JP2002189342A - Seamless belt with meandering preventing guide - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a seamless belt with a meandering preventing guide easily stuck to the belt and excellent in initial adhesive strength and durability. SOLUTION: The seamless belt with meandering preventing guide has the meandering preventing guide stuck to one edge part or both edge parts of the inside of the seamless belt with an UV post-curable adhesive member.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seamless belt provided with a meandering prevention guide for use in a belt driving device such as a transfer device such as a copying machine, a printer, a facsimile, an intermediate transfer device, a developing device and a transfer separation device.

[0002]

2. Description of the Related Art In a paper conveying belt, an intermediate transfer belt, and the like incorporated in a copying machine and a printer, the belt meanders at the time of rotation due to a difference between the left and right circumferential lengths, machine accuracy, assembly accuracy, and the like. Generally, a meandering prevention guide is provided at both ends or one end of the belt to prevent the meandering. Adhesives such as rubber have been used to attach the meandering prevention guide to the belt,
Since it takes time until a sufficient adhesive strength is obtained, a double-sided tape having an adhesive layer has come to be used. Adhesion with a rubber-based adhesive can prevent lateral displacement, but cannot secure the initial adhesive strength, so that a storage time and a storage place until curing are required. Adhesion with an adhesive tape such as a double-sided tape can secure the initial adhesive strength, but has a problem that lateral displacement occurs after long-term use. Recently, as the printing speed has been increased, the force of the belt to move in the lateral direction has become larger than before, and the lateral deviation of the meandering prevention guide has been more likely to occur than before.

[0003]

SUMMARY OF THE INVENTION The present invention provides a seamless belt with a meandering-preventing guide that prevents lateral displacement and peeling during mounting while securing the initial adhesive force.

[0004]

Means for Solving the Problems The present invention provides the following items 1 to
4 Item 1 At one end or both ends inside the seamless belt,
A seamless belt with a meandering prevention guide, wherein the meandering prevention guide is bonded with an ultraviolet post-curing adhesive member. Item 2. The seamless belt with a meandering prevention guide according to Item 1, wherein the ultraviolet post-curing adhesive member is an ultraviolet post-curing transfer tape. Item 3. The seamless belt with a meandering prevention guide according to Item 1 or 2, wherein the thickness of the adhesive layer formed by the ultraviolet post-curing adhesive member is 6 to 100 μm. Item 4. The seamless belt with a meandering prevention guide according to any one of Items 1 to 3, wherein the seamless belt is made of a polyimide resin.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The meandering prevention guide of the present invention is a linear type which is adhered to one end or both ends inside a seamless belt, and has three layers of a guide member main body, an adhesive layer and a thermoplastic resin film. It has a configuration. This meandering prevention guide is adhered to the seamless belt main body with an ultraviolet post-curing transfer tape or an ultraviolet post-curing adhesive.

As the guide member body, an elastomer-based material such as a conventionally used polyurethane rubber or silicone rubber can be used. Among them, polyurethane rubber excellent in abrasion resistance and adhesiveness is preferable.
The thickness of the guide member body is about 0.5 to 5 mm,
More preferably, it is 1 to 3 mm. If the thickness is less than 0.5 mm, riding on the seamless belt may occur due to rotation of the seamless belt, and if it exceeds 3 mm, the rotation of the seamless belt body may be affected, which is not preferable.

As the adhesive used for the adhesive layer, any adhesive can be used as long as it can firmly adhere the guide member main body and the thermoplastic resin film, but a hot melt type adhesive is preferable. . The thickness of the adhesive layer is
It is 0.5-5 μm, more preferably 1-4 μm.

The thermoplastic resin film is used for suppressing the elongation of the guide member main body and for improving the adhesion to the seamless belt. In order to suppress the elongation of the main body of the guide member, the thermoplastic resin film needs to be stretch-formed and heat-fixed. Preferably, it is a biaxially stretch-formed film having hardness. The resin used for the thermoplastic resin film is preferably a polyester resin in terms of hardness and adhesiveness. Particularly preferred is polyethylene terephthalate.

[0009] The width of the meandering prevention guide is about 2 to 10 mm, more preferably 3 to 7 mm. 2mm width
If it is less than 7, the adhesive strength is insufficient, and the meandering prevention guide is liable to cause lateral displacement and peeling, which is not preferable. Conversely 10
A guide exceeding mm is satisfactory in terms of adhesive strength, but may undesirably affect the rotation of the seamless belt body.

The ultraviolet post-curing transfer tape used in the present invention is obtained by forming a curable adhesive layer comprising an adhesive polymer, a cationically polymerizable polymer and a cationic polymerization initiator on a light-impermeable support tape. is there. The tacky polymer imparts pressure-sensitive adhesiveness when the meandering prevention guide is adhered to the seamless belt, and is an acrylic polymer or a rubber polymer. An epoxy resin is used as the cation polymerizable polymer. Ring-opening polymerization of an epoxy group has high reactivity and is advantageous in terms of curing time.
The cationic polymerization initiator is activated by irradiation with ultraviolet rays to generate a cationic polymerization initiator. There are an ionic photoacid generating type and a nonionic photoacid generating type, and both can be used. The ratio of the adhesive polymer, the cationic polymerizable polymer, and the cationic polymerization initiator may be appropriately determined in consideration of the material of the seamless belt, the bonding time, the bonding strength, and the like. For the release material of the ultraviolet post-curing transfer tape, a material that does not transmit light is used in order to prevent curing before use.

When an adhesive type ultraviolet post-curing adhesive is used instead of the transfer tape type, the adhesive is applied directly to the meandering prevention guide and covered with a light-impermeable release material. The adhesive itself is composed of a tacky polymer, a cation polymerizable polymer, and a cation polymerization initiator similar to those of the ultraviolet post-curing transfer transfer tape.

The seamless belt is made of a material based on thermosetting polyimide, thermoplastic polyimide, polyamide imide, polycarbonate, polyvinylidene fluoride, ethylene tetrafluoroethylene copolymer or the like. Further, the present invention also includes a seamless belt obtained by adding carbon black such as acetylene black for the purpose of imparting conductivity and semi-conductivity to these materials.
A paper transport belt used in a copying machine or a printer is obtained by adding 5 to 30% by weight of acetylene black to 100% by weight of a thermosetting polyimide resin. As an intermediate transfer belt, 100% by weight of a thermosetting polyimide resin is used. %, And 5 to 20% by weight of acetylene black are preferable.

The seamless belt can be manufactured by an extrusion method using an annular die when the material is a thermoplastic resin, and by a centrifugal molding method when the material is a thermosetting resin.

The meandering prevention guide of the present invention is adhered to a seamless belt using an ultraviolet post-curing transfer tape as follows. 1. A sheet-like ultraviolet post-curing transfer tape from which a release material has been peeled off is attached to a sheet-like meandering prevention guide member while applying pressure. (2) By punching out to a predetermined size by metal die cutting, a meandering prevention guide with an ultraviolet post-curing transfer tape is obtained. 3 The support tape of the obtained meandering prevention guide is peeled off, and a predetermined integrated amount of ultraviolet light having a wavelength of 200 to 400 nm is irradiated. 4. Paste and bond the meandering prevention guide that has been irradiated with ultraviolet light to both ends or one end inside the seamless belt before curing. After a curing period of 5 to 7 days, the intended seamless belt with a meandering prevention guide is obtained.

It can be said that the larger the initial adhesive strength between the meandering prevention guide and the seamless belt, the better, but in practice, the peel adhesive strength is about 1.0 to 15.0 N / cm. In order to evaluate the durability, it is necessary to consider not only the meandering prevention guide but also the lateral displacement. Before the meandering prevention guide peels off from the seamless belt, there is a tendency for lateral displacement to occur. In practice, this lateral displacement is also a serious problem like peeling. It is preferable that the lateral displacement does not occur, but it is practical if the width of the lateral displacement is 1.0 mm or less.

The thickness of the adhesive layer formed by the ultraviolet post-curing transfer tape or the ultraviolet post-curing adhesive is 6 to 100 μm.
If the thickness of the adhesive layer is less than 6 μm, the adhesive strength is insufficient and peeling is likely to occur. If it exceeds 100 μm, the curing time after bonding becomes long, which is not preferable in production.

[0017]

EXAMPLES The measuring methods and evaluation methods in the examples are as follows. <Initial adhesive strength> A sheet-like (60 × 20)
mm) of the sample was cut out, and the peeling adhesive strength between the meandering prevention guide and the seamless belt was measured by a tensile measuring machine.
The side opposite to the end of the meandering prevention guide was slightly peeled off and floated, and the peeled guide and the belt were chucked for measurement, pulled at a constant speed and peeled off, and the peel adhesion strength was measured. Measuring machine: Shimadzu AUTOGRAPH AG-50
0E Pulling speed: 30mm / min

<Durability> A mounting test was performed on the actual printer under the following conditions. The durability was evaluated by visually observing lateral deviation and peeling of the meandering prevention guide. Environment: room temperature 33 ° C, relative humidity 80% Process speed: 300 mm / sec Roll diameter: diameter 25 mm Belt tension: 58.8 N / belt full width Number of prints: 80000 sheets

(Example 1) 1. Seamless belt Polymerization reaction of equimolar amounts of 3,3 ', 4,4'-biphenyltetracarboxylic dianhydride and 4,4'diaminodiphenyl ether at room temperature in an N-methylpyrrolidone solvent to give a solid concentration of 16 3 kg of a polyamic acid solution having a weight% of 3.5 Pa · s and a solution viscosity of 3.5% were obtained. To this, 75 g of carbon black powder and 225 g of N-methylpyrrolidone (for dilution) were added, and after premixing with a stirrer with a blade,
The mixture was transferred to a ball mill and further mixed to obtain a raw material slurry.
180 g of the raw material slurry was taken, and a seamless polyamic acid film was obtained using a centrifugal molding machine. The heating conditions in this case are as follows: after the raw material slurry is uniformly applied to the cylinder, the temperature is gradually increased and finally the temperature is increased to 120 ° C. for 30 minutes.
Heated for minutes. The rotation speed of the cylinder was 400 times / min. The polyamic acid film thus obtained was put into a heating device, and the temperature was gradually increased from 200 to 30.
The mixture was heated at 0 ° C. for 40 minutes and at 300 to 400 ° C. for 40 minutes to perform an imidization reaction, and was 226 mm in diameter and 344.5 m in width.
m, a seamless belt having a thickness of 100 μm and having semiconductivity was obtained.

2. Meandering prevention guide Meandering prevention guide member (Nippon Mattai) formed by bonding urethane without plasticizer (thickness: 1.0 mm) and biaxially stretched polyethylene terephthalate film (thickness: 50 μm) via a hot melt adhesive (thickness: 2 μm) A sheet-like ultraviolet post-curing transfer tape (thickness of an adhesive layer is 40 μm) (UV post-curing WT tape SS-15, manufactured by Sekisui Chemical Co., Ltd.) while pressing a release paper on an ESMAR Co., Ltd. Pasted. The obtained sheet was punched out to a predetermined size by metal die-cutting to obtain a meandering prevention guide with a 5 mm-wide ultraviolet post-curing transfer tape. The two support tapes of the obtained meandering prevention guide were peeled off, and ultraviolet rays having a wavelength of 360 nm were irradiated at ² J / cm ² , and they were adhered to both ends on the inner side of the seamless belt, respectively. .)

3. Evaluation The peeling adhesive strength of the obtained meandering prevention seamless belt with a guide was measured one hour after bonding, and the initial adhesive strength is shown in Table 1. For the durability, the obtained seamless belt with meandering prevention guide is packed in a shipping container (13 cm x 13 cm).
× 38 cm), and after a curing period of 5 days, was evaluated and shown in Table 1.

Comparative Example 1 A meandering prevention guide member (Esmer manufactured by Nippon Matai Co., Ltd.) was punched to a predetermined size, and then bonded to a seamless belt using a silicone adhesive (Super X manufactured by Cemedine Co., Ltd.). In the same manner as in Example 1, a seamless belt with a meandering prevention guide was obtained. It took time to cure the adhesive, and the adhesive was left as it was for 24 hours and then placed in a shipping container. After a curing period of 5 days, the results of evaluating the durability are shown in Table 1. The peel adhesive strength at 1 hour after bonding was also measured temporarily and shown in Table 1 as the initial adhesive strength.

Comparative Example 2 A silicone / acrylic double-sided tape (8625HPW manufactured by Dainippon Ink and Chemicals, Inc.) was used to bond a meandering prevention guide member (Esmer manufactured by Nippon Matai Co., Ltd.) to a seamless belt. A seamless belt with a meandering prevention guide was obtained in the same manner as in Example 1. The initial adhesive strength and durability were evaluated in the same manner as in Example 1, and are shown in Table 1.

Comparative Example 3 A seamless belt with a meandering prevention guide was obtained in the same manner as in Example 1, except that only urethane (with a thickness of 1.0 mm) without a plasticizer was used as the meandering prevention guide member. The initial adhesive strength and durability were evaluated in the same manner as in Example 1, and are shown in Table 1.

[0025]

[Table 1]

In the first embodiment, since the meandering prevention guide is attached to the seamless belt and immediately put into the shipping packaging container, there is no problem in terms of workability, storage location, and the like. The initial adhesive strength (peeling adhesive strength) is also sufficient,
The durability was practically satisfactory. In Comparative Example 1, the initial adhesive strength was low, and 24
It had to be left for a long time and was not practical in terms of storage space (both the space of the place and the environment with dust control were necessary). Also, when bonding the meandering prevention guide,
Some of them were easily out of alignment and out of specification. The durability was practically almost satisfactory. In Comparative Example 2, there was no problem in terms of workability, but the initial adhesive strength was slightly insufficient, and the durability was not practically satisfactory. In Comparative Example 3, since the meandering prevention guide member was made of urethane alone and lacked in straightness, there was a case where the member was easily misaligned during the bonding operation and was out of specification. The initial adhesive strength and durability were not satisfactory in practical use.

According to the seamless belt with a meandering prevention guide of the present invention, the work of attaching the meandering prevention guide is easy, the storage space is small, the initial adhesive strength (peeling adhesive strength),
The durability is practically satisfactory.

Claims (4)

[Claims] 1. A seamless belt with a meandering prevention guide, wherein a meandering prevention guide is adhered to one or both inner ends of the seamless belt with an ultraviolet post-curing adhesive member. 2. The seamless belt with a meandering prevention guide according to claim 1, wherein the ultraviolet post-curable adhesive member is an ultraviolet post-curing transfer tape. 3. The seamless belt with a meandering prevention guide according to claim 1, wherein the thickness of the adhesive layer formed by the ultraviolet post-curable adhesive member is 6 to 100 μm. 4. The seamless belt with a meandering prevention guide according to claim 1, wherein the seamless belt is made of a polyimide resin.