JPS62174786A - Nontacky elastic material roller for fixing - Google Patents

Abstract

PURPOSE:To improve the release characteristic between a toner and paper as a roller for fixing by forming an oil-contg. underlying rubber layer and nontacky layer which is coated with a fluoroplastic as a base material and has oil permeability on the outside periphery of a roller body. CONSTITUTION:The underlying rubber layer 2 contg. the silicone oil and the fluorolatex coating layer 3 are formed on the outside peripheral face of the roller body 1. The layer 3 is formed by spray-coating the liquid essentially consisting of the fluoroplastic on the outside periphery of the layer 2 and baking the same and is constituted on an inside layer 231 consisting of fluororubber, nontacky outside layer 230 consisting of the fluoroplastic and pinholes 232 formed by evaporation of water during baking. The silicone oil incorporated into the layer 2 bleeds onto the outside peripheral face and therefore, the release characteristic of the toner and paper is improved if such roller is used as a press roller. Since the outside layer 230 is relatively hard, the collapse of the outside diameter is obviated and the staining and wear of the outside peripheral surface are prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a non-adhesive elastic roller for fixing. INDUSTRIAL APPLICATION This invention can be utilized as a fixing roller of an electronic copying machine, a facsimile machine, etc., for example.

[Prior Art 1] Recently, in the field of electronic copying machines, a thermal fixing method has been adopted in which a toner image adhered to a paper is fixed by applying pressure and heat from a roller. This heat fixing method has advantages such as high speed and high thermal efficiency.

By the way, the non-adhesive elastic roller for fixing that has been conventionally used in electronic copying machines consists of a roller body, a base rubber layer coated on the outer circumference of the roller body, and a base rubber layer coated on the outer circumference of the base rubber layer. and a non-adhesive layer based on fluororesin. In this non-adhesive elastic roller for fixing, the non-adhesive layer is based on fluororesin, so it has excellent non-adhesive properties, and therefore has excellent release properties for 1-ner and paper. There is.

Furthermore, in the industry, in order to improve toner releasability and paper releasability, non-adhesive elastic fixing agents are used to apply offset prevention oil such as silicone oil to the surface of the non-adhesive layer using an oil coating member. Body rollers have previously been developed.

[Problems to be Solved by the Invention] The present invention has been made as part of the development of a non-adhesive elastic roller for fixing that adheres oil such as silicone oil to the surface of the above-mentioned non-adhesive layer, and has the purpose of This is because oil for offset prevention such as silicone oil oozes out on the outer circumferential surface of the non-adhesive elastic roller for fixing, and this causes 1 to 4 digits to bleed even when applied to the fixing roller of electronic copying machines, facsimile machines, etc. An object of the present invention is to provide a non-viscous elastic roller for fixing which ensures release properties of paper and paper.

[Means for Solving the Problems 1] The non-adhesive elastic roller for fixing according to the present invention comprises a roller body and a base rubber coated on the outer peripheral surface of the roller body and containing oil for preventing offset. and a non-adhesive layer coated with a fluororesin as a base material on the outer peripheral surface of the base rubber layer and having oil permeability.

The roller body may be solid or hollow. The roller body usually has a cylindrical shape. The roller body can be formed from three metals such as aluminum alloys, ceramics, plastic books, etc.

The base rubber layer covers the outer peripheral surface of the roller body.

The base rubber layer is mainly used to provide an elastic function to the non-adhesive elastic roller for fixing. The base rubber layer contains oil for preventing offset, such as silicone oil. In order to incorporate 1L of offset prevention oil such as silicone oil into the base rubber layer, for example, a means of impregnating the pores of the base rubber layer formed by foaming with an offset prevention oil such as silicone oil, or a method of impregnating the offset prevention oil such as silicone oil, At the time of compounding, a preventive oil such as silicone oil is added to the off-cera 1, and this rubber material is coated on the outer peripheral surface of the 1-ra body to form a base rubber layer. The base material of the base rubber layer is preferably silicone rubber from the viewpoint of cost, elasticity, etc., but in some cases, it may be fluororubber or a mixture of silicone rubber and fluororubber. The thickness of the base rubber layer is appropriately set by stretching the non-adhesive elastic roller for fixing, but it is 3 to 5 m.
It is preferable to set it as m rod degree.

Is the non-adhesive layer on the outer surface of the base rubber layer? Il'? [has been. The base material of the non-adhesive layer is a fluororesin. in this case,
The non-adhesive layer can be made of a fluoro-Tex coating. The fluorine latex coating layer is prepared by spraying a dispersion of fluororesin and fluororubber (mixed with additive n1 such as bisurfactant T1 agent) onto the outer peripheral surface of the base rubber layer, and then baking at 280°C. It is possible to form a structure by doing so.

In the fluorine latex coating layer formed in this manner, fluorine resin (FEP) having excellent non-adhesive properties oozes out to the outer surface side by firing. Therefore, the fluorine latex coating layer is formed of an outer layer made of fluoropolymer (FEP), which is non-adhesive and has excellent release properties for toner and dirt, and an inner layer made of elastic fluororubber. ing. Here, the total thickness of the fluorine latex coating table (,
The thickness of the outer layer of the fluorine latex coating layer, which is made of fluororesin (FEP) as a base material, is usually about 2 to 3 microns.

Now, in the non-adhesive elastic roller for fixing according to the present invention,
The non-layer RJ layer has an oil permeability that allows oil such as silicone oil for preventing off-ceramy to permeate therein. To make the non-adhesive layer more permeable to oil, a dispersion containing fine particles of fluororesin, such as a dispersion for forming a fluorine latex coating layer, is spray applied to the underlying rubber layer to form a film. A spray method can be used. If a spray method is adopted in this way, when a film is formed by spraying or coating, it is possible to create pores and pinholes between the fine particles, and these pores and pinholes serve to allow the oil to penetrate. . In addition, when a spray method is adopted, it is preferable to use ultrafine fluororesin particles with a particle size of about 0.1 to 1 μm, and the discharge pressure during spraying is adjusted to ensure pores and pinholes. is 2~5kg/c
m' is preferable, and after coating, it is preferable to air-dry the film or dry it at a low temperature and then sinter it. Furthermore, as a means of imparting oil permeability to the non-adhesive layer, a dispersion containing a fluororesin is applied to the base rubber layer, a film is formed, and the film is eroded and fired, and the water in the dispersion is removed from the film by firing. It is also possible to adopt a transpiration method in which the water is evaporated and the portion where the water is evaporated becomes a pinhole or pore. When employing evaporation means, it is preferable to sinter the film without drying the film after coating.

This is to ensure the amount of moisture evaporation and the formation of pores and pinholes. In a special case, it is also possible to employ a method of irradiating the non-adhesive layer formed by firing with a laser beam to form minute holes in the non-adhesive layer.

[Function] The adhesive elastic roller for constant n according to the present invention is used in a state where the base rubber layer is impregnated with an oil for off-sera prevention, such as silicone oil. In this way, when the base rubber layer contains oil for offset prevention such as silicone oil, the base rubber layer is impregnated with the oil from the end side in the axial direction of the non-adhesive elastic roller for fixed stones. Alternatively, the entire non-adhesive elastic roller for fixing is immersed in a tank storing oil such as the silicone oil, and the oil is impregnated into the base rubber layer through the non-adhesive layer that is permeable to oil. be able to.

If a non-adhesive elastic roller for fixing is used with the base rubber layer containing oil such as silicone oil, the oil such as silicone oil contained in the base rubber layer will become non-stick as it is used. It passes through the adhesive layer itself and bleeds onto the outer peripheral surface of the non-adhesive layer of the non-adhesive elastic roller for fixing.

[Example] The non-adhesive elastic roller for fixing according to this example is applied to a pressure roller for thermal fixing of an electronic copying machine. Here, the pressure roller is a mating roller of the heating roller having a built-in heater, and is in circumferential contact with the heating CI-roller. The non-adhesive elastic roller for fixing according to this embodiment has a roller body 1
and [1-base rubber layer 2 coated on the outer circumferential surface of the main body 1
and a fluorine latex coating layer 3 as a non-adhesive layer coated on the outer peripheral surface of the base rubber layer 2.

The roller body 1 is made of aluminum and has an outer circumferential diameter of 3Qmm. A support shaft 10 is formed at both ends of the roller body 1.

The base material of the base rubber layer 2 is silicone rubber. The base rubber layer 2 contains silicone oil. In order to contain silicone oil in the base rubber layer 2, in this embodiment, after forming the roller, it is immersed in a silicone oil bath.
Try L dipping.

This fluorine latex coating VI3 is made by spraying a dispersion of fluororesin (FEP) and fluorine rubber with additives such as surfactants onto the outer peripheral surface of the base rubber layer 2 using a spray gun as shown in FIG. After that, without drying, the roller body 1 is held in the holder 70a of the electric furnace 7 as shown in FIG. 5, and this film is heated at 280° C. for 30 minutes. Heater 70 of electric furnace 7
It is formed by firing. As a result,
Fluororesin (FEP), which has excellent non-adhesive properties, seeps out to the outer surface. Therefore, as shown in FIG. 1, the fluorine latex coating layer 3 has an outer layer 230 made of fluororesin (FEP) with excellent non-adhesive properties and an inner layer 230 made of elastic fluorine rubber as a base material. 7231.

By the way, in this example, the water in the film evaporates during firing. Therefore, as schematically shown in FIG.
A pinhole 232 is formed in 1. Here,
゛Fluorine latex coating layer 3 as a non-adhesive layer
The total thickness is about 40 microns, and the thickness of the outer layer 230 of the latex coating layer 3, which is made of fluororesin (FEP) as a base material, is about 2 to 3 microns.

The non-adhesive elastic roller for fixing according to this embodiment is used with the base rubber layer 2 containing silicone oil. In order to incorporate silicone oil into the base rubber layer 2 in this manner, after coating the base rubber layer 2 with the fluorine latex coating layer 3 having pinholes 232 to form a non-adhesive elastic roller for fixing, The entire non-adhesive elastic roller for fixing is immersed in a tank containing silicone oil, and the base rubber layer 2 is impregnated with the silicone oil through the pinholes 232 of the fluorine latex coating layer 3.

If the non-adhesive elastic roller for fixing according to this embodiment is used as the pressure roller of the heat fixing method in a state where the base rubber layer 2 contains no silicone oil, the base rubber layer 2 contains no silicone oil. The silicone oil passed through the pinholes 232 of the fluorine latex coating layer 3 and oozed out onto the outer peripheral surface of the non-adhesive elastic roller for fixing. It can be improved.

In addition, the fluorine latex coating layer 3 having the pinholes 232 with oil permeability is relatively hard, so even when the silicone oil contained in the base rubber layer 2 oozes out from the pinholes 232, it cannot be used for fixing. This has the advantage that the outer circumferential diameter of the non-adhesive elastic roller itself is less likely to fluctuate. This is different from the case where, although silicone oil is contained in the rubber layer coated on the outer peripheral surface of the roller body, if the silicone oil oozes out, the outer peripheral diameter of the non-adhesive elastic roller for fixing is likely to change.

In the above-mentioned embodiments, the pressure roller is a non-adhesive elastic roller, but instead of this, the pressure roller may be applied to a heating roll with a built-in heater. Of course, the non-adhesive elastic roller for fixing according to the above-mentioned example was measured for [1--roller diameter change and roller stain]. The measurement method is to apply silicone 1'/L/(1
00CS, 15W t%) A gold-containing non-adhesive elastic roller for fixing was used, and this non-adhesive elastic roller for fixing was used as a pressure roller of a thermal fixing type electronic copying machine. Ta. Note that Comparative Example 1 and Comparative Example 2 were also measured in the same manner.

In addition, the non-adhesive elastic body roller for fixing according to Comparative Example 1 [1-R], the non-adhesive elastic body roller for fixing according to Comparative Example 2 is basically the non-adhesive elastic body roller for fixing according to the example. It has the same configuration as the elastic roller. However, in the non-adhesive elastic row for fixing according to Comparative Example 1, the base rubber layer does not contain silicone oil, and the fluorine latex coating layer coated on the base rubber layer is oil permeable. It has no pinholes. Further, in the non-adhesive elastic roller for fixing according to Comparative Example 2, silicone oil is contained in the base rubber layer in which MU is silicone rubber, and the fluorine latex coating layer is not coated.

The measurement results are shown in the table.

Non-adhesive elastic body for regular use according to Comparative Example 1 [1-La,
Since it does not contain silicone oil, the outer layer of fluororesin with a thickness of 3 microns wears out in the middle of its life, and as a result, after 50,000 to 70,000 copies are made, the roller gets so dirty that copying becomes virtually impossible. In addition, in the case of the non-adhesive elastic roller for fixing according to Comparative Example 2, the silicone oil contained in the base rubber layer ran out and after 20,000 to 30,000 copies were made, the roller stains became large and the copying was interrupted. Also, because the silicone oil contained in the base rubber layer comes out,
The outer diameter of the base rubber layer changes greatly, 15 to 20/10
The change was about 0 mm, and as a result, image unevenness such as paper wrinkles and solid black appeared on the copied paper.

On the other hand, in the case of the non-adhesive elastic body 1''-ra for fixing according to the present example, there was considerably less staining on the roller, and staining on the roller occurred when 80,000 to 100,000 copies were made. Furthermore, there is little change in the diameter of the roller, which is a drawback of oil-containing rollers, i.e. 3 to 5/1
The diameter change was small at 0.00 mm, so there were no image irregularities such as wrinkles or solid black on the copied paper.

[Effects of the Invention] As explained above, in the non-adhesive elastic roller for fixing according to the present invention, an offset prevention material such as silicone oil is applied to the outer peripheral surface of the non-adhesive layer of the non-adhesive elastic roller for fixing. Oil oozes out. Therefore, even when applied to a fixing roller of an electronic copying machine, a facsimile machine, etc., the toner releasability and paper releasability can be improved by a single layer. Therefore, it is effective in preventing staining of the outer circumferential surface of the roller and preventing wear of the non-adhesive layer that is the outer circumferential surface of the roller.

In addition, if the oil-permeable non-adhesive layer is formed of a fluorine latex coating layer with pores or pinholes, the fluorine latex coating layer is harder than the base rubber layer, so the amount of water contained in the base rubber layer is Is it possible that the oil such as silicone oil that has been applied can be handled through the non-adhesive layer and the outer diameter of the base rubber layer changes somewhat? The outer circumference of the non-adhesive elastic roller itself (for fixing) has the advantage that fluctuations are less likely to occur. 1- Although the release properties of toner and paper are improved by impregnating the oil for prevention, if the oil oozes out from the rubber layer, the outer circumference of the rubber layer, that is, the outer circumference of the adhesive elastic roller for fixing. This is different from the case where fluctuations are likely to occur.

[Brief explanation of drawings]

The drawings show one embodiment of the present invention, and FIG. 1 is a sectional view schematically showing the main part of the outer periphery of a non-adhesive elastic roller for fixing, and FIG. FIG. 3 is a side view showing a state where the roller body is coated with a base rubber layer, and FIG. 4 is a side view showing a state where a base rubber layer is coated on a roller body. FIG. FIG. 5 is a perspective view showing the rubber layer being coated, and FIG. 5 is a cross-sectional view of the inside of the electric furnace showing the firing state. In the figure, 1 is the roller body, 2 is the base rubber layer, and 230 is the outer I.
I, 231 shows the inner layer, 232 shows the pinhole, and 3 shows the fluorine latex coating layer (non-adhesive layer).

Claims (5)

[Claims] (1) A roller body, a base rubber layer coated on the outer peripheral surface of the roller body and containing oil for offset prevention, and a base rubber layer coated with a fluororesin as a base material on the outer peripheral surface of the base rubber layer to provide oil permeability. A non-adhesive elastic roller for fixing, comprising a non-adhesive layer. (2) The non-adhesive elastic roller for fixing according to claim 1, wherein the non-adhesive layer is a fluorine latex coating layer having pores and pinholes. (3) The non-adhesive elastic roller for fixing according to claim 1, wherein the non-adhesive layer is formed by spray coating the base rubber layer with a dispersion in which fine particles of fluororesin are dispersed. (4) The fixing layer according to claim 1, wherein the non-adhesive layer is formed by applying a dispersion containing a fluororesin to the base rubber layer and then baking it to evaporate water in the dispersion. non-stick elastic roller. (5) The non-adhesive elastic roller for fixing according to claim 1, wherein the base material of the base rubber layer is silicone rubber.