JP2000289823A - Meander preventive guide and endless belt - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a meander preventive guide having easy forming, high accuracy, and hard peeling, in the meander preventive guide used to prevent the meander of an endless belt used in an electrophotographic copying machine, a photosensitive supporter such as a laser printer, an intermediate transfer device, a transfer separation device, a carrying device, a static charging device, a developing device, etc. SOLUTION: This meander preventive guide is equipped with a reinforcing base material 18 having a tensile elastic modulus of 1000 kg/cm2 or more and 5000 kg/cm2 or less, adhesive layer 16 and 17 applied on both the surfaces of the material 18 and having a thickness of 5-100 μm, and a guide base material 15 adhering to one side layer 16, and composed of rubber material having a JISA hardness of 30 Hs or more and 95 Hs or less and a 100% modulus of JIS K 6301 of 5-100 kg/cm2. This endless belt can be obtained by using the meander preventive guide.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrophotographic copying machine,
Intermediate transfer devices such as laser printers, transfer separation devices,
The present invention relates to a meandering prevention guide used for preventing meandering of an endless belt used in a conveying device, a charging device, a developing device, and the like, and an endless belt using the same.

[0002]

2. Description of the Related Art Conventionally, endless belts are frequently used in photosensitive devices, intermediate transfer devices, transfer separation devices, transfer devices, charging devices, developing devices, and the like, such as electrophotographic copying machines. FIG. 1 shows an example in which an endless belt is used in an intermediate transfer device. That is, the surface of the photosensitive drum 1 is uniformly charged by the charger 3, and an electrostatic latent image corresponding to an image is formed by the exposure device 2. This electrostatic latent image is developed by the developing device 5 to become a toner image. The toner image is transferred to the intermediate transfer endless belt 6 by the electrostatic transfer machine 10. The toner image on the intermediate transfer endless belt 6 is
2 is transferred to the recording paper 11. The residual toner on the photosensitive drum is removed by the cleaner 4 to prepare for the next charging cycle.

As shown in FIG. 1, an endless belt of this type usually has a plurality of rollers 7, 8,
9 is used for transferring a toner image and conveying a recording sheet. At least one of the plurality of rollers is a driving roller connected to a driving source such as a motor, and the other is a driven roller that rotates freely as the endless belt moves.

Incidentally, in order to drive the endless belt with high accuracy, the axes of the rollers must be parallel to each other.
It is necessary that the rollers have high roundness and straightness. If these are not satisfied, the endless belt meanders, and the exposure position and the transfer position are shifted, so that image unevenness and image shift occur.

In order to prevent the endless belt from meandering, a flange is provided on a driving roll as described in Japanese Patent Application Laid-Open No. 58-100145, or a method disclosed in Japanese Patent Application Laid-Open No.
As disclosed in Japanese Patent Publication No. 03036, a method of detecting the amount of meandering and controlling the parallelism of each roll has been proposed. But,
When a flange is provided, if the meandering is large, the endless belt may ride on the flange and break, and the method of controlling the parallelism of the roll is complicated and expensive,
There is a problem that the size is increased.

On the other hand, as a technique for preventing meandering by improving an endless belt, for example, Japanese Unexamined Patent Publication No. 59-23095
No. 0 and Japanese Patent Application Laid-Open No. Sho 62-50873, a meandering prevention guide is made using a hot melt adhesive or a room temperature-curable silicone, or the meandering prevention guide is bonded using a pressure-sensitive adhesive. It has been proposed.

However, a method of forming a guide with a hot melt adhesive is to apply a hot melt melted at 180 to 200 ° C. directly to an endless belt, so that polyethylene, polycarbonate, polyethylene terephthalate, ethylene / tetrafluoroethylene copolymer is used. When using an endless belt made of a thermoplastic resin such as coalescing,
The endless belt is thermally deformed. Furthermore, since the hot melt has a low viscosity, there is a problem that it is difficult to maintain the shape of the guide until cooled and solidified.

[0008] In the case where the guide is formed of room temperature-curable silicon, the work efficiency is not good because the curing time of silicon is 24 hours or more. Furthermore, since the dimensional change during curing is large, it is difficult to form an accurate guide. On the other hand, in a method of bonding a guide to an endless belt using a pressure-sensitive adhesive, it is necessary to press the guide at the time of bonding. For this reason, if a low-hardness material such as polyester elastomer or polyurethane is used as the guide material, the guide is adhered in a stretched state by pressing, and the endless belt is wrinkled due to the restoring force after curing, and the restoring force is less than the adhesive force. If it is strong, there is a problem that the guide peels off.

[0009] Japanese Patent Application Laid-Open No. 7-1995 proposed by the present inventors.
JP-A-187435 describes a meandering prevention guide that uses a guide substrate having a JISA hardness of 30 to 95 Hs and uses a reinforcing substrate having a tensile modulus of 5000 kg / cm ² or more.

However, in the meandering prevention guide, since the tensile modulus of the reinforcing base material is high, the initial adhesive force is high, but the ability to absorb the lateral displacement applied to the meandering prevention guide is small, and the meandering guide is continuously formed. It cannot withstand the force applied to the prevention guide in the lateral displacement direction, between the guide and the adhesive layer, or
The meandering prevention guide sometimes peeled off between the adhesive layer and the belt base material, or between the adhesive layer and the reinforcing tape usually attached to the inside of the belt base material.

Therefore, the present inventors have disclosed in Japanese Patent Application Laid-Open No. Hei 8-9970.
No. 6 proposes a meandering prevention guide including a guide base material having a JISA hardness of 30 to 95 Hs and a reinforcing base material having a tensile modulus of elasticity of 1000 kg / cm ² or less and having an adhesive layer.

However, since it is difficult to accurately bond the meandering prevention guide, which is a combination of a soft guide base material and an easily extensible adhesive, to the belt, the force applied by the meandering prevention guide to absorb the lateral force generated when the belt meanders is applied. In spite of this, there was a case where the roller climbed onto the meandering prevention guide due to the poor bonding accuracy of the belt.

[0013]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems of the prior art, and provides a meandering prevention guide which maintains a high adhesive strength to an endless belt for a long period of time and has a remarkably excellent meandering prevention function. An object is to provide an endless belt using a meandering prevention guide.

[0014]

A meandering prevention guide according to the present invention is a meandering prevention guide provided for preventing meandering of an endless belt, and has a tensile modulus of elasticity of 1000 kg / cm ^2.
A reinforcing substrate of more than 5,000 kg / cm ² , an adhesive layer having a thickness of 5 to 100 μm provided on both sides of the reinforcing substrate, and a JISA hardness of 30 H adhered to one of the adhesive layers.
s to 95Hs and 100% of JIS K6301
And a guide substrate made of a rubber material having a modulus of 5 to 100 kg / cm ² .

In the present invention, the tensile modulus is IS
It is assumed to be OR 1184.

According to the meandering prevention guide of the present invention, the reinforcing base material has a specific tensile elastic modulus, and the rubber material bonded to one surface of the reinforcing base material through an adhesive layer of 5 to 100 μm has a specific strength. It has a 100% modulus.

[0017] It has been confirmed by a number of tests that the meandering prevention guide has a high adhesive strength to the endless belt for a long period of time and that when provided on the endless belt, the meandering of the endless belt is sufficiently prevented for a long period of time. Was. The endless belt of the present invention uses this meandering prevention guide.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail.

(1) Configuration of meandering prevention guide FIG. 2 is a perspective view showing the configuration of the meandering prevention guide according to the present invention. The guide base material 15 is made of a rubber material, and absorbs a shearing force or the like applied to the meandering prevention guide. Reinforcement base material 18
As for (1), it also plays a role of absorbing the shearing force and the like applied to the adhesive layer of the meandering prevention guide and improving the adhesive strength between the guide base material 15 and the endless belt. Adhesive layers 16 and 17
Adheres the guide base 15 and the reinforcing base 18 and the reinforcing base 18 and the endless belt, respectively. The release paper 19 protects the adhesive layer 17 until the meandering prevention guide is adhered to the endless belt. When the meandering prevention guide is bonded to the endless belt, the release paper is peeled off.

(2) Guide base material The guide base material used in the present invention has a hardness according to JISA of 30 to 95 Hs, preferably 50 to 95 Hs.
Hs to 80Hs, more preferably 65Hs to 7
5Hs or less. When the hardness exceeds 95 Hs, the elongation at the time of lamination is small and the dimensional accuracy is good, but the elasticity is insufficient to absorb the intermittent shear force caused by being driven along the curved surface of the roller for a long time. As a result,
The load concentrates on the endless belt, and cracks occur in the endless belt. On the other hand, when the hardness is less than 30 Hs, the guide is greatly deformed by the shearing force applied to the guide when the endless belt meanders, so that sufficient guide cannot be provided.

The rubber material of the guide substrate used in the present invention is JIS K630 in addition to the above-mentioned JISA hardness.
1 has a 100% modulus of 5 to 100 kg / cm ² . This 100% modulus is 5kg / c
When it is smaller than m ² , the guide base material is too soft, and the function of preventing the endless belt from laterally shifting is insufficient. If the 100% modulus is larger than 100 kg / cm ² , the guide base material is too hard to be deformed, so that when the guide base material rides on the edge of the meandering prevention groove of the roller, excessive stress is generated on the endless belt.

Specific examples of the rubber material include polyurethane rubber, neoprene rubber, urethane rubber, chloroprene rubber, nitrile rubber, butyl rubber, and silicone rubber. Among these, polyurethane rubber and silicone rubber are particularly preferable in consideration of adhesion to an endless belt, electrical insulation, moisture resistance, solvent resistance, ozone and heat resistance, abrasion resistance, and adhesiveness with an adhesive.

[0023] (3) a reinforcing base material used for the meandering preventive guide reinforcement material present invention has a tensile modulus of 1000 kg / cm ^2, greater 5000 kg / cm of less than ^2, preferably made of a material of 1500~4500kg / cm ^2. When the tensile modulus is 1000 kg / cm ² or less, it is difficult to accurately attach the meandering prevention guide to the belt, and the meandering prevention guide absorbs the force applied to the belt meandering from the lateral direction. It is easy to get on the roller on the meandering prevention guide due to poor bonding accuracy. 5000kg tensile modulus
In the case of / cm ² or more, there is no elastic recovery force of the reinforcing base material itself, so that the force due to the lateral displacement cannot be absorbed, the adhesive surface gradually displaces, and the guide comes off when used continuously for a long time. As a specific material, paper, a nonwoven fabric, a cotton cloth, and a foam such as acrylic or polyethylene are preferable.

The thickness of the reinforcing substrate is preferably from 10 to 250 μm, particularly preferably from 25 to 125 μm. 25 thickness
If it exceeds 0 μm, the rigidity of the reinforcing base material becomes too high, and the shearing force due to the meandering of the guide concentrates on the endless belt, causing cracks. When the thickness is less than 10 μm, the same problem as in the case where the tensile modulus is 5000 kg / cm ² or more occurs.

(4) Adhesive As the adhesive applied to both surfaces of the reinforcing substrate, acrylic, natural rubber, synthetic rubber, silicone, and thermosetting adhesives are preferable. Among them, acrylic adhesives are particularly preferable from the viewpoint of adhesiveness and cost.

The coating thickness of the adhesive (the thickness of the adhesive layer) is 5-1.
00 μm is preferable, and particularly preferably 10 to 50 μm. When the thickness exceeds 100 μm, the guide is shifted from the adhesive layer because the elastic modulus of the adhesive is low. Also, if the thickness is 5
If it is less than μm, the adhesive strength with the guide is insufficient. The thickness of the adhesive tape in which an adhesive is applied to both surfaces of the reinforcing base material is preferably 50 to 350 μm, and particularly preferably 100 to 250 μm, after satisfying each thickness condition.

The adhesive bonding surface of the guide and the guide bonding surface of the endless belt may be subjected to corona treatment or primer treatment to improve the adhesive strength. For example, when using an acrylic adhesive as the adhesive, it is preferable to use a reaction-curable polyurethane-based primer. The guide is
It may be directly adhered to an endless belt, or may be adhered on a reinforcing tape such as biaxially stretched polyester or polyimide provided on the endless belt. In particular, when the material of the endless belt is not good in adhesiveness such as a fluorine-based resin, it is preferable to adhere to the reinforcing tape.

(5) Shape of meandering prevention guide The shape of the meandering prevention guide may be determined according to the conditions of use of the endless belt, etc. In order to obtain a sufficient meandering prevention effect, its cross section should be substantially rectangular. preferable. The width of the meandering prevention guide is 1 to 1 from the viewpoint of the meandering prevention effect and durability.
0 mm is preferred. Thickness is 0.1 ~ 2mm from the same point
Is preferred. If it exceeds 2 mm, cracks tend to occur from the side surfaces of the guide.

(6) Arrangement of meandering prevention guide From the viewpoints of meandering prevention effect, durability and reinforcing effect, it is preferable that the guide is provided at both ends of the endless belt. Further, the guide is preferably provided on the entire circumference from the viewpoint of the reinforcing effect of the endless belt, but may be interrupted to several pieces in the middle of the circumferential direction.
It is desirable to provide a gap of about 10 mm so that the ends do not touch each other or slightly touch each other when bent at the roller portion, so that unnecessary stress is not applied to the joint.

(7) Manufacturing method of meandering prevention guide The manufacturing method of the meandering prevention guide of the present invention includes, for example, the following two methods.

An adhesive is applied to both surfaces of the reinforcing substrate by a coating device or the like, and a double-sided tape in which release paper is adhered to both surfaces of the reinforcing substrate is first manufactured. A method in which the release paper on one side of the double-sided tape is peeled off, and a sheet-like guide base material is bonded with a device such as a laminator, and then cut by punching with a Thomson blade or slitting with a slitter or the like. An adhesive is applied to one surface of the continuous reinforcing base material, and a sheet-like guide material is bonded to the applied surface with a laminator or the like. Next, a method of applying an adhesive to the other surface of the reinforcing base material, laminating release paper, and cutting by punching with a Thomson blade or slitting with a slitter or the like. From the viewpoint of straightness and width accuracy of the meandering prevention guide, the method using a Thomson blade is particularly preferable among the methods.

(8) Endless Belt The meandering preventing endless belt of the present invention is used for a photosensitive device, an intermediate transfer device, a transfer separation device, a transfer device, a charging device, a developing device and the like in an electrophotographic copying machine, a laser printer and the like. Applicable to all endless belts. The endless belt may or may not have a seam.

[0033]

The present invention will be further described below with reference to specific examples. The materials used in the examples and comparative examples are as follows:
It is as follows.

1. Guide material Example 1: Urethane, JISA hardness 65Hs, 100%
Modulus 24 kg / cm ² . Nippon Valqua Industries, Ltd.
"R965 S30" (trade name). Example 2: Urethane, JISA hardness 70Hs, 100%
Modulus 29 kg / cm ² . "Esmer 70" (trade name) manufactured by Nippon Matai Co., Ltd. Example 3: Urethane, JISA hardness 92Hs, 100%
Modulus 80 kg / cm ² . Tiger Polymer Co., Ltd.
"Tairen TR100-9" (trade name). Comparative Example 1: Urethane, JISA hardness 65Hs, 100%
Modulus 24 kg / cm ² . Nippon Valqua Industries, Ltd.
"R965 S30D" (trade name). Comparative Example 2: Urethane, JISA hardness 95Hs, 100%
Modulus 120 kg / cm ² . "R5555" (trade name) manufactured by Nippon Valqua Industries, Ltd. Comparative Example 3: Urethane, JISA hardness 90Hs, 100%
Modulus 100 kg / cm ² . "R5390" (trade name) manufactured by Nippon Valqua Industries, Ltd.

2. Adhesive Example 1: Acrylic adhesive. Sumitomo 3M Co., Ltd. “Y-
9458 "(product name). 25 μm thick. Example 2: Acrylic adhesive. Sumitomo 3M Co., Ltd. “#-
927 "(product name). Thickness 50 μm. Example 3: Acrylic adhesive. Sumitomo 3M Co., Ltd. “#-
927 "(product name). Thickness 50 μm. Comparative Example 1: Acrylic adhesive. Sumitomo 3M Co., Ltd. “Y-
9458 "(product name). 25 μm thick. Comparative Example 2: Acrylic adhesive. Sumitomo 3M Co., Ltd. “Y-
9458 "(product name). 25 μm thick. Comparative Example 3: Acrylic adhesive. Sumitomo 3M Co., Ltd. “Y-
9458 "(product name). 25 μm thick.

3. Reinforcing substrate Example 1: Polyethylene having a tensile modulus of elasticity of 2800 kg / cm ² . Tamapoli Co., Ltd. "V-1" (trade name) 0.04 mm thick. Example 2: Unstretched polypropylene having a tensile modulus of elasticity of 4600 kg / cm ² . Manufactured by Toyobo Co., Ltd. "P1120" (trade name) 0.04 mm thick. Example 3 Unstretched polypropylene having a tensile modulus of elasticity of 4600 kg / cm ² . Manufactured by Toyobo Co., Ltd. "P1120" (trade name) 0.04 mm thick. Comparative Examples 1 and 3: Biaxially stretched polyethylene terephthalate having a tensile modulus of 40,000 kg / cm ² . Manufactured by Diamond Wheel Co., Ltd. "B100-25" (product name) thickness 0.02
5 mm.

Comparative Example 2: (No base material used) Endless belt Made of polycarbonate with a thickness of 150 μm, a width of 200 mm and a diameter of 200 mm.

The evaluation method in Examples and Comparative Examples is as follows.
It is as follows.

1. Guide straightness Measures the straightness of the guide bonded to the endless belt.

2. Image shift An endless belt with a guide of both ends having a width of 200 mm is used for the intermediate transfer device shown in FIG. 1 under the conditions of a roll diameter of 25 mm, a roll speed of 100 mm / min, a tension of the endless belt of 8 kg / 200 mm, 23 ° C., and a humidity of 50%. . In this case, the elapsed time until the transfer deviation reaches 0.2 mm in the transfer image on the recording paper is measured.

3. Durability Continuous driving is performed in the same manner as in the evaluation condition of the image shift, and the elapsed time until a crack occurs in the endless belt is measured.

(Example 1) Thickness 0.5 mm, hardness 65H
A double-sided tape coated with an acrylic adhesive on both sides of a polyethylene substrate is adhered to the polyurethane sheet of s while pressing the two-sided tape, and the width is 5 mm using a Thomson blade.
The sheet was punched out to a length of 628 mm to obtain a meandering prevention guide. Next, thickness 150 μm, diameter 200 mmφ, width 200 mm
A meandering prevention guide was adhered to the inner surface of the polycarbonate endless belt along the belt end surface.
One guide was adhered in a ring shape, but the gap between the opposite ends of the guide was 2 mm. With respect to the obtained endless belt, straightness of the guide, image shift, and durability were evaluated. Table 1 shows the results.

(Examples 2 and 3, Comparative Examples 1 and 3) A meandering prevention guide was obtained in the same manner as in Example 1 except that the above-mentioned materials were used for the guide. With the straightness of the endless belt guide obtained using this meandering prevention guide,
Image shift and durability were evaluated. Table 1 shows the results.

Comparative Example 2 A meandering prevention guide was obtained in the same manner as in Example 1 except that an acrylic adhesive was used as an adhesive without using a reinforcing base material. Image shift using the endless belt obtained using this meandering prevention guide,
The durability was evaluated. Table 1 shows the results.

[0045]

[Table 1]

[0046]

As described above, according to the present invention, a meandering prevention guide is formed by using a guide base having a specific hardness and a 100% modulus and using a reinforcing base having a specific tensile modulus. By doing so, a meandering prevention guide having both a sufficient meandering prevention effect and durability and also having an endless belt reinforcing effect, and an endless belt using the same can be obtained.

[Brief description of the drawings]

FIG. 1 is a side view of a main part of an intermediate transfer type copying machine.

FIG. 2 is a perspective view of a meandering prevention guide according to the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 photosensitive drum 2 charging device 3 exposure optical system 4 developing device 5 cleaner 6 endless belt 7, 8, 9 roller 10 electrostatic transfer device 11 recording paper 12 pressing roller 15 guide material 16, 17 adhesive layer 18 reinforcing substrate 19 separation Pattern

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G03G 15/02 101 G03G 15/02 101 3F024 15/08 501 15/08 501F 3F049 15/16 15/16 21 / 00 350 21/00 350 F term (reference) 2H003 CC04 EE00 2H032 BA01 BA09 BA18 BA23 2H035 CA05 CB06 CF01 CF02 CG03 2H077 AD02 AD07 FA12 FA22 3F023 AA05 BA02 BB09 BC01 GA01 3F024 AA11 BA04 CA04 CA08 CB03 CB03 CB03 CB03 CB03 CB03 CB03 CB03 CB03 LA02 LA05 LA07 LB03

Claims (2)

[Claims] A meandering prevention guide provided for preventing meandering of an endless belt has a tensile modulus of elasticity of 1,000 k.
and g / cm ^2, greater 5000 kg / cm ² less than the reinforcing base material, the thickness 5~100μ provided on both surfaces of the reinforcing base material
m and an adhesive layer having a JIS hardness of 30 Hs or more and 95 Hs or less and JIS K6301 adhered to one of the adhesive layers.
A guide substrate made of a rubber material having a 100% modulus of 5 to 100 kg / cm ² . 2. An endless belt having a meandering prevention guide, wherein the meandering prevention guide is as described in claim 1.