JPH05169566A - Production of roller - Google Patents

Abstract

PURPOSE:To produce a roller excellent in durability by strongly bonding a fluoroplastic tube and an elastomer. CONSTITUTION:The surface of the inner wall of a plastic tube 5 is roughened by preliminarily roughening the surface of an extrusion die for forming the tube by extrusion molding or roughening the molded tube by sand paper. Thereafter, the fluoroplastic tube is dipped in an etching solution to be subjected to etching treatment. A primer 6 is applied to the treated tube and an elastic roller 3 wherein an elastomer 3 is formed on a core metal is inserted in the tube 5 to be integrated therewith under heating. Therefore, the primer 6 penetrates in the recessed parts of the roughened surface of the inner wall and the contact surface of the fluoroplastic tube 5 with the primer 6 is increased and the elastomer 6 is meshed with the roughened inner wall of the tube 5 to be more strongly bonded to the tube 5. Further, the functional group formed by etching is chemically bonded to the primer to more strongly bond the elastomer and the tube.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a roller used in a toner fixing section of a laser printer, an electronic copying machine or the like.

[0002]

2. Description of the Related Art A toner fixing section roller of an electronic copying machine or a laser printer is composed of a heating roller and a pressure roller, and the toner heated by the heating roller is pressure-bonded to the paper passing between them by the pressure roller. Is transferred to and printed. Such a fixing unit roller is required to have appropriate elasticity and good releasability from the toner in order to stabilize the sheet passing. In addition, with the demand for higher speed and smaller size of electronic copying machines and laser printers equipped with fixing section rollers, downsizing and speeding up have become problems. Therefore, with a single-layer roller having only the elastic body on the cored bar, a roller with low hardness that can secure the nip width, smooth surface, good paper-passing property, and excellent durability can be obtained. There wasn't. Therefore, a roller having a multi-layer structure is used in which an elastic body having appropriate elasticity is provided on a cored bar, and an outermost layer having good releasability is laminated on the elastic body.

A roller having such a multi-layer structure must have heat resistance and good thermal conductivity, silicone rubber or fluororubber is used as an elastic body, and a perfluoroalkoxy resin (PFA resin) is used as the outermost layer. A fluororesin such as polytetrafluoroethylene resin (PTFE resin) is used. These outermost layers are formed by casting on a cored bar, or by coating and baking a fluororesin on an elastic body provided by winding unvulcanized sheet rubber around the cored bar. , Or electrostatic powder coating.

However, it is difficult to uniformly coat the fluororesin on the elastic body, and uneven thickness occurs if the roller is not always kept rotating during the curing of the fluororesin after coating. Further, if foreign matter is mixed into the coating liquid, an abnormal appearance will occur. Therefore, it is necessary to manage to prevent foreign matter from being mixed into the coating liquid, considerable equipment is required, and work efficiency is poor. Moreover, the high temperature heating for curing the fluororesin having a melting point higher than that of the silicone rubber forming the elastic layer leads to deterioration of the silicone rubber, resulting in a decrease in durability.

[0005]

Therefore, a method is used in which an elastic body is formed on a cored bar and is inserted into a tube which is the outermost layer to form a tube covering roller. To manufacture a tube-covered roller, a fluororesin tube is used.Into this tube, insert an elastic roller in which an elastic body such as silicone rubber that achieves the desired nip width is formed on a cored bar. To produce a roller.

However, particularly when a fluorine resin such as PFA resin or PTFE resin is used as the outermost layer and a silicone rubber is used as the elastic body, it is difficult to heat-bond each other to be integrated, and the inner surface of the fluorine resin tube is etched. Even if it processed, the desired adhesive strength was not obtained. Furthermore, in the worst case, the tube may rise from the elastic body. Therefore, the durability of the roller cannot be said to be satisfactory.

The present invention has been made to solve the above-mentioned drawbacks, has a long life even at high temperatures, allows stable paper passage, has good releasability from toner, and has a fluororesin tube. An object of the present invention is to provide a method for manufacturing a roller having excellent durability that is firmly adhered to an elastic body.

[0008]

In order to achieve the above object, in the method for manufacturing a roller of the present invention, when an elastic roller is inserted into and integrated with a fluororesin tube to manufacture the roller, an inner wall of the fluororesin tube is formed. Is roughened and then etched, and the elastic roller is inserted into the fluororesin tube through a primer.

[0009]

Function: Before inserting the elastic roller having the elastic body formed on the core metal into the fluororesin tube, the inner surface of the fluororesin tube is roughened and then etched. After that, a primer is applied to the elastic body or the fluororesin tube, the elastic roller is inserted into the fluororesin tube, and the unvulcanized rubber of the elastic body is cured by heating and adhered to the fluororesin tube to be integrated. Manufacture rollers. When the inner surface of the tube is roughened to increase the area in contact with the primer layer, the effect of meshing is obtained due to the unevenness. Further, by etching, a functional group is formed on the surface of the fluororesin tube to bond the tube and the primer layer, and firmly bond the tube and the elastic body. Thereby, a roller having excellent durability can be obtained.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment to which the roller manufacturing method of the present invention is applied will be described with reference to the drawings. In the roller 1 manufactured by the method for manufacturing a roller of the present invention, as shown in FIG. 1, a fluororesin tube 5 is bonded as an outermost layer to an outer circumference of an elastic roller 4 in which an elastic body 3 is formed on a cored bar 2. It is an integrated one.

The cored bar 2 is made of a material having good adhesion to the elastic body 3, such as iron or aluminum. Further, the elastic body 3 is preferably one that is less deteriorated by heat, and has appropriate elasticity so as to satisfy the paper passing property, and is made of silicone rubber, fluororesin or the like. Further, the fluororesin tube 5 serving as the outermost layer has little deterioration due to heat, has excellent releasability from the toner, and has a small friction coefficient, and is made of polyfluoroalkoxy resin (PFA resin) or polytetrafluoroethylene resin (PTFE). Resin) etc.

In order to manufacture such a roller 1, first, the elastic body 3 is formed on the cored bar 2 and the elastic roller 4 is prepared. To prepare the elastic roller 4, the core metal 2 coated with a primer is formed by heating a silicone rubber or the like and primary vulcanizing it and winding it into a sheet or winding it. Good. On the other hand, fluororesin tube 5
Increases the surface area by roughening the inner surface. The degree of roughening is preferably an average roughness R _{z of} 0.5 to 5 μm. As a roughening method, a fluororesin tube is extruded and formed. A tube extrusion die (not shown) is pre-formed to the desired roughness, and when the tube is extruded, the inner surface is formed to the desired roughness. Resulting in. Alternatively, the fluororesin tube 5 may be mounted inside a pipe (not shown), and the fluororesin tube may be fixed by sucking air between the pipe and the fluororesin tube so that a desired roughness can be obtained with sandpaper or the like. May be coarse. As shown in FIG. 2, the roughened fluororesin tube 5 has an uneven portion, and the primer 6 interposed between the roughened fluororesin tube 5 and the elastic body 3 enters the recess 51,
Increasing the fusion surface with the fluororesin tube.

Fluororesin tube 5 having an inner surface roughened
Is further etched. The etching process is performed by using S in the impregnating apparatus shown in FIG. The impregnating device S is provided with an injection port 11 which is inserted into the lower opening 5a of the fluororesin tube 5 which is supported upright by the support 10 which supports the upper opening 5b of the fluororesin tube 5.
The container 13 for storing the etching liquid 7 is provided on the top. A projecting portion 14 is provided on the upper portion of the etching liquid storage container 13, and a gas supply nozzle 15 for supplying a gas such as nitrogen gas is provided on the upper portion of the projecting portion 14. By making the horizontal cross-sectional area of the projecting portion 14 larger than the horizontal cross-sectional area of the injection port 11, that is, the fluororesin tube 5.
The inner wall of the fluororesin tube 5 can be impregnated with the etching liquid 7 without increasing the height of the protruding portion 14. The gas supplied from the gas supply nozzle 15 to the storage container 13 is preferably one that does not react with the etching liquid 7, and nitrogen gas or the like is preferable.

In order to etch the inner surface of the fluororesin tube 5 using the impregnating apparatus S as described above, Na /
The inlet 11 of the storage container 13 filled with the etching solution 7 such as a naphthalene complex salt solution is inserted into the opening 5a of the fluororesin tube 5, and the opening 5b of the fluororesin tube 5 is supported by the support 10 to support the fluororesin tube. Make 5 upright. After that, nitrogen gas is supplied to the storage container 13 from the gas supply nozzle 15, and the liquid surface of the etching liquid 7 on the protruding portion 14 is pressed by and lowered. The etching liquid 7 rises from below into the inside of the fluororesin tube 5 which is erected on the inlet 11. By raising the etching solution from below,
The inner wall surface of the fluororesin tube 5 can be gradually raised without splashing on the inner wall of the tube, and uniform etching treatment can be performed. The temperature of the Na / naphthalene complex salt solution is preferably 10 to 40 ° C. At 10 ° C or lower, the etching effect is weak, and at 40 ° C or higher, the Na / naphthalene complex salt solution deteriorates. The liquid surface of the etching liquid 7 reaches the vicinity of the upper opening 5b of the fluororesin tube 5 to impregnate the inner wall of the fluororesin tube 5, and then the nitrogen gas supplied to the protruding portion 14 is exhausted to discharge the fluororesin tube. The etching solution 7 in 5 is drained and the etching is completed. Such impregnation treatment is preferably completed in 5 to 30 seconds. Thereby, a functional group is formed on the surface of the fluororesin tube 5.

After that, a primer is applied to the inner wall of the fluororesin tube 5 or the surface of the elastic roller 4 having a functional group formed on the inner wall surface by etching. Then, the elastic roller 4 is inserted into the fluororesin tube 5. The insertion method is to attach a fluororesin tube to a pipe (not shown),
The fluororesin tube is fixed by sucking air between the pipe and the fluororesin tube, and the elastic roller is inserted. After that, the silicone rubber, which becomes an elastic body, is cured by heating, and the elastic body and the fluororesin tube are bonded and integrated together. By heating, the primer enters into the concave portions of the fluororesin tube roughened in an uneven shape, the contact surface between the fluororesin and the primer increases, and the fluororesin tube meshes with and firmly adheres to the fluororesin tube. Further, when the silicone rubber (elastic body) is cured, the functional groups formed by the etching treatment chemically bond with the components of the primer, so that the adhesion becomes stronger.

The above description is an explanation of one embodiment of the roller manufacturing method of the present invention, and the present invention is not limited to this.
For example, a fluororesin tube is roughened and etched, and a cored bar is coaxially fixed to a mold, and the cored bar is
The roller may be manufactured by injecting liquid rubber between the tubes to simultaneously manufacture the elastic roller and coat the fluororesin tube. <Examples> Examples will be described below.

PFA having an outer diameter of φ48.5 mm and a thickness of 50 μm
The tube was mounted in a metal pipe having an inner diameter of 50 mm, and the space between the pipe and the tube was depressurized and held. Sandpaper was applied to the inner wall of the PFA tube to obtain a surface average roughness R _{z of} 5 μm. After that, it was impregnated with a Na / naphthalene complex salt solution for 30 seconds, and an elastic roller having a silicone rubber formed on a core metal was inserted and bonded through an adhesive to obtain a roller having an outer diameter of 50 mm.

The obtained roller was set in a fixing device set to an H / R temperature of 230 ° C., a peripheral speed of 360 mm / sec, and a load between rollers of 60 kg, and was idly rotated for a durability test. As a result of observing whether the tube coating floats or breaks, 1
It showed a durability of 600 hours. As a comparative example, the inner wall of the PFA tube was not roughened with sandpaper, and otherwise the roller was manufactured in exactly the same manner as in the example. Surface roughness is 0.3 μm
Met. The same durability test was performed. Endurance time is 40
It was 0 hours.

[0019]

As is apparent from the above description, according to the roller manufacturing method of the present invention, the inner wall of the fluororesin tube is roughened and etched, and then bonded to the elastic roller through the primer. The primer penetrates into the concavo-convex portion of the fluororesin tube to increase the contact area with the primer and mesh with the primer to firmly bond it.
In addition, since a functional group is formed on the inner wall surface of the etched fluororesin tube, it is chemically bonded,
A stronger bond is obtained and the durability of the roller is significantly improved.

[Brief description of drawings]

FIG. 1 is a sectional view of a roller manufactured by an embodiment to which a roller manufacturing method of the present invention is applied.

FIG. 2 is a diagram showing a main part of the roller shown in FIG.

FIG. 3 is a diagram showing an apparatus for manufacturing the roller shown in FIG.

[Explanation of symbols]

 1-Roller 4-Elastic roller 5-Fluorine resin tube 6-Primer

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Junichi Fukahori 2-1-1 Oda Sakae, Kawasaki-ku, Kawasaki City, Kanagawa Prefecture, Showa Electric Wire & Cable Co., Ltd. 2-1-1 No. 1 Showa Electric Wire & Cable Co., Ltd.

Claims (1)

[Claims] 1. When a roller is manufactured by inserting and integrating an elastic roller into a fluororesin tube, the inner wall of the fluororesin tube is roughened and then subjected to an etching treatment, and the fluororesin tube is subjected to the above-mentioned treatment with a primer to form A method for manufacturing a roller, comprising inserting an elastic roller.