JP2004317788A - Fixing unit roller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fixing unit roller which is excellent in all of quick start property, hot offsetting suppression property, continuous paper feeding property, and durability so as to cope with high speed continuous color printing. <P>SOLUTION: The fixing unit roller 1 is provided with an elastic layer 3 constituted of a core shaft 2 and a plurality of layers provided on the core shaft and a surface mold-released layer 4 provided on the elastic layer, and the heat conductivity of the outermost layer of the elastic layer 3 is set as ≥0.6W/(mK), and the inner layer of the elastic layer is formed as a heat insulating layer. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００４０】
加圧ローラーの弾性体層がスポンジ単層からなる場合（▲１▼）が、断熱性が高いので昇温時間が最も短い。しかしながら、スポンジ単層の場合には、その低い熱伝導性ゆえに連続通紙性及びホットオフセット抑制性において著しく劣り、発泡構造ゆえにカラー対応性（耐久性）において劣る。よって、スポンジ単層の場合（▲１▼）は、連続通紙性、ホットオフセット抑制性及び／又はカラー対応性（耐久性）が要求される機器には適さない。
【００４１】
表１及び図５から分かるように、ゴム層２層の場合（▲３▼）にゴム層単層の場合（▲２▼）よりも昇温時間が大幅に短縮されている。また、熱伝導率については、ゴム層２層の場合（▲３▼）について見てみると、単純に熱伝導率が低いほど昇温時間が短くはなっておらず、０．６Ｗ／（ｍ・Ｋ）以上の場合に昇温時間が最小となっている点に留意すべきである。
【００４２】
よって、表１及び図５から、加圧ローラーの弾性体層がゴム層２層で構成され、その外側ゴム層の熱伝導率が０．６Ｗ／（ｍ・Ｋ）以上の場合に昇温時間が最小となることが分かった。
【００４３】
【発明の効果】
定着器用ローラーに要求される４つの特性、すなわちクイックスタート性、ホットオフセット抑制性、連続通紙性及びカラー対応性（耐久性）について、本発明による加圧ローラーと従来技術による加圧ローラーとの間で比較した結果を表２にまとめる。表２における各特性についての評価の記号において、◎は非常に良好、○は良好、△はやや悪い、×は悪いことを表している。
【００４４】
【表２】

【００４５】
比較した従来技術による加圧ローラーは、▲１▼ソリッドゴム層＋表面離型層からなる構成、▲２▼発泡体（スポンジ）層＋表面離型層からなる構成、▲３▼発泡体層＋ソリッドゴム層＋表面離型層からなる構成（従来の三層構造）の３種類である。
【００４６】
概略的にいえば、要求されるプリント速度が低速の場合には、加圧ローラーに対して断熱性が重視され、低い熱伝導率が要求される。一方、要求されるプリント速度が高速の場合には、加圧ローラーに対して蓄熱（保熱）性が重視され、高い熱伝導率が要求される。
【００４７】
表２からも分かるように、本発明は、以上説明したように構成されているので、クイックスタート性、ホットオフセット抑制性、連続通紙性及びカラー対応性のすべてにおいて良好であり、高速の連続カラー印刷等にも対応できる。
【図面の簡単な説明】
【図１】本発明による定着器用ローラーの縦断面図（ａ）と横断面図（ｂ）である。
【図２】本発明によるローラーを加圧ローラーとして用いた定着器を示す。
【図３】本発明によるローラーを加熱ローラーとしても用いた定着器を示す。
【図４】本発明によるローラーを加熱ローラーとしても用いた別の定着器を示す。
【図５】加圧ローラーの弾性体層の熱伝導率と加圧ローラー表面の昇温時間との関係を示すグラフである。
【図６】従来の定着器用ローラーの縦断面図である。
【図７】別の従来の定着器用ローラーの縦断面図である。
【符号の説明】
１ ローラー
２ 芯軸
３ 弾性体層
３−１ 断熱性弾性体層
３−２ 高熱伝導性弾性体層
３−３ 発泡弾性体層
３−４ ソリッド弾性体層
４ 表面離型層
６ 外部加熱ローラー
７ ヒーター
８ 反射板
９ 加熱ローラー
１０ 記録材シート
１１ トナー[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a fixing device roller used in a copying machine, a facsimile, a laser beam printer, and the like.
[0002]
[Prior art]
A fixing device used in a copying machine, a printer, or the like heats and presses a toner image transferred onto a recording material sheet such as a recording sheet or an OHP sheet to fuse and fix the toner image onto the recording material sheet. Generally, a heating roller and a pressure roller are arranged in pressure contact with each other, and the toner image is fixed by passing the recording material sheet after transfer through the pressure contact portion (nip portion).
[0003]
As a conventional pressure roller for a fixing device, as shown in FIG. 6, there is a pressure roller in which an elastic layer made of a foam is provided on a core shaft and a surface release layer is provided thereon. reference). The surface release layer has toner releasability and prevents contamination by toner.
[0004]
When the elastic layer is formed of a single layer of a foam, the warm-up time of the fixing device is reduced as compared with a case where the elastic layer is formed of a single layer of a solid rubber (that is, the “quick start property” is reduced). good). This is because the thermal conductivity of the foam monolayer constituting the elastic layer of the pressure roller is low, so that the heat of the heating roller is not easily transmitted to the pressure roller, and the temperature rise on the surface of the heating roller is accelerated.
[0005]
However, in this configuration, since the temperature of the surface of the pressure roller is low at the time of initial movement, the amount of heat lost to the paper during continuous paper passing cannot be compensated, and the surface temperature of the heating roller decreases, and the amount of heat sufficient to melt the toner is reduced. However, a defect such as image omission occurred in the fixed image (that is, inferior to "continuous paper feedability" at the time of initial movement).
[0006]
Also, even in the steady state where the pressure roller side is sufficiently warmed, the low thermal conductivity of the elastic layer is a disaster, and only the surface of the pressure roller is deprived of heat during continuous paper passing, and the inner layer In the same manner, the same trouble as that at the time of the initial operation occurred immediately (ie, the "continuous paper-passing property" in a steady state was inferior) without the heat being compensated.
From the above, the pressure of the continuous paper passing cannot be increased by the pressure roller having the elastic layer of the foam single layer, and the application is limited to only the so-called low-speed machine.
[0007]
Furthermore, in the case of color printing, particularly high durability is required.However, when the elastic layer is formed of a single layer of foam, due to its configuration, the durability is lower than that of a solid elastic layer. There was a disadvantage that it was inferior (that is, inferior to "color compatibility"). It has been found that this is due to the fact that the foam cell is broken by the continuous stress of large deformation in the vicinity of the surface layer at the contact portion with the heating roller.
[0008]
Further, when a small-sized recording material sheet is continuously passed through the nip portion of the fixing roller, the temperature of the non-paper passing area of the roller becomes excessively higher than the temperature of the paper passing area, and subsequently, the temperature becomes larger. When a recording material sheet of a size is passed, uneven fixing and wrinkles are generated on the recording material sheet, and the toner corresponding to the non-paper passing area is excessively melted and adheres to the heating roller, and the surface of the recording material sheet is removed. There has been a problem of causing so-called "hot offset" such as soiling (that is, poor in "hot offset suppression"). This is because when the small-sized recording material sheet is passed through the nip between the rollers, the heat of the roller surface is taken away by the recording material sheet in the paper passing portion area of the roller, but the heat of the roller surface in the non-paper passing portion area. Is not deprived and heat is stored.
[0009]
In order to solve such a defect, as shown in FIG. 7, an elastic layer made of a foam is provided on a core shaft, a solid elastic layer is provided thereon, and a surface release layer is provided thereon. A roller having a configuration has been proposed (for example, see Patent Document 2). The solid elastic layer disclosed in Patent Document 2 is obtained by curing liquid silicone rubber to form a solid layer. There is no limitation on the thermal conductivity of the elastic layer.
[0010]
[Patent Document 1]
JP-A-11-167301 [Patent Document 2]
Japanese Patent Publication No. Hei 8-16814
[Problems to be solved by the invention]
However, in recent years, compared to the time of filing of Patent Document 2, the demand for color printing levels of copying machines and printers has become stricter, and the speed has been increased. For this reason, even in a roller having a configuration in which the elastic layer is composed of a foam layer and a solid rubber layer, the same problem as in the case where the elastic layer is only a single foam layer occurs during continuous color printing at high speed. I was
[0012]
Also, with a roller in which the elastic layer is composed of a foam layer and a solid rubber layer, it is difficult to lower the thermal conductivity of the solid rubber layer, so the heat of the heating roller is absorbed halfway, The heat insulating effect of the foam layer was weakened, and the warm-up time had to be longer than in the case where the elastic layer consisted of only a single foam layer.
[0013]
Accordingly, the present invention provides a roller for a fixing device that is excellent in all of quick start property, continuous paper feed property, color compatibility (durability), and hot offset suppression property so as to be able to cope with high-speed continuous color printing. The purpose is to do.
[0014]
[Means to solve the problem]
In order to achieve the above object, the present invention provides a fixing device roller including a core shaft, a plurality of elastic layers provided on the core shaft, and a surface release layer provided on the elastic layer. The thermal conductivity of the outermost layer of the elastic layer was 0.6 W / (m · K) or more, and the inner elastic layer was a heat insulating layer.
[0015]
By providing such an elastic outermost layer having high thermal conductivity, the heat of the heating roller can be efficiently transmitted to the surface layer of the pressure roller, and the surface layer of the pressure roller can be heated without a time difference from the surface layer of the heating roller. Becomes possible. In addition, a heat insulating effect is exhibited at the boundary between the heat insulating layer and the outermost layer of the elastic body having high thermal conductivity. As a result, the warm-up time can be reduced.
[0016]
Also, regarding continuous paper feeding, since the vicinity of the surface layer of the pressure roller is sufficiently warmed when the temperature of the heating roller is raised, the temperature difference from the heating roller is small, and the surface temperature of the heating roller is lowered. It is possible to maintain a high printing level without the need for a large amount of high-speed continuous paper passing.
[0017]
The elastic body layer used as the heat insulating layer preferably has a thermal conductivity of 0.15 W / (m · K) or less. When the thermal conductivity exceeds 0.15 W / (m · K), the heat flow from the surface of the pressure roller increases, and as a result, the entire pressure roller must be warmed at the time of initial movement, and the warm-up time is long. Because it becomes. This heat insulating layer can be, for example, a sponge layer or a foam layer.
[0018]
When the thermal conductivity of the outermost layer of the elastic body is less than 0.6 W / (m · K), the heat flow from the heating roller is small, and the temperature difference between the heating roller surface and the pressure roller surface is large. However, since it does not work as a substantial heat insulating layer, the temperature of the heating roller is prevented from rising, and the warm-up time becomes longer.
[0019]
When the thermal conductivity of the outermost layer of the elastic body is less than 0.6 W / (m · K), the temperature drop due to the amount of heat taken by the paper during continuous high-speed paper passing is large, and the temperature difference from the heating roller is large. It becomes a factor of lowering the surface temperature of the heating roller.
[0020]
Therefore, the roller of the present invention has a core shaft and two or more elastic layers laminated on the core shaft, and is a roller provided with a surface release layer on the laminated elastic layer. The outermost layer of the layer is an elastic layer having a thermal conductivity of 0.6 W / (m · K) or more, more preferably 0.75 W / (m · K) or more, and the inner layer thereof is preferably 0.15 W / (m · K). It is a heat insulating elastic layer having a thermal conductivity of not more than (mK), more preferably not more than 0.12 W / (mK).
[0021]
However, if the outermost layer of the elastic body having high thermal conductivity is too thick, the heat insulating layer cannot sufficiently exhibit heat insulation. Therefore, the thickness of the outermost layer of the elastic body is desirably 2 mm or less.
[0022]
So far, the pressure roller has been mainly described, but the roller of the present invention can also be used as a heating roller. Although it is not suitable for heating from the inside due to the presence of the heat-insulating elastic body layer, it is possible to quickly raise the temperature of only the surface layer by performing appropriate heating from the outside. As a result, it is possible to easily obtain a heating roller having a low surface hardness and a fast temperature rise.
[0023]
When a multi-layer toner is melted as in a color printer, the contact width between the heating roller and the pressure roller (nip) should be set at a low pressure so as not to crush the toner too much, and to transfer heat to the toner for as long as possible. There is a demand for a heating roller having a low surface hardness that increases the width.
[0024]
Usually, in order to obtain a low-hardness roller, there is a first method in which the elastic layer is made of a foam, and a second method in which a low-hard solid elastic body is used.
[0025]
In the first method, the elastic layer becomes a heat insulating layer and is not suitable for heating from the inside. Further, even if a method of externally heating is adopted, the temperature of only the surface release layer rises, so that a sufficient amount of heat to melt the toner cannot be stored.
[0026]
Further, the roller for the color machine requires a larger nip width than the monochrome machine, so that the deformation amount increases, and the foam cells are destroyed at an early stage, so that the product life is shortened.
[0027]
In the second method, since the elastic body is solid, heating from the inside is also possible.However, the low-hardness elastic body often contains a large amount of oil, and involves a larger deformation than the monochrome machine. In a color machine, the phenomenon of oil seeping easily occurs, and the service life is also very short.
[0028]
In the roller of the present invention, the heat insulating layer of the elastic body layer is made of a foam, so that the surface hardness can be easily reduced. This eliminates the need to reduce the hardness of the outermost layer of the elastic body, which is the outer layer, so that oil does not ooze out, and the outermost layer of the elastic body acts as a stress relaxation layer for the foam of the inner layer. Can greatly extend the product life as compared with the case where the material consists only of a foam.
[0029]
Further, since the outermost layer of the elastic body having high thermal conductivity is present, a sufficient amount of heat for melting the toner can be stored in the surface layer of the roller.
[0030]
As described above, the roller of the present invention can easily reduce the hardness of the roller surface, can retain a sufficient amount of heat to melt the toner, and has excellent durability, and Also suitable for use as a roller.
[0031]
Also, when the roller of the present invention is used as a pair as a heating roller and a pressure roller, since there is no difference in surface hardness between the two, the nip portion is flat, and the curl phenomenon that the paper warps when passing the paper is suppressed. can do.
[0032]
The thermal conductivity of the elastic layer in the fixing device roller according to the present invention is, for example, as disclosed in JP-A-2000-302971, JP-A-11-158383, and JP-A-9-111124. A desired value can be set by blending a fine powder of silica, alumina, magnesia, or the like into a composition of an elastic body (for example, silicone rubber) at a predetermined ratio.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described based on examples with reference to the drawings.
FIG. 1 shows the configuration of a fixing device roller according to the present invention. FIG. 1 (a) is a longitudinal sectional view, and FIG. 1 (b) is a transverse sectional view. The roller 1 has an elastic layer 3 provided on a core shaft 2, and a surface release layer 4 provided thereon. The elastic layer 3 includes a heat insulating elastic layer 3-1 and an elastic layer 3-2 having high thermal conductivity (heat conductivity of 0.6 W / (m · K) or more). The roller 1 according to the present invention can be used not only as a pressure roller but also as a heating roller.
[0034]
FIG. 2 shows a fixing device in which the fixing device roller 1 according to the present invention is used as a pressure roller. A state is shown in which a recording material sheet 10 onto which toner 11 has been transferred is passed through a nip between a heating roller 9 having a heater 7 and a pressure roller 1.
[0035]
FIG. 3 shows a fixing device using the fixing device roller 1 according to the present invention not only as a pressure roller but also as a heating roller. The heating roller 1 is heated by contacting an external heating roller 6 having a built-in heater 7.
[0036]
FIG. 4 shows another embodiment of the fixing device in which the fixing device roller 1 according to the present invention is used not only as a pressure roller but also as a heating roller. The heating roller 1 is radiatively heated by a heater (heating lamp) 7 having a reflection plate 8.
[0037]
In the embodiment shown in FIGS. 3 and 4, a configuration in which only the heating roller is the roller according to the present invention is also possible. However, from the viewpoint of suppressing the curling phenomenon as described above, it is preferable that the pressure roller is also the roller according to the present invention.
[0038]
【Example】
In the fixing device of the printer as shown in FIG. 2, the elastic layer of the pressure roller is (1) a single layer of sponge, (2) a single layer of rubber layer, (3) a rubber layer 2 For the case where the roller was composed of a layer, the heat-up time (warm-up time) of the roller surface was measured by changing the thermal conductivity of the elastic layer. The results are shown in Table 1, and the results are shown in a graph in FIG. Here, the heating time of the roller surface is a time from when the power of the printer is turned on until the printer becomes usable. In the case of a sponge single layer ((1)), measured data when the thermal conductivity of the layer is 0.15 W / (m · K) is shown. In the case of two rubber layers ((3)), the temperature rise time was measured by changing the thermal conductivity of the outer rubber layer. The dimensions of the rollers used are as follows.
Core axis: φ13mm
Roller outer diameter: φ22mm
Surface release layer: 0.05mm
Elastic layer: 1 mm
[0039]
[Table 1]

[0040]
When the elastic layer of the pressure roller is composed of a single sponge layer (1), the heat-up time is shortest because of high heat insulation. However, the sponge single layer is remarkably inferior in continuous paper passing property and hot offset suppressing property due to its low thermal conductivity, and inferior in color compatibility (durability) due to a foamed structure. Therefore, in the case of a sponge single layer (1), it is not suitable for a device that requires continuous paper feedability, hot offset suppression and / or color compatibility (durability).
[0041]
As can be seen from Table 1 and FIG. 5, the temperature rise time is significantly shorter in the case of the two rubber layers (3) than in the case of the single rubber layer (2). Regarding the thermal conductivity, when looking at the case of two rubber layers ((3)), the lower the thermal conductivity is, the shorter the temperature rise time is, and the shorter the heating time is, the more the thermal conductivity becomes 0.6 W / (m・ K) It should be noted that the heating time is minimum in the above cases.
[0042]
Therefore, from Table 1 and FIG. 5, when the elastic layer of the pressure roller is composed of two rubber layers, and the thermal conductivity of the outer rubber layer is 0.6 W / (m · K) or more, the heating time is increased. Was found to be minimal.
[0043]
【The invention's effect】
The four characteristics required for the fixing device roller, namely, the quick start property, the hot offset suppression property, the continuous paper feed property, and the color compatibility (durability), between the pressure roller according to the present invention and the pressure roller according to the prior art Table 2 summarizes the results of the comparison between the two. In the evaluation symbols for each characteristic in Table 2, ◎ indicates very good, ○ indicates good, △ indicates slightly bad, and × indicates bad.
[0044]
[Table 2]

[0045]
The pressure roller according to the prior art in comparison is composed of (1) a structure composed of a solid rubber layer and a surface release layer, (2) a structure composed of a foam (sponge) layer and a surface release layer, and (3) a foam layer + There are three types of configurations (conventional three-layer structure) consisting of a solid rubber layer and a surface release layer.
[0046]
Roughly speaking, when the required printing speed is low, the heat insulating property is emphasized for the pressure roller, and a low thermal conductivity is required. On the other hand, when the required printing speed is high, heat storage (heat retention) is emphasized for the pressure roller, and a high thermal conductivity is required.
[0047]
As can be seen from Table 2, since the present invention is configured as described above, the present invention is excellent in all of quick start property, hot offset suppression property, continuous paper feedability and color correspondence, It can also handle color printing.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view (a) and a transverse sectional view (b) of a fixing device roller according to the present invention.
FIG. 2 shows a fixing device using a roller according to the present invention as a pressure roller.
FIG. 3 shows a fixing device using a roller according to the present invention also as a heating roller.
FIG. 4 shows another fixing device using a roller according to the present invention also as a heating roller.
FIG. 5 is a graph showing the relationship between the thermal conductivity of the elastic layer of the pressure roller and the temperature rise time of the surface of the pressure roller.
FIG. 6 is a longitudinal sectional view of a conventional fixing device roller.
FIG. 7 is a longitudinal sectional view of another conventional fixing device roller.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Roller 2 Core shaft 3 Elastic layer 3-1 Heat insulating elastic layer 3-2 High thermal conductive elastic layer 3-3 Foam elastic layer 3-4 Solid elastic layer 4 Surface release layer 6 External heating roller 7 Heater 8 Reflector 9 Heating roller 10 Recording material sheet 11 Toner

Claims (1)

In a fixing device roller including a core shaft, an elastic layer composed of a plurality of layers provided on the core shaft, and a surface release layer provided on the elastic layer, the heat conductivity of the outermost layer of the elastic layer is determined. A fixing device roller having a heat insulating layer of 0.6 W / (m · K) or more and an inner elastic layer thereof.

Images