or more types of toners having different softening points. deep. In this case, as shown in FIG. 6, the toner mixing ratios are set in these plural types of toner cartridges so as to obtain gloss values of 10, 20, 30, 40, 50, and 60%, respectively. Toner is stored.
[0032]
According to the image forming apparatus of the second example configured as described above, a user purchases a toner cartridge having a desired glossiness from a plurality of types of toner cartridges, sets the toner cartridge in the image forming apparatus, By performing the image forming operation of the forming apparatus, a desired glossiness of the image can be obtained at a fixed fixing temperature. Therefore, the user can easily obtain an image formed product having a desired image gloss with one image forming apparatus. In the image forming apparatus of the second example, since it is not necessary to control the fixing temperature, the structure of the machine is simplified correspondingly and the cost of the machine is reduced.
[0033]
Needless to say, various types of toner cartridges for various gloss values other than the above-described gloss values may be prepared for the plurality of types of toner cartridges. It goes without saying that the same effects as in the above-described examples can be obtained even when the fixing speed is increased or the fixing speed is decreased.
[0034]
【The invention's effect】
As apparent from the above description, according to the image forming apparatus of the first to fifth aspects of the present invention, two or more types of toners having different softening points are mixed to form a developer toner for forming an image. Therefore, the glossiness of the image can be changed variously by adjusting the fixing temperature of the image forming apparatus. The user can use the developer toner prepared in advance and adjust the fixing temperature of the image forming apparatus during image formation to obtain the desired glossiness of the image. Therefore, the user can easily obtain an image formed product having a desired image gloss with one image forming apparatus.
In particular, according to the invention of claim 2, since the difference in softening point between toners having different softening points is at least 5 ° C. or more, ± 2 to 3 at the softening point of the binder resin of the toner. The influence of the variation in ° C. can be suppressed, and the glossiness can be made clearer.
[0035]
Furthermore, according to the invention of claim 3, the number of toner particles having a particle diameter of 4 μm or less in each toner based on data measured by a flow type particle image analyzer (FPIA-2100: Flow Particle Image Analysis described above). Since the accumulation is set to 10% or less, toner fine powder can be reduced, and aggregation of toner can be suppressed.
Furthermore, according to the invention of claim 4, since 0.5 wt% or more of an additive having at least a primary particle size of 16 nm or more is added as an external additive, a large amount of external additive having a large particle size is used. Thus, the contact area of the toner base particles can be reduced, and blocking can be prevented more effectively.
[0037]
Further, according to the image forming apparatus of the third aspect of the present invention, a plurality of types of developer toners prepared by mixing two or more types of toners having different softening points are prepared. A plurality of types of developer toners having different glossiness levels can be prepared. Then, when the user performs an image forming operation of the image forming apparatus with a developing device using a developer toner having a desired glossiness among a plurality of types of developer toners, a desired glossiness of an image at a fixed fixing temperature. You will be able to get Therefore, the user can easily obtain an image formed product having a desired image gloss with one image forming apparatus. In addition, according to this image forming apparatus, since it is not necessary to control the fixing temperature, the structure of the machine can be simplified correspondingly, and the cost of the machine can be reduced.
[Brief description of the drawings]
FIG. 1 is a graph showing experimental results obtained by measuring glossiness using a yellow toner formed by mixing two types of toners having different softening points and using a fixing temperature and a fixing speed as parameters.
FIG. 2 is a diagram illustrating an experimental result of measuring glossiness using a magenta toner formed by mixing two types of toners having different softening points and using a fixing temperature and a fixing speed as parameters.
FIG. 3 is a diagram showing an experimental result of measuring glossiness using a cyan toner formed by mixing two types of toners having different softening points and using a fixing temperature and a fixing speed as parameters.
FIG. 4 is a diagram showing an experimental result of measuring glossiness using a black toner formed by mixing two kinds of toners having different softening points and using a fixing temperature and a fixing speed as parameters.
FIG. 5 is a diagram illustrating a gloss characteristic with respect to a fixing temperature in a toner according to an exemplary embodiment of the present invention.
FIG. 6 is a graph showing gloss characteristics with respect to a fixed fixing temperature in a toner according to another example of the embodiment of the present invention.
FIG. 7 is a diagram schematically illustrating a full-color intermediate transfer type image forming apparatus as an example of a conventional image forming apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image forming apparatus, 2 ... Latent image carrier (OPC) 3, 4, 5, 6 ... Developing device, 7 ... Transfer device, 8 ... Transfer material, 9 ... Fixing device

Claims (3)

  An image forming apparatus comprising: a developing device using a developer toner formed by mixing two or more kinds of toners having different softening points; and a fixing device capable of changing a fixing temperature.   2. The image forming apparatus according to claim 1, wherein the difference in softening point between the toners is at least 5 [deg.] C. or more. A developing device using a developer toner formed by mixing two or more kinds of toners having different softening points, and a fixing device having a fixed fixing temperature;
2. An image forming apparatus according to claim 1, wherein a plurality of types of the developer toner are prepared with different mixing ratios of two or more types of toners to be mixed.

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