JP2004053629A - Endless belt and image forming device using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an endless belt, made of resin and rotatably supported by a plurality of belt support rolls, having a means to easily and surely prevent inclined running and meandering of the endless belt for a long period without shortening the life of the belt, and to provide an image forming device having the endless belt. <P>SOLUTION: The endless belt, made of resin and rotatably supported by a plurality of belt support rolls, to be used for an image forming device is so constituted that a meandering preventing guide 3 is bonded to the endless belt at least along one side edge of the width direction of the belt main body with a double-sided adhesive sheet having a pressure sensitive adhesive layer 6 on both sides, and the T type stripping strength between the belt body and the meandering preventing guide bonded to each other with the double-sided adhesive sheet 4 is 0.8N/mm or larger. <P>COPYRIGHT: (C)2004,JPO

Description

【００８２】
実施例１〜３は、基材の引張強度が、２０Ｎ／５ｍｍ以上の不織布の両面にアクリル系接着剤を塗布してなる両面接着シートを用いたことによって、作業性に優れ、貼り付け不良の発生を低減し、スラスト剥離強度を向上させることができた。また、ベルトライフは、１０００ｋｃｙｃｌｅ以上であった。
特に、エポキシ化ジエン系ブロック共重合体を配合してなる蛇行防止ガイドを備えた実施例１及び２のエンドレスベルトは、スラスト剥離強度が強く、ベルトライフは、１３００ｋｃｙｃｌｅ以上であった。
【００８３】
比較例１は、弾性を有するシリル基含有特殊ポリマー（エポキシ樹脂系）接着剤を使用しており、Ｔ型剥離強度、スラスト剥離強度に優れ、ベルトライフは１０００ｋｃｙｃｌｅ以上であるが、接着剤を蛇行防止ガイド全面に均一に塗布することが難しいので、高精度の塗布設備が必要である。さらに、蛇行防止ガイドに接着剤を塗布してから、高精度の位置決めをして、ベルト本体と当接して、接着剤が硬化するまで２時間以上保持しなければならないために、蛇行防止ガイドの貼り付けの費用が、高コストになる問題がある。
比較例２〜比較例５の両面接着シートは、硬化時間が３０秒以内であり、作業性に優れるが、Ｔ型剥離強度が０．８Ｎ／ｍｍ以下であり、ベルトライフは１００ｋｃｙｃｅ以下であった。
【００８４】
【発明の効果】
本発明によって、複数のベルト支持ロールに張架されて回転する樹脂製のエンドレスベルトにおいて、エンドレスベルトの片寄り走行や蛇行を、ベルトライフの低下を招くことなく、長期にわたって簡単、確実に防止することができる。さらに、本発明のエンドレスベルトは容易に作製可能であり、本発明のエンドレスベルトを使用した画像形成装置により安定的に高品質な画質が得られる。
【図面の簡単な説明】
【図１】本発明のエンドレスベルトの構成概略図である。
【図２】ベルト本体と蛇行防止ガイドの接着部を示す構成概略図である。
【図３】Ｔ型剥離試験の説明図である。
【図４】スラスト剥離試験の説明図である。
【図５】本発明のエンドレスベルトを中間転写ベルトとして備えた画像形成装置の概略図である。
【図６】本発明のエンドレスベルトを用紙搬送ベルトとして備えた画像形成装置の概略図である。
【符号の説明】
１　エンドレスベルト
２　ベルト本体
３　蛇行防止ガイド
４　両面接着シート
５　基材
６　感圧性接着剤層
３０　（Ｔ型剥離試験用）試験片
４０　（スラスト剥離試験用）試験片
４２　ベルト固定部材
４４　ベルト本体貫通溝
４６　蛇行防止ガイド貫通溝
１０２　中間転写ベルト
２０６　用紙搬送ベルト[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an endless belt used in an electrophotographic image forming apparatus such as a copying machine or a printer, and an image forming apparatus using the same. More specifically, the present invention relates to an endless belt with a meandering prevention guide used for an image forming apparatus having a meandering prevention guide and capable of running stably for a long period of time, and an image forming apparatus using the same.
[0002]
[Prior art]
As an image forming apparatus using an electrophotographic method, there is, for example, an intermediate transfer type color image forming apparatus using an intermediate transfer belt. This is because an intermediate transfer belt that rotates in contact with a transfer portion of an image carrier (for example, a photosensitive drum) on which a toner image is formed by an electrophotographic process or the like is stretched and arranged between a plurality of belt support rolls. After the primary transfer of a plurality of toner images formed on the image carrier once to be superimposed on the same position of the intermediate transfer belt, the toner images transferred on the intermediate transfer belt are Are transferred collectively. Then, the multiple toner images transferred onto the paper are fixed by a fixing device to form a color image.
[0003]
In addition, as an image forming apparatus provided with an endless belt, a so-called tandem type color image forming apparatus using a paper transport belt that carries a paper and transports the paper so as to pass through a transfer unit of a plurality of image forming units is also available. is there. This means that a plurality of image forming units are arranged side by side to individually form toner images of each color component, and the paper transport belt is rotated between a plurality of belt support rolls so as to rotate in contact with the transfer section of each image forming unit. Each of the toners formed in each of the image forming units is transported so that the paper adsorbed and carried on the paper transport belt is passed through the transfer unit of each of the image forming units. The images are transferred so as to be sequentially superimposed on the same sheet, and finally fixed to form a color image.
[0004]
By the way, in a color image forming apparatus using an endless belt such as an intermediate transfer belt or a paper transport belt, the parallelism and the roll outer diameter of the rotation axes of a plurality of belt support rolls that stretch and support the endless belt vary. The endless belt does not travel straight, but travels in a state of being displaced in the axial direction of the belt support roll. Riding or meandering may occur. For this reason, the positions of the toner images transferred directly to the endless belt or sequentially to the sheet carried on the endless belt may be shifted, and in this case, the color formed on the sheet is eventually There is a problem that image defects such as color shift and hue change occur in an image.
[0005]
Therefore, in order to prevent such meandering of the endless belt, a flange is provided on a driving roll or the like (Japanese Patent Laid-Open No. 58-100145), and a meandering prevention guide is provided on the inner side of both side edges of the endless belt. A method has been proposed in which a portion is guided by a groove provided on the outer periphery of a belt support roll. With respect to the latter technique, for example, a method of bonding a reinforcing tape to which an elastomer is bonded as a guide (Japanese Patent Laid-Open No. 4-333457) has been proposed. However, the method of providing a flange on a drive roller or the like may cause a problem that the endless belt runs over the flange portion and the endless belt is damaged. On the other hand, the method of bonding a reinforcing tape to which an elastomer is bonded as a guide is a complicated operation because the reinforcing tape to which the elastomer is bonded is further bonded to the endless belt, and the cost is relatively high. is there. Further, an acrylic resin pressure-sensitive adhesive is used as the adhesive, and there is a problem in that the adhesive strength with an endless belt is insufficient and there is a problem in durability.
[0006]
Further, a method of bonding a meandering prevention guide to an endless belt using an acrylic resin adhesive or the like (Japanese Patent Application Laid-Open No. 7-187435) has been proposed, but an acrylic resin adhesive is used as the adhesive. In addition, there is a problem that the adhesive strength with the endless belt is insufficient and there is a problem in durability. In order to improve the adhesive strength, a resin composition containing a specific acrylic copolymer and a crosslinking agent in the pressure-sensitive adhesive layer and containing 8 to 99% by mass of a solvent-insoluble substance is used (Japanese Patent Application Laid-Open No. 2001-2001). 206522) A proposal has been made. However, when a liquid adhesive or pressure-sensitive adhesive is used, it is necessary to hold the meandering prevention guide until the adhesive or pressure-sensitive adhesive protrudes or hardens, and it is difficult to form a precise meandering prevention guide. There is a problem.
[0007]
In the method of bonding the meandering prevention guide to the side edge of the belt by using a one-part cold-setting modified epoxy resin as an adhesive (Japanese Patent Laid-Open No. 2000-122439), a liquid adhesive is used. At the time of bonding, a step of treating the protruded adhesive is required, and the cost is relatively high. Further, there is a problem that time is required until the adhesive is hardened, and the production efficiency is reduced.
[0008]
[Problems to be solved by the invention]
The present invention has been made in view of the above circumstances, and has the following problems. That is, a resin endless belt rotatably supported by a plurality of belt support rolls, which can easily and reliably prevent the endless belt from running or meandering for a long time without reducing the life of the belt. It is an object to provide an endless belt provided with a meandering prevention guide. Further, it is another object of the present invention to provide an image forming apparatus using an endless belt provided with a meandering prevention guide for easily and surely preventing the endless belt from running or meandering easily for a long time without reducing the life of the belt. I do.
[0009]
[Means for Solving the Problems]
The above problem is solved by the following means. That is, the present invention
<1> A resin endless belt rotatably supported by a plurality of belt support rolls used in an image forming apparatus, wherein the endless belt is arranged along at least one side edge in a width direction of a belt body. The meandering prevention guide is bonded with a double-sided adhesive sheet provided with a pressure-sensitive adhesive layer on both sides of the base material, and the T-type peel strength between the belt body and the meandering prevention guide bonded with the double-sided adhesive sheet is reduced. An endless belt characterized by being 0.8 N / mm or more.
[0010]
<2> The endless belt according to <1>, wherein the base material of the double-sided adhesive sheet has a tensile strength of 20 N / 5 mm or more.
[0011]
<3> The endless belt according to <1> or <2>, wherein the double-sided adhesive sheet is formed by applying an acrylic resin-based adhesive to both surfaces of a nonwoven fabric substrate.
[0012]
<4> The endless belt according to any one of <1> to <3>, wherein the meandering prevention guide is formed of an elastic member having a JIS hardness of 60 ° to 90 °.
[0013]
<5> The meandering prevention guide is substantially composed of an epoxidized diene-based block copolymer and a thermoplastic elastomer other than the epoxidized diene-based block copolymer. 4> The endless belt according to any one of the above.
[0014]
<6> The endless belt according to <5>, wherein the meandering prevention guide is substantially composed of an epoxidized diene-based block copolymer and a polyurethane-based thermoplastic elastomer.
[0015]
<7> The one of <1> to <6>, wherein a thrust peeling strength between the belt main body and the meandering prevention guide bonded by the double-sided adhesive sheet is 5 N / mm or more. Endless belt.
[0016]
<8> The endless belt according to <7>, wherein the thrust peel strength is 10 N / mm or more.
[0017]
<9> An image forming apparatus including the endless belt according to any one of <1> to <8> as an intermediate transfer belt.
[0018]
<10> An image forming apparatus including the endless belt according to any one of <1> to <8> as a paper transport belt.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
<Endless belt>
Hereinafter, an endless belt of the present invention will be described in detail with reference to the drawings.
As shown in FIGS. 1 and 2, an endless belt 1 of the present invention is rotatably supported by a plurality of belt support rolls used in an image forming apparatus, and a toner image is transferred onto the surface of a belt body 2. An endless belt made of resin having a sheet carrying surface for carrying a sheet or a toner image carrying surface on which a toner image is formed, and a meandering prevention guide is provided along at least one side edge of the belt body 2 in the width direction. 3 is configured to be bonded with a double-sided adhesive sheet having a pressure-sensitive adhesive layer 6 on both surfaces of a base material 5.
Further, a T-type peel strength between the belt main body 2 and the meandering prevention guide 3 bonded by the double-sided adhesive sheet is 0.8 N / mm or more.
The endless belt of the present invention is suitably used for a photosensitive device, an intermediate transfer device, a transfer separation device, a transport device, a charging device, a developing device, and the like in an electrophotographic copying machine, a laser printer, and the like. Here, the material, shape, size, and the like of the belt body constituting the endless belt of the present invention are appropriately set according to the application, function, and the like of the endless belt.
[0020]
−Belt body−
Examples of the material of the belt body include a polyimide resin, a polyester resin, a polyurethane resin, a polyamide resin, and a fluorine resin. The belt body may or may not have a seam. Usually, the thickness of the belt body is preferably about 0.02 to 0.2 mm.
As an example of the belt main body, in the case of an intermediate transfer belt and a transfer conveyance belt in an image forming apparatus using an electrophotographic method, a semiconductive belt made of a polyimide resin containing a conductive filler is used.
[0021]
As a material of the belt body of the endless belt of the present invention, for example, crystalline polyester PCTG5445 manufactured by Eastman Chemical Co., Ltd. can be used as a thermoplastic resin. When the endless belt of the present invention is used as an intermediate transfer belt, 1 × 10 ⁹ Ω / □ ~ 1 × 10 ¹⁴ In order to control the surface resistivity in the range of Ω / □, metal or alloy such as carbon black, graphite, aluminum, copper alloy, tin oxide, zinc oxide, kalim titanate, oxide A metal oxide such as tin-indium oxide or tin oxide-antimony oxide composite oxide, or a conductive polymer such as polyaniline is used alone or in combination of two or more. Among them, carbon black is preferable as the conductive filler from the viewpoint of cost. If necessary, processing aids such as dispersants and lubricants can be added.
[0022]
-Meandering prevention guide-
When the belt body 2 generates a biasing force to move in the axial direction of the belt support roll, a reaction force (stress) of the same strength generated against the biasing force is directly applied to the meandering prevention guide 3. From the viewpoint that the stress can be dispersed and absorbed to some extent in the meandering prevention guide 3, the meandering prevention guide 3 is preferably an elastic member having a JIS hardness of 60 ° to 90 °, and particularly preferably a JIS hardness of 60 °. ８０80 °.
[0023]
As the material of the elastic member, an elastic material having an appropriate hardness such as polyurethane, neoprene rubber, polyurethane rubber, silicone rubber, polyester elastomer, chloroprene rubber, nitrile rubber, or the like can be used. Among these, polyurethane rubber and silicone rubber are particularly generally used in consideration of electrical insulation, moisture resistance, solvent resistance, ozone resistance, heat resistance, and abrasion resistance.
As long as the T-type peel strength and thrust peel strength described later can be obtained, there is no problem in use. However, when polyurethane rubber or silicone rubber is used as a meandering prevention guide, it cannot be regenerated in terms of recycling, and adhesion is poor. It has difficult problems.
[0024]
From the viewpoint of the adhesiveness and the recyclability, the material of the meandering prevention guide according to the present invention includes a mixture of an epoxidized diene-based block copolymer and a thermoplastic elastomer other than the epoxidized diene-based block copolymer. Materials are preferred.
Conventionally, thermoplastic elastomers with recyclability may have a problem with stability over time due to a large amount of compressive strain.However, by adding an epoxidized diene-based block copolymer, It has an effect of improving the amount of compressive strain and an effect of improving adhesiveness, and can be suitably used as a meandering prevention guide.
[0025]
The diene-based block copolymer which is a raw material of the epoxidized diene-based block copolymer is a block copolymer comprising a polymer block mainly composed of a vinyl aromatic compound and a polymer block mainly composed of a conjugated diene compound. It refers to a polymer, and the mass ratio of the vinyl aromatic compound to the conjugated diene compound (the mass ratio of the block copolymer) is from 5/95 to 90/10, and particularly preferably from 10/90 to 80/20. The block copolymer used in the present invention has a number average molecular weight of 5,000 to 1,500,000, preferably 10,000 to 800,000, and a molecular weight distribution [weight average molecular weight (Mw) and number Ratio (Mw / Mn) to Average Molecular Weight (Mn)] is 10 or less.
[0026]
The molecular structure of the diene-based block copolymer may be linear, branched, radial, or any combination thereof. For example, XYX, YXYX, Si (XY) ₄ , X-Y-X-Y-X, a vinyl aromatic compound (X) block-conjugated diene compound (Y) block copolymer. Further, the unsaturated bonds contained in the conjugated diene-based block copolymer may be partially hydrogenated.
[0027]
Examples of the vinyl aromatic compound constituting the diene-based block copolymer include styrene, α-methylstyrene, vinyltoluene, p-tert-butylstyrene, divinylbenzene, p-methylstyrene, and 1,1-diphenylstyrene. And the like, and these can be used alone or in combination of two or more. Of these, styrene is preferred.
[0028]
Examples of the conjugated diene compound include butadiene, isoprene, 1,3-pentadiene, 2,3-dimethyl-1,3-butadiene, piperylene, 3-butyl-1,3-octadiene, and phenyl-1,3-butadiene. These can be used alone or in combination of two or more. Of these, butadiene, isoprene and combinations thereof are preferred.
[0029]
More specifically, as the epoxidized diene-based block copolymer used in the present invention, Daicel Chemical Industry Co., Ltd. having an epoxy group at a part of a double bond contained in a butadiene residue in a styrene-butadiene block copolymer. ), Epofriend A1010, and Epofriend A1005.
[0030]
The blending ratio of the epoxidized diene-based block copolymer is 1 to 30 parts by mass, preferably 3 to 25 parts by mass, more preferably 3 to 25 parts by mass, per 100 parts by mass of the thermoplastic elastomer other than the epoxidized diene-based block copolymer. It is 5 to 20 parts by mass.
When the amount of the epoxidized diene-based block copolymer is less than 1 part by mass, the effect of improving the adhesiveness by adding the epoxidized diene-based block copolymer may be small, and when the amount exceeds 30 parts by mass. In some cases, the material becomes soft and a desired hardness as a meandering prevention guide cannot be obtained.
[0031]
As the thermoplastic elastomer other than the epoxidized diene-based block copolymer used in the present invention, for example, styrene-based thermoplastic elastomer, polyolefin-based thermoplastic elastomer, polyester-based thermoplastic elastomer, polyamide-based thermoplastic elastomer or polyurethane-based thermoplastic Elastomers and the like. Among them, a polyurethane-based thermoplastic elastomer is preferable from the viewpoint of hardness.
[0032]
Preferred polyurethane thermoplastic elastomers used in the present invention include Nippon Polyurethane "Milactone", Kuraray "Kuramilon U", Nippon Milactone "Milactone", Nisshinbo Industries "Mobilon", Dainippon Ink Chemical "Pandex", etc. Can be given.
[0033]
The shape of the meandering prevention guide can be appropriately determined depending on the conditions of use of the endless belt and the like. However, in order to obtain a sufficient meandering prevention effect, it is preferable that the cross section thereof be substantially rectangular. The width of the meandering prevention guide is usually preferably about 1 to 10 mm from the viewpoint of the meandering prevention effect and durability. Although the thickness is not particularly limited, it is usually preferably about 1 to 5 mm from the viewpoint of a meandering prevention effect and durability.
[0034]
<Double-sided adhesive sheet>
As shown in FIG. 2, the double-sided adhesive sheet 4 used in the present invention is a sheet-shaped adhesive member provided with a pressure-sensitive adhesive layer 6 on both sides of a base material 5. The belt body 2 and the meandering prevention guide 3 are bonded by the double-sided adhesive sheet 4.
Here, the adhesive means a substance that changes from a liquid state to a solid state when bonding the adherend (the belt main body 2 and the meandering prevention guide 3 here). And non-adhesives.
[0035]
The base material 5 of the double-sided adhesive sheet 4 only needs to have the flexibility to follow the deformation at the belt support roll contact portion during the endless belt running, and specifically, a nonwoven fabric, polyester film, polyimide Films and the like can be given. Among them, a nonwoven fabric is preferable.
It is preferable that the base material 5 has a tensile strength of 20 N / 5 mm or more.
[0036]
The tensile strength of the substrate 5 was measured by the following method.
A strip test piece having a length of 100 mm and a width of 5 mm was subjected to a tensile test in an environment of 22 ° C. and 55% RH at a distance between chucks of 50 mm and a tensile speed of 100 mm / min, and the tensile strength was determined from the yield strength.
[0037]
The thickness of the base material 5 is preferably 0.05 to 0.3 mm, more preferably 0.08 to 0.2 mm. When the thickness is less than 0.05 mm, the base material 5 may need to be hardened to have high strength in order to satisfy the tensile strength of the base material 5, and the flexibility of the base material 5 cannot be obtained. There are cases. On the other hand, when the base material is thicker than 0.3 mm, the deformation at the contact portion of the belt support roll becomes large, so that the stress acting on the interface between the belt main body 2 and the meandering prevention guide 3 becomes large, and the adhesive strength becomes large. When the shortage occurs, the meandering prevention guide 3 may peel off from the belt body 2 in some cases.
[0038]
The pressure-sensitive adhesive constituting the pressure-sensitive adhesive layer 6 has excellent adhesiveness to the belt body 2 and the meandering prevention guide 3 to be used, and obtains T peel strength and thrust peel strength, which will be described later. The adhesive is not particularly limited as long as it is an adhesive that can be used. For example, an adhesive containing a resin-based material such as an acrylic resin, a silicone resin, a natural or synthetic rubber resin, a urethane resin, or a synthetic resin resin such as a vinyl chloride / vinyl acetate copolymer as a main material can be used.
In particular, a pressure-sensitive acrylic resin-based adhesive is preferably used because a desired adhesive strength can be obtained by applying only pressure at room temperature.
The thickness of the pressure-sensitive adhesive layer 6 is preferably 0.01 mm to 0.3 mm, and more preferably 0.02 to 0.05 mm. When the thickness of the pressure-sensitive adhesive layer 6 is less than 0.01 mm, uniform adhesive strength may not be obtained. May cause misalignment.
[0039]
In the double-sided adhesive sheet 4 used in the present invention, the base material 5 is preferably a nonwoven fabric, and the pressure-sensitive adhesive constituting the pressure-sensitive adhesive layer 6 is preferably an acrylic resin-based adhesive. More specifically, No. 1 made by Nitto Denko Corporation, having an acrylic resin-based adhesive layer having a thickness of 0.03 mm on both surfaces of a non-woven fabric substrate having a thickness of 0.1 mm. 5000 NS.
[0040]
The sticking of the meandering prevention guide 3 to the belt body 2 using the double-sided adhesive sheet 4 is performed by attaching the belt body 2 and the meandering prevention guide 3 in a state where the belt body 2 is flat, and then attaching the end of the belt body 2. The belts 2 may be formed in a ring shape, and the meandering prevention guide 3 may be bonded.
The endless belt 1 of the present invention has a meandering prevention guide 3 attached to a resin belt main body 2 via the pressure-sensitive adhesive layer 6. The meandering prevention guides 3 are usually provided on both side edges in the width direction of the belt main body 2 in terms of a meandering prevention effect, durability, a reinforcing effect, and the like.
In FIG. 1, the meandering prevention guide 3 is stuck on the inner side surface of the belt main body 2, but the stuck surface of the meandering prevention guide 3 is located outside the belt main body 2 according to the application to which the endless belt 1 is applied. It may be stuck on the side. Further, the meandering prevention guide 3 is preferably provided on the entire circumference in view of the reinforcing effect of the endless belt 1, but the seam preventing guide may have a seam of about 1 to 10 mm.
[0041]
The method of attaching the meandering prevention guide 3 to the belt main body 2 is not particularly limited, but generally, after attaching the double-sided adhesive sheet 4 to the meandering prevention guide 3, the release liner is peeled off, and then the belt main body is removed. Paste on 2. After the belt main body 2 and the meandering prevention guide 3 are adhered to each other by the double-sided adhesive sheet 4 in this manner, the endless belt 1 is manufactured by integrally pressing and adhering each other.
In addition, it is important that the lamination be performed without air bubbles. Usually, a method such as lamination with a hand roller, a rubber roller, a press, lamination under reduced pressure, lamination under pressure, or the like is used. Can be. Further, the surface of the meandering prevention guide 3 or the surface of the belt body 2 may be subjected to corona treatment, primer treatment, aging, or the like to improve the adhesive strength.
[0042]
The double-sided adhesive sheet having a pressure-sensitive adhesive layer on both sides of the base material used in the present invention is easy to work on when attaching the meandering prevention guide to the belt body, and the bonding between the belt body and the meandering prevention guide is performed. The pressure-sensitive adhesive layer can be formed on both surfaces of the base material with a uniform thickness with good adhesion, less uneven adhesion between the belt body and the meandering prevention guide.
Further, when the base material has a tensile strength of 20 N / 5 mm, a problem such as breakage of the base material due to a shearing force acting on an interface with the base material / pressure-sensitive adhesive layer during running of the endless belt. Low in shear resistance. As described above, since the belt main body and the meandering prevention guide of the endless belt of the present invention are excellent in shear resistance, even if the endless belt is driven for a long time, the meandering prevention guide may be displaced or peeling may occur. Does not occur.
[0043]
-T-peel strength of double-sided adhesive sheet-
In the endless belt 1 of the present invention, the T-type peel strength of the belt main body 2 and the meandering prevention guide 3 stuck by the double-sided adhesive sheet 4 is 0.8 N / mm or more. It is more preferably at least 1.0 N / mm, particularly preferably at least 1.2 N / mm. When the T-type peel strength is 0.8 N / mm or more, the end face of the belt 2 / pressure-sensitive adhesive layer 6 / base material 5 / pressure-sensitive adhesive layer 6 / meandering prevention guide 3 at the time of running the endless belt. Problems such as breakage of the endless belt 1 due to the acting shear force are reduced.
The method of measuring the T-peel strength is described below.
[0044]
FIG. 3 is an explanatory diagram of a T-type peel test. FIG. 3A shows a portion for forming a test piece 30 for the T-type peel test. FIG. 3B shows a side view of the test piece 30. FIG. 3C is an explanatory diagram of a test method of a T-type peel test.
As shown in FIG. 3A, the belt main body 2 was cut to the same width as the meandering prevention guide 3 having the width W1 to obtain a test piece 30 having a width W1 and a length of 50 mm. 3 (b-1) is a diagram of the test piece 30 viewed from the direction of arrow A, and FIG. 3 (b-2) is a diagram of the test piece 30 viewed from the direction of arrow B.
One end of the obtained test piece 30 is peeled off at the interface between the belt main body 2 and the meandering prevention guide 3 as shown in FIG. 3C, the belt main body 2 is fixed, and the meandering prevention guide 3 is moved in the direction of arrow C. The tensile force P1 (N) when the film is torn in a T-shape at a speed of 50 mm / min is measured. The T-type peel strength (P1 / W1) (N / mm) is calculated using the measured P1 and W1.
[0045]
-Thrust peel strength of double-sided adhesive sheet-
In the endless belt 1 of the present invention, the thrust peeling strength of the belt main body 2 and the meandering prevention guide 3 stuck by the double-sided adhesive sheet 4 is preferably 5 N / mm or more, particularly preferably 10 N / mm or more. . When the thrust peel strength is 5 N / mm or more, the shear force acting on the interface of the belt main body 2 / pressure-sensitive adhesive layer 6 / base material 5 / pressure-sensitive adhesive layer 6 / meandering prevention guide 3 during running of the endless belt. Thus, problems such as breakage of the endless belt 1 are reduced.
A method for measuring the thrust peel strength will be described below.
[0046]
4A and 4B are explanatory diagrams of a thrust peeling test. FIG. 4A is a plan view showing a test piece 40, and FIG. 4B is a view of the test piece 40 viewed from a direction of an arrow D in FIG. FIG. 4C is an explanatory view of the test method, showing a state before the test piece 40 is inserted into the belt fixing member 42, and FIG. FIG. 4E is a view showing an inserted state, and FIG. 4E is an enlarged longitudinal sectional view of FIG. 4D.
As shown in FIG. 4A, the endless belt 1 is cut to form a test piece 40 of 30 mm in the Y direction and 50 mm in the X direction on the drawing. Further, as shown in FIGS. 4C to 4E, the width W2 of the belt fixing member 42 used for the thrust peel strength test is 10 mm, and the belt body through groove 44 and the meandering prevention guide through the side surface. A groove 46 is formed. As shown in FIG. 4D, the belt main body 2 and the meandering prevention guide 3 of the test piece 40 are respectively inserted into a belt main body through groove 44 and a meandering prevention guide through groove 46 provided on the side surface of the belt fixing member 42. insert. After inserting the test piece 40 into the belt fixing member 42, the test piece 40 is pulled at a speed of 10 mm / min in the direction of arrow E shown in FIG. At that time, a thrust force (shearing force) acts on a bonding portion between the belt main body 2 and the meandering prevention guide 3.
The force P2 (N) when the belt main body 2 and the meandering prevention guide 3 are separated is measured, and the thrust peeling strength (P2 / N) is determined from the measured P2 (N) and the width W2 (10 mm) of the fixing member 40. W2) (N / mm) is calculated.
[0047]
<Image forming apparatus>
The image forming apparatus of the present invention is not particularly limited as long as it is an image forming apparatus of a sheet conveying belt type using the endless belt of the present invention and an image forming apparatus of an intermediate transfer body type using the endless belt of the present invention. Absent. For example, a normal mono-color image forming apparatus in which only a single-color toner is stored in a developing device, or a color image forming in which a toner image carried on an image carrier such as a photosensitive drum is repeatedly primary-transferred sequentially to an intermediate transfer body There is a tandem type color image forming apparatus in which a plurality of image carriers having a developing device for each color are arranged in series on an intermediate transfer member.
[0048]
Hereinafter, as an example of the image forming apparatus of the present invention, a color image forming apparatus that repeats primary transfer will be described. FIG. 5 is a schematic configuration diagram illustrating an example of the image forming apparatus of the present invention.
The image forming apparatus shown in FIG. 5 includes a photosensitive drum 101 as an image carrier, an intermediate transfer belt 102 as an intermediate transfer body, a bias roller 103 as a transfer electrode, a tray 104 for supplying paper as a transfer object, and a BK. (Black) toner developing device 105, Y (yellow) toner developing device 106, M (magenta) toner developing device 107, C (cyan) toner developing device 108, belt cleaner 109, peeling claw 113, belt support roll 121, 123, and 124, a backup roller 122, a conductive roller 125, an electrode roller 126, a cleaning blade 131, a sheet bundle 141, a pickup roller 142, and a feed roller 143. Is used.
The meandering prevention guide provided inside the intermediate transfer belt 102 is positioned so as to contact the side edges of the belt support rolls 121, 123, and 124. Therefore, the intermediate transfer belt 102 is guided by the meandering prevention guide during belt running. Is done. Therefore, the intermediate transfer belt 102 does not cause the problem of meandering during belt running.
[0049]
In the image forming apparatus shown in FIG. 5, the photosensitive drum 101 rotates in the direction of arrow F, and its surface is uniformly charged by a charging device (not shown). An electrostatic latent image of the first color (for example, BK) is formed on the charged photosensitive drum 101 by an image writing unit such as a laser writing device. This electrostatic latent image is developed with toner by the developing device 105 to form a visualized toner image T. The toner image T reaches the primary transfer portion on which the conductive roller 125 is disposed by rotation of the photosensitive drum 101, and the toner image T is made static by applying an electric field of a reverse polarity to the toner image T from the conductive roller 125. The primary transfer is performed by rotation of the intermediate transfer belt 102 in the direction of arrow G while being electrically attracted to the intermediate transfer belt 102.
[0050]
Hereinafter, similarly, a second color toner image, a third color toner image, and a fourth color toner image are sequentially formed and superimposed on the intermediate transfer belt 102 to form a multi-toner image.
[0051]
The multi-toner image transferred to the intermediate transfer belt 102 reaches the secondary transfer section where the bias roller 103 is installed by rotation of the intermediate transfer belt 102. The secondary transfer unit includes a bias roller 103 disposed on the surface of the intermediate transfer belt 102 on which the toner image is carried, a backup roller 122 disposed opposite the bias roller from the back side of the intermediate transfer belt 102, and a backup roller for the backup roller 122. It is composed of an electrode roller 126 that rotates while being pressed against the roller 122.
[0052]
Sheets 141 are taken out one by one from a sheet bundle stored in the sheet tray 104 by a pickup roller 142, and fed at a predetermined timing between the intermediate transfer belt 102 of the secondary transfer unit and the bias roller 103 by a feed roller 143. Sent. The toner image carried on the intermediate transfer belt 102 is transferred to the fed sheet 141 by the press-contact conveyance by the bias roller 103 and the backup roller 122 and the rotation of the intermediate transfer belt 102.
[0053]
The sheet 141 onto which the toner image has been transferred is separated from the intermediate transfer belt 102 by operating the separation claw 113 at the retracted position until the primary transfer of the final toner image is completed, and is conveyed to a fixing device (not shown) where the pressure / heating is performed. The processing fixes the toner image to a permanent image. The intermediate transfer belt 102 on which the transfer of the multi-toner image onto the sheet 141 has been completed is subjected to removal of residual toner by a belt cleaner 109 provided downstream of the secondary transfer unit to prepare for the next transfer. Further, the bias roller 103 is attached so that the cleaning blade 131 made of polyurethane or the like is always in contact with the bias roller 103, and foreign matters such as toner particles and paper dust adhered by transfer are removed.
[0054]
In the case of transferring a single-color image, the primary-transferred toner image T is immediately secondary-transferred and conveyed to a fixing device. In the case of transferring a multi-color image by superimposing a plurality of colors, the toner image of each color is transferred to the primary transfer unit. The rotation of the intermediate transfer belt 102 and the rotation of the photosensitive drum 101 are synchronized so that the toner images of the respective colors do not shift so that they exactly match. In the secondary transfer unit, an output pressure (transfer voltage) having the same polarity as the polarity of the toner image is applied to the electrode roller 126 pressed against the backup roller 122 disposed opposite to the bias roller 103 via the intermediate transfer belt 102. The toner image is transferred to the paper 141 by electrostatic repulsion.
As described above, an image can be formed.
[0055]
Next, another example of the image forming apparatus of the present invention will be described.
The image forming apparatus shown in FIG. 6 includes units Y, M, C, and BK, a paper transport belt 206, transfer rolls 207Y, 207M, 207C, and 207BK, a paper transport roll 208, and a fixing device 209. . As the paper transport belt 206, the endless belt of the present invention is used.
The meandering prevention guide provided inside the paper transport belt 206 is positioned so as to abut the side edges of the belt support rolls 210, 211, 212, and 213. Will be guided to. Therefore, the paper transport belt 206 does not cause a problem of meandering when the belt runs.
[0056]
The units Y, M, C, and BK are provided with photosensitive drums 201Y, 201M, 201C, and 201BK, respectively, so as to be rotatable at a predetermined peripheral speed (process speed) in the clockwise direction of the arrow. Around the photoconductor drums 201Y, 201M, 201C, and 201BK, corotron chargers 202Y, 202M, 202C, and 202BK, exposure units 203Y, 203M, 203C, and 203BK, and respective color developing devices (a yellow developing device 204Y and a magenta developing device) are provided. 204M, a cyan developing device 204C, and a black developing device 204BK), and photoconductor drum cleaners 205Y, 205M, 205C, and 205BK.
[0057]
The four units Y, M, C, and BK are arranged in parallel with the paper transport belt 206 in the order of the units Y, M, C, and BK. An appropriate order can be set according to the image forming method.
[0058]
The paper transport belt 206 is rotatable in the counterclockwise direction of the arrow at the same peripheral speed as the photosensitive drums 201Y, 201M, 201C, and 201BK by the belt support rolls 210, 211, 212, and 213. , 213 are arranged so as to be in contact with the photosensitive drums 201Y, 201M, 201C, 201BK, respectively. The paper transport belt 206 is provided with a belt cleaning device 214.
[0059]
The transfer rolls 207Y, 207M, 207C, and 207BK are disposed inside the paper transport belt 206 at positions facing the portions where the paper transport belt 206 and the photosensitive drums 201Y, 201M, 201C, and 201BK are in contact. A transfer area (nip portion) for transferring a toner image to a sheet (transfer member) 216 via the photoconductor drums 201Y, 201M, 201C, and 201BK and the sheet conveyance belt 206 is formed.
[0060]
The fixing device 209 is arranged so that it can be conveyed after passing through respective transfer areas (nip portions) of the sheet conveying belt 206 and the photosensitive drums 201Y, 201M, 201C, and 201BK.
[0061]
The paper 216 is transported to the paper transport belt 206 by the paper transport roll 208.
[0062]
In the image forming apparatus shown in FIG. 6, in the unit BK, the photosensitive drum 201BK is driven to rotate. In conjunction with this, the corotron charger 202BK is driven to uniformly charge the surface of the photosensitive drum 201BK to a predetermined polarity and potential. Next, the photosensitive drum 201BK whose surface is uniformly charged is exposed imagewise by an exposure unit 203BK, and an electrostatic latent image is formed on the surface.
[0063]
Subsequently, the electrostatic latent image is developed by the black developing device 204BK. Then, a toner image is formed on the surface of the photosensitive drum 201BK. The toner at this time may be a one-component toner or a two-component toner.
[0064]
This toner image passes through the transfer area (nip portion) between the photosensitive drum 201BK and the paper transport belt 206, and at the same time, the paper 216 electrostatically adheres to the paper transport belt 206 and is transported to the transfer area (nip portion). Then, the image is sequentially transferred to the outer peripheral surface of the sheet 216 by an electric field formed by a transfer bias applied from the transfer roll 207BK.
[0065]
Thereafter, the toner remaining on the photosensitive drum 201BK is cleaned and removed by the photosensitive drum cleaner 205BK. Then, the photosensitive drum 201BK is subjected to the next transfer cycle.
[0066]
The above-described transfer cycle is similarly performed in the units C, M, and Y.
[0067]
The sheet 216 on which the toner image has been transferred by the transfer rolls 207BK, 207C, 207M, and 207Y is further conveyed to a fixing device 209, where fixing is performed.
Thus, a desired image is formed on the recording paper.
[0068]
【Example】
Hereinafter, the present invention will be described in more detail with reference to Examples.
[Example 1]
(Belt body)
As a material for the belt body, 100 parts by mass of crystalline polyester PCTG5445 manufactured by Eastman Chemical Co., Ltd., and as a conductive filler, 16 parts by mass of Printex 140T of Degussa of Germany of carbon black of pH 4.5 and Ajinomoto Fine Techno ( A resin composition obtained by dispersing 18 parts by mass of a tertiary amino group-containing polymer dispersant Azizpa-PB711 manufactured by KK Corporation was used.
Using a single screw extruder, the resin pellets of the resin composition were extruded into a tube at a heating temperature of 260 ° C. to obtain an endless belt having a thickness of 0.13 mm and a width of 350 mm and an outer diameter of 168 mm. Used as a belt body. The surface resistivity of this belt body is 10 ^11.9 Ω / □, volume resistivity 10 ^10.6 Ωcm.
[0069]
(Snaking prevention guide)
As a material for the meandering prevention guide, a resin composition obtained by adding 10 parts by mass of Epofriend A1020 manufactured by Daicel Chemical Industries, Ltd. to 100 parts by mass of a thermoplastic polyurethane elastomer B760PNAT (hardness: 62 °) manufactured by Nippon Milactran Co., Ltd. A sheet having a thickness of 1.0 mm was formed from the resin composition. This sheet was slit to a width of 5 mm to provide a meandering prevention guide having a hardness of 61 °.
The obtained meandering prevention guide is provided on both sides in the width direction of the inner surface of the belt body, on both sides of a non-woven fabric substrate having a thickness of 0.1 mm, and on both sides having an acrylic resin pressure-sensitive adhesive layer having a thickness of 0.03 mm on both sides. The adhesive sheet No. 1 manufactured by Nitto Denko Corporation. Via 5000NS, the layers were laminated, pressed and adhered to obtain an endless belt of Example 1.
[0070]
The T-type peel strength and the thrust peel strength of the endless belt of Example 1 were measured based on the above-described methods. Table 1 shows the results.
[0071]
The meandering prevention guide sticking failure occurrence rate was determined from the failure occurrence frequency by performing N = 200 meandering prevention guide sticking.
The judgment was made according to the following criteria. Table 1 shows the results.
：: Number of pasting defects N = less than 4 (defective rate: less than 2%)
×: Number of defective sticking N = 4 or more (defective rate: 2% or more)
[0072]
The belt life of the endless belt was determined based on the number of revolutions of the endless belt required until peeling of the meandering prevention guide occurred when the endless belt was mounted and run on DC1250 manufactured by Fuji Xerox Co., Ltd. It should be noted that one cycle of the belt was calculated as 1 cycle.
The judgment was made according to the following criteria. Table 1 shows the results.
○: 1000 kcycle or more run, no meandering prevention guide peeling
×: 1000 kcycle run with peeling of meandering prevention guide
[0073]
[Example 2]
The same belt body and double-sided adhesive sheet as in Example 1 were used. The material for the meandering prevention guide is a resin composition obtained by adding 20 parts by mass of Epofriend A1010 manufactured by Daicel Chemical Industries, Ltd. to 100 parts by mass of a thermoplastic polyurethane elastomer B760PNAT (hardness: 62 °) manufactured by Nippon Milactran Co., Ltd. Using. A sheet having a thickness of 1.0 mm was formed from this resin composition, and this sheet was slit into a width of 5 mm to form a meandering prevention guide having a hardness of 60 °.
The endless belt of Example 2 was produced in the same manner as in Example 1, and the same test as in Example 1 was performed. Table 1 shows the results.
[0074]
[Example 3]
The same belt body and double-sided adhesive sheet as in Example 1 were used. The meandering prevention guide cuts a 70 ° hardness urethane rubber sheet (typeren TR100-70: trade name) manufactured by Tigers Polymer Co., Ltd. into a strip shape having a thickness of 1.0 mm, a width of 5 mm and a length of 528 mm. Used.
The endless belt of Example 3 was manufactured in the same manner as in Example 1, and the same test as in Example 1 was performed. Table 1 shows the results.
[0075]
[Comparative Example 1]
The same belt body as in Example 1 was used. The same meandering prevention guide as in Example 3 was used. Instead of the double-sided adhesive sheet, a special polymer containing silyl group (Super X No. 8008 manufactured by Cemedine Co., Ltd.), which is a liquid elastic epoxy-based adhesive, was used. The adhesive is uniformly applied to the meandering prevention guide at a thickness of 0.02 mm, and is adhered to both side edges in the width direction of the inner surface of the belt body, and is pressed at room temperature for 2 hours to adhere. The endless belt of Comparative Example 1 was produced. The same test as in Example 1 was performed using the endless belt thus manufactured. Table 1 shows the results.
[0076]
[Comparative Example 2]
The same belt body as in Example 1 was used. The same meandering prevention guide as in Example 3 was used. As the double-sided adhesive sheet, a double-sided adhesive sheet TWY-01 (trade name) manufactured by Nitto Denko Corporation having a 0.3 mm-thick nonwoven fabric and a 0.05 mm-thick acrylic adhesive layer was used.
An endless belt of Comparative Example 2 was manufactured in the same manner as in Example 1, and the same test as in Example 1 was performed. Table 1 shows the results.
[0077]
[Comparative Example 3]
The same belt body as in Example 1 was used. The same meandering prevention guide as in Example 3 was used. As a double-sided adhesive sheet, a special rubber-based adhesive is applied to one side of a polyester sheet having a thickness of 0.015 mm to a thickness of 0.1 mm, and an acrylic adhesive layer having a thickness of 0.03 mm is formed on the opposite side. Using a double-sided adhesive sheet VR5311 (trade name) manufactured by Nitto Denko Corporation.
An endless belt of Comparative Example 3 was produced in the same manner as in Example 1, and the same test as in Example 1 was performed. Table 1 shows the results.
[0078]
[Comparative Example 4]
The same belt body as in Example 1 was used. The same meandering prevention guide as in Example 3 was used. As a double-sided adhesive sheet, a special silicone-based adhesive layer having a thickness of 0.03 mm on one side of a polyester sheet having a thickness of 0.015 mm and an acrylic-based adhesive layer having a thickness of 0.03 mm on an opposite side. A double-sided adhesive sheet 530A (trade name) manufactured by Nitto Denko Corp.
An endless belt of Comparative Example 4 was manufactured in the same manner as in Example 1, and the same test as in Example 1 was performed. Table 1 shows the results.
[0079]
[Comparative Example 5]
The same belt body as in Example 1 was used. The same meandering prevention guide as in Example 3 was used. As the double-sided adhesive sheet, a sheet-type double-sided tape manufactured by Nichiban Co., Ltd. was used.
An endless belt of Comparative Example 5 was produced in the same manner as in Example 1, and the same test as in Example 1 was performed. Table 1 shows the results.
[0080]
Table 1 shows the results of Examples 1 to 3 and Comparative Examples 1 to 5.
[0081]
[Table 1]

[0082]
In Examples 1 to 3, the workability was excellent and the adhesion was poor due to the use of a double-sided adhesive sheet obtained by applying an acrylic adhesive to both surfaces of a nonwoven fabric having a tensile strength of the substrate of 20 N / 5 mm or more. The generation was reduced, and the thrust peel strength was improved. Further, the belt life was 1000 kcycle or more.
In particular, the endless belts of Examples 1 and 2 provided with a meandering prevention guide comprising an epoxidized diene-based block copolymer had high thrust peeling strength and a belt life of 1300 kcycle or more.
[0083]
Comparative Example 1 uses an elastic silyl group-containing special polymer (epoxy resin) adhesive, has excellent T-type peel strength and thrust peel strength, and has a belt life of 1000 kcycle or more. Since it is difficult to apply the coating uniformly over the entire surface of the prevention guide, a high-precision coating equipment is required. Furthermore, since the adhesive must be applied to the meandering prevention guide, the positioning must be performed with high accuracy, and the belt must be kept in contact with the belt body for at least two hours until the adhesive is cured. There is a problem that the cost of pasting becomes high.
The double-sided adhesive sheets of Comparative Examples 2 to 5 had a curing time of 30 seconds or less and were excellent in workability, but had a T-peel strength of 0.8 N / mm or less and a belt life of 100 kcyce or less. .
[0084]
【The invention's effect】
Advantageous Effects of Invention According to the present invention, in a resin-made endless belt that is stretched and rotated on a plurality of belt support rolls, it is possible to easily and reliably prevent the endless belt from running or meandering for a long time without reducing the belt life. be able to. Further, the endless belt of the present invention can be easily manufactured, and a high quality image can be stably obtained by the image forming apparatus using the endless belt of the present invention.
[Brief description of the drawings]
FIG. 1 is a schematic view of a configuration of an endless belt of the present invention.
FIG. 2 is a schematic configuration diagram illustrating an adhesive portion between a belt main body and a meandering prevention guide.
FIG. 3 is an explanatory diagram of a T-type peel test.
FIG. 4 is an explanatory diagram of a thrust peeling test.
FIG. 5 is a schematic view of an image forming apparatus provided with the endless belt of the present invention as an intermediate transfer belt.
FIG. 6 is a schematic view of an image forming apparatus provided with the endless belt of the present invention as a paper transport belt.
[Explanation of symbols]
1 Endless belt
2 Belt body
3 meandering prevention guide
4 Double-sided adhesive sheet
5 Substrate
6 Pressure-sensitive adhesive layer
30 Specimen (for T-peel test)
40 (For Thrust Peeling Test) Specimen
42 Belt fixing member
44 Belt body through groove
46 meandering prevention guide through groove
102 Intermediate transfer belt
206 Paper transport belt

Claims (10)

Used in the image forming apparatus, a resin endless belt rotatably supported by a plurality of belt support rolls,
Along the at least one side edge in the width direction of the belt body of the endless belt, a meandering prevention guide is adhered with a double-sided adhesive sheet having a pressure-sensitive adhesive layer on both surfaces of the base material,
An endless belt, wherein a T-type peel strength between the belt main body and the meandering prevention guide bonded by the double-sided adhesive sheet is 0.8 N / mm or more. The endless belt according to claim 1, wherein a tensile strength of a substrate of the double-sided adhesive sheet is 20 N / 5 mm or more. The endless belt according to claim 1, wherein the double-sided adhesive sheet is formed by applying an acrylic resin-based adhesive to both surfaces of a nonwoven fabric substrate. The endless belt according to any one of claims 1 to 3, wherein the meandering prevention guide is formed of an elastic member having a JIS hardness of 60 ° to 90 °. 5. The guide according to claim 1, wherein the meandering prevention guide is substantially composed of an epoxidized diene-based block copolymer and a thermoplastic elastomer other than the epoxidized diene-based block copolymer. The endless belt according to item 1. The endless belt according to claim 5, wherein the meandering prevention guide is substantially composed of an epoxidized diene-based block copolymer and a polyurethane-based thermoplastic elastomer. The endless belt according to any one of claims 1 to 6, wherein a thrust peel strength between the belt main body and the meandering prevention guide bonded by the double-sided adhesive sheet is 5 N / mm or more. . The endless belt according to claim 7, wherein the thrust peel strength is 10 N / mm or more. An image forming apparatus comprising the endless belt according to claim 1 as an intermediate transfer belt. An image forming apparatus comprising the endless belt according to claim 1 as a paper transport belt.

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