JP3502478B2 - Oil absorbing sheet for fixing unit, oil absorbing member for fixing unit, and oil absorbing device for fixing unit using the same - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrophotographic apparatus such as a copying machine, a laser beam printer and a facsimile.
The present invention relates to an oil absorbing sheet for a fixing unit capable of absorbing and removing oil remaining in a fixing unit such as a fixing roll or a pressure roll, an oil absorbing member for a fixing unit, and an oil absorbing device for a fixing unit using the same.

[0002]

2. Description of the Related Art Conventionally, as a method of removing toner remaining on the surface of a fixing roll in an electrophotographic apparatus, a cleaning sheet containing oil is brought into contact with the fixing roll and oil is applied to enhance the wiping property of the toner. At the same time, there is a method of wiping off the toner, a method of using a device for applying oil, and a cleaning device for wiping the oil and toner together. However, in these methods, oil is applied to the entire fixing roll regardless of whether the toner is fixed on the B5 size fixing target or the A4 size fixing target. Since it is difficult to limit the oil application area depending on the size of the object to be fixed, for example, after fixing the toner to the object to be fixed having the size of B5 plate, and then fixing the toner having the size of A4 plate. When the toner is fixed on the object to be fixed having a different size as in the case where the toner is fixed on the object, the excess oil attached to the area corresponding to the difference in size between the A4 plate size and the B5 plate size becomes A4 plate. Adheres to a size-fixed object,
There is a problem that so-called oil streaks occur and the sharpness of the image is impaired. This is a particular problem when the object to be fixed is an OHP film, which causes a difference in translucency.

[0003]

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and even if the toner is fixed on the objects to be fixed of different sizes, the oil is used so that the oil streaks do not occur. An object of the present invention is to provide an oil absorbing sheet for a fixing unit, an oil absorbing member for a fixing unit, and an oil absorbing device for a fixing unit using the same which can absorb the oil.

[0004]

The oil absorbing sheet for the fixing portion of the present invention (hereinafter referred to as "oil absorbing sheet") is
Oil applying device and cleaning device around the fixing roll
The fixing unit that uses
Cleaning device before toner is applied.
Contact the fuser roll or pressurize it after it is removed.
It is an oil absorption sheet for the fixing part that contacts the roll,
The fixing part oil absorbing sheet has an average fiber diameter of 10 μm.
Fiber sheet consisting of the following fibers, anhydrous silicon oxide, no
Selected from aluminum hydroxide and anhydrous titanium oxide
That has at least one powder attached, or a fixing roller
Use a cleaning sheet containing oil around the
For the fixing section that is in contact with the pressure roll of the fixing section used
An oil absorbing sheet, the oil absorbing sheet for the fixing unit
Is a fiber sheet made of fibers with an average fiber diameter of 10 μm or less.
Anhydrous silicon oxide, anhydrous aluminum oxide, anhydrous acid
At least one powder selected from titanium oxide is attached
Is obtained by wearing the fixing unit oil absorbent material of the present invention (hereinafter, referred to as "oil absorbers"), the oil-absorbing sheet have been wound around the shaft, and the other end of the oil-absorbing sheet Fixed to another shaft, or
A roll-shaped product using the oil-absorbing sheet, wherein the oil-absorbing sheet is located on at least the surface of the roll-shaped product. Further, the oil absorbing device for the fixing unit of the present invention (hereinafter referred to as “oil absorbing device”) is obtained by bringing the oil absorbing sheet unwound from the shaft of the former oil absorbing member into contact with a fixing roll or a pressure roll. , One having a mechanism for winding by another shaft, one having a mechanism for bringing the latter oil absorbing member into contact with the fixing roll or the pressure roll, or the oil absorbing member of these oil absorbing devices as the fixing roll or the pressure roll. After making contact,
It has a cleaning member capable of removing powder.

[0005]

The oil absorbing sheet of the present invention has an average fiber diameter of 10
Since powder adheres to the fiber sheet consisting of fibers of less than μm, when it comes into contact with the fixing roll or the pressure roll, the powder absorbs oil and at the same time, the oil that cannot be absorbed by the powder has an average fiber diameter of 10 μm Due to the capillary effect of the following thin fibers, the fibers can be quickly absorbed into the fiber sheet, so that oil streaks can be absorbed without being generated. In particular, when an oil-absorbing sheet in which powder is attached to a fiber sheet in a state where it can be removed by shearing force, when the powder comes into contact with a fixing roll or a pressure roll, the powder can fall off and absorb oil on a wider surface. Of course, by mixing powder and oil, highly fluid oil can be made into solid fluid with low fluidity, so wiping with a fiber sheet absorbs more oil, It has the feature of being easy to hold.

As the fibers constituting the fiber sheet of the oil absorbing sheet of the present invention, the surface temperature of the fixing roll is 170.
The pressure roll that pressurizes the fixing roll at a temperature of about 200 to 200 ° C. has a surface temperature of about 130 to 180 ° C.
A fiber having a melting point or a decomposition point of 30 ° C. or higher is preferable, and examples thereof include ortho-based or para-based aromatic polyamide-based fiber, unstretched or stretched polyphenylene sulfide fiber, unstretched or stretched polyethylene terephthalate fiber,
Unstretched or stretched polybutylene terephthalate fiber, vinylon fiber, polyvinyl chloride fiber, wholly aromatic polyester fiber, polyamide fiber such as 6 nylon fiber or 66 nylon fiber, polyamideimide fiber, phenol fiber, polyolefin such as high density polyethylene or polypropylene. Fibers and the like can be used. Among these, polyolefin-based fibers that have a small difference from the average solubility index value of oil and easily retain oil can be preferably used.

Fibers obtained by splitting composite fibers (hereinafter referred to as "splittable fibers") that can be split into fibers having an average fiber diameter of 10 μm or less by mechanical and / or chemical treatment may be used. . As the splittable fiber, for example, as shown in a schematic cross-sectional view in FIG. 1, a sea-island type fiber having a cross section in which another component B is arranged in an island shape in one component A (sea), and FIG.
As shown in FIG. 3, a multi-bimetal type fiber having a cross section in which one component A and another component B are alternately laminated in layers, or FIG.
As shown in (1), chrysanthemum-type fibers having a cross section in which one component A is divided by another component B extending from the inside of the fiber toward the fiber surface can be used. Among these, the fibers obtained by dividing the multi-bimetal type fiber and the chrysanthemum type fiber have irregular cross-sectional shapes such as a substantially trapezoidal shape and a fan shape, and it is easy to form a fiber sheet with a more precise structure, and a more capillary shape is obtained. Since the effect is easy to act, it can be preferably used. The resin component constituting the splittable fiber may be composed of two or more components. For example, as a combination of two components, polyamide resin and polyester resin, polyester resin and acrylonitrile resin, polyamide resin. And acrylonitrile-based resins, polyamide-based resins and polyolefin-based resins, acrylonitrile-based resins and polyolefin-based resins, polyester-based resins and polyolefin-based resins, and polyolefin-based resins. Among these resin combinations, like when contacting the fixing roll,
When used under high temperature conditions, a combination of a polyamide resin and a polyester resin, which has excellent heat resistance, is preferable. Further, as will be described later, in the case of a roll-shaped oil absorbing member in which an oil absorbing sheet composed of two or more layers is wound around a shaft or an oil absorbing sheet is used at least on the surface, a fixing roll or pressure of this oil absorbing member is used. When polyamide-based fibers and polyester-based fibers are mixed as the fibers that make up the surface that contacts the roll, the difference between the average solubility index value of the oil is large and it is difficult to retain the oil, making it easier to retain the oil. A combination of a polyamide-based resin and a polyester-based resin is preferable because the oil can be quickly transmitted to another layer and a larger amount of oil can be retained.

These fibers have an average fiber diameter of 10 μm or less, more preferably 6 μm or less, so that the fibers can be easily damaged by contact with a fixing roll or a pressure roll so that oil can be easily absorbed by the capillary effect. It is preferably 1 μm or more, more preferably 2
It is at least μm. The fiber length is not particularly limited, and fibers having a length of about 1 to 110 mm can be used.

Using such fibers, woven fabrics, knitted fabrics,
A fibrous sheet such as a non-woven fabric is formed. When the non-woven fabric is used, three-dimensional and minute voids are easily formed, a capillary effect is exerted, and oil is easily retained, so that it can be suitably used. Hereinafter, the case where the fiber sheet is a non-woven fabric will be described.

When forming a non-woven fabric, first, a fibrous web is formed by a dry method such as an air-laying method or a card method, a wet method, or a direct method such as a spunbond method or a melt blow method. This fiber web may be used alone,
By stacking two or more kinds of fiber webs, it is possible to obtain an oil-absorbing sheet having more excellent oil absorbency. For example, when two fiber webs are laminated, if there is a difference in the average fiber diameter of the fibers that form the adjacent fiber webs,
Since oil is likely to be retained in the fiber layer made of fibers having a smaller average fiber diameter, when the fiber layer made of fibers having a larger average fiber diameter is brought into contact with the fixing roll or the pressure roll, the fibers having a larger average fiber diameter are The oil absorbed by the fiber layer having a smaller average fiber diameter tends to move to the fiber layer having a smaller average fiber diameter, so that the fiber layer having a smaller average fiber diameter serves to store the oil, and a larger amount of oil is absorbed. Can absorb oil. Similarly, when there is a difference in apparent density between adjacent fiber webs, when there is a difference in the average solubility index value of the constituent fibers between adjacent fiber webs in the fiber layer with a large apparent density, Since the oil is easily retained in the layer having a small difference from the average solubility index value of the oil, the same effect as described above can be obtained. More preferably, the fibrous webs are laminated so that the two or more conditions described above are satisfied between adjacent fibrous webs.

In this way, when two or more fiber webs are laminated, the weight ratio of the fiber web which is a fiber layer having excellent oil retention and the fiber web which is a fiber layer having poor oil retention is 1: 0. .4 to 6, the oil retention of the fiber web, which is a fiber layer with poor oil retention, is weakened,
It is preferable to facilitate the transfer of oil to the layer having excellent oil retention.

Next, the fibrous webs are bonded together, but they may be entangled in advance with a needle punch or a water stream to give some strength so that they can be easily handled when bonding.
As a bonding method of the fiber web, for example, as an adhesive fiber in the fiber web, a mixture of unstretched polyethylene terephthalate fiber and unstretched polyphenylene sulfide fiber, and a method of bonding through hot calender rolls, by needle punch or water flow. There are methods of entanglement and methods of adhering with a binder, alone or in combination. Among these, the method of entanglement with a needle punch or water flow is preferable because it can be densified without reducing the voids holding the oil, and the method of water flow is the most preferable because it can be densified more uniformly. Is the way. This water entanglement is, for example, a nozzle diameter of 0.
05-0.3 mm, preferably 0.08-0.2 mm, pitch 0.0.
2-3 mm, preferably 0.4-2 mm, pressure from 10-300 kg / c from nozzle plate arranged in one or more rows
A water flow of m ² , preferably 50 to 200 kg / cm ² may be jetted. The above-mentioned fibrous web containing the splittable fiber has a feature that it can be split at the same time as being entangled with a water stream.

The basis weight and thickness of the non-woven fabric thus obtained are within the casing of the electrophotographic apparatus, have excellent oil absorbency, and have a basis weight of 1 so that it can be used for a long period of time.
0 to 150 g / m ² , more preferably 30 to 100 g / m ² , and a thickness of 0.02 to 0.7 mm, more preferably 0.1 to
Set to 0.5 mm.

Powder is attached to the non-woven fabric thus obtained to obtain an oil absorbing sheet having excellent oil absorbency.
As the powder, for example, inorganic powder such as anhydrous silicon oxide, anhydrous aluminum oxide, anhydrous titanium oxide, silicon carbide, aluminum hydroxide, zeolite, activated carbon, diatomaceous earth, silicone resin, fluorine resin, olefin resin, Organic powders such as styrene resin, polyester resin, polyamide resin and acrylic resin can be used alone or in combination. Among these, anhydrous silicon oxide, anhydrous aluminum oxide, anhydrous titanium oxide alone,
Alternatively, the mixed powder has good affinity with oil, excellent heat resistance, and excellent dispersibility, and thus can be suitably used.

This powder has a larger specific surface area,
The average particle size is 100μ so that oil can be absorbed more easily.
m or less, more preferably 10 μm or less is used, and an average particle size of 0.001 μm or more, more preferably 0.01 μm or more is used so that the particles are evenly attached and are not easily removed from the fiber sheet by gravity. . The average particle size of the powder is equal to or less than the average fiber diameter of the fibers constituting the fiber sheet,
More preferably, if it is 1/10 or less of the average fiber diameter of the fibers constituting the fiber sheet, the powder easily adheres to the fibers inside the fiber sheet, so that the oil is easily absorbed and the oil absorbing sheet is fixed. When it is brought into contact with the roll or the pressure roll, the powder inside the fibrous sheet is also shed by the shearing force and easily comes into contact with the fixing roll or the pressure roll, and a large amount of oil can be absorbed, which is preferable. The amount of the powder adhered is preferably 0.05 times or more of the fabric weight of the fiber sheet so as to easily absorb the oil, and is twice as much as the fabric weight of the fiber sheet so as to be uniformly attached to the entire fiber sheet. It is preferably the following, and more preferably 0.1 to 1 times the basis weight of the fiber sheet.

In the oil-absorbing sheet of the present invention, it is preferable that the powder easily falls off from the fiber sheet to reduce the fluidity of the oil. After spraying the powder, or after dispersing the powder in a liquid medium such as water, spraying, spraying, coating on the fiber sheet, or dipping the fiber sheet in this liquid medium, The powder is preferably attached to the fiber sheet. When this is adhered, no adhesive is used at all so that the powder easily comes off, or even if it is used, an amount of adhesive that is easily removed by the shearing force of the fixing roll or the pressure roll is used. Is preferred.

One of the oil absorbing members of the present invention is one in which the above-mentioned oil absorbing sheet is wound around a shaft, and
The other end of the oil absorbing sheet is fixed to another shaft. The oil absorbing member having such a structure is excellent in oil absorbability because the oil absorbing sheet can be sequentially unwound and a new oil absorbing sheet can be constantly brought into contact with the fixing roll or the pressure roll. When this oil absorbing member is brought into contact with a fixing roll or a pressure roll, the unwound oil absorbing sheet is covered with an elastic body such as foamed or non-foamed silicone rubber so that the powder easily falls off and the oil absorbency is excellent. It is preferable to press the fixing roll or the pressure roll in a plane.

Another oil absorbing member is a roll-shaped product using the above-mentioned oil absorption sheet, and the oil absorption sheet is located on at least the surface of the roll-shaped product. For example,
There is a roll-shaped material made of an elastic material such as foamed or unfoamed silicone resin, in which at least the surface is wound with an oil absorbing sheet, and in which a shaft is wound in multiple layers. This roll-shaped oil absorbing member can save space and can be pressed on the surface, so that the powder easily falls off and the oil absorbing property is excellent.
It should be noted that when a hollow shaft having a porous surface is used as the shaft of the roll-shaped product, the absorbed oil can be stored in the shaft, which is advantageous in that the oil can be reused.

A fiber layer made of fibers having an average fiber diameter smaller than that of the fibers forming the oil absorbing sheet is adjacent to the oil absorbing sheet located on the surface of the roll-like material, or is more visible than the oil absorbing sheet. Adjacent fiber layers having a high application density, or the difference between the average solubility index value of oil and the average solubility index value of the oil constituting the oil-absorbent sheet is more than the difference between the average solubility index value of oil and the average solubility index value of oil. By adjoining the fiber layers made of fibers having a small average solubility index value, the oil absorbed by the oil absorbing sheet on the surface can be moved to the inside of the roll-shaped material, and a larger amount of oil can be absorbed, so that it is preferable It is a mode. The nonwoven fabric obtained by laminating two or more fiber webs as described above and bonding them together is coated with an oil-absorbing sheet having powder adhered to at least the surface of the roll-like material so as to satisfy the same relationship as above. Even if they are arranged, the same effect can be obtained.

An oil absorbing device of the present invention uses the above-mentioned oil absorbing member. One is that the oil absorbing sheet unwound from the oil absorbing member is brought into contact with a fixing roll or a pressure roll and then separated. When the fixing roller is equipped with an oil applying device and a cleaning device around the fixing roll, the cleaning device removes the toner before the oil is applied by the oil applying device. After that, install it so that it contacts the fixing roll, or install it so that it contacts the pressure roll, and if a cleaning sheet containing oil is used, install it so that it contacts the pressure roll. To do. When the oil absorbing device is brought into contact with the pressure roll, the fixing roll is rotated so that the oil on the surface of the fixing roll can be absorbed at a time other than when fixing the toner to the fixing target, and the pressure roll is rotated. It is preferable to transfer the oil.

When an oil-absorbing sheet obtained by laminating two or more fiber webs is unwound from a shaft and brought into contact with a fixing roll or a pressure roll, the surface having a poorer oil retaining property is applied to the fixing roll or the pressing roll. It is preferable that the oil is absorbed by bringing it into contact with a pressure roll, and the absorbed oil is moved to a layer having a better oil retaining property so that a large amount of oil can be retained. Therefore, as described above, when there is a difference in the average fiber diameter between the adjacent fiber layers of the fiber sheet, the surface having a larger average fiber diameter is brought into contact with the fixing roll or the pressure roll, When there is a difference in apparent density between the two, the surface having a small apparent density is brought into contact with a fixing roll or a pressure roll, and when there is a difference in the average solubility index value of the fibers between adjacent layers, the oil is used. The surface having a larger difference between the average dissolution index value of 1 and the average dissolution index value of the fiber is brought into contact with a fixing roll or a pressure roll.

In another oil absorbing device, the above-mentioned roll-shaped oil absorbing member can be installed at the same position as the oil absorbing device for unwinding the above-mentioned oil absorbing sheet from the shaft.

When the oil absorbing member of the oil absorbing device of the present invention is brought into contact with the fixing roll or the pressure roll,
The oil absorbing member or the oil absorbing sheet may rotate or move in the same direction as the rotating direction of the fixing roll or the pressure roll, or may rotate or move in the opposite direction. When rotating or moving in the same direction, it is preferable to provide a difference between the rotation speed of the fixing roll or the pressure roll and the rotation or movement speed of the oil absorbing member or the oil absorbing sheet in order to enhance oil absorption. .

In the present invention, the oil absorbing sheet to which the powder adheres is used, and it is preferable that the powder falls off. However, the powder is not wiped by the oil absorbing sheet or the oil absorbing member, and the fixing roll or If there is a possibility of remaining on the pressure roll, after contacting the oil absorbing sheet or the oil absorbing member as described above with the fixing roll or the pressure roll, the powder can be removed, an elastic rubber blade,
It is preferable to install a cleaning member such as a punch felt blade, a cleaning roll having a fiber sheet on the surface, or a fur brush.

Examples of the present invention will be described below, but the invention is not limited to the following examples.

[0026]

【Example】

(Example 1) As shown in FIG. 3 (a), a polyethylene terephthalate component (wedge-shaped cross-sectional shape, fiber diameter after division 4.2 μm, melting point 260 ° C.) was added to 6 nylon components (rice Dividable fibers (divided fineness 2) that can be divided into 9 with a chrysanthemum-shaped fiber cross-section divided into 8 by a V-shaped cross-sectional shape, a fiber diameter after division of 8.6 μm, and a melting point of 215 ° C.
100% by weight of denier, fiber length 38 mm) was opened by a card machine to make unidirectional fiber webs crossed by a cross layer to form a crossed fiber web having a basis weight of 80 g / m ² . Next, this crossed fiber web was placed on a 100-mesh net-shaped support, and 90 g / m ² of water flow was discharged from a nozzle plate having a diameter of 0.13 mm and a pitch of 0.6 mm, which was located above the crossed fiber web. Ejected twice to split the splittable fiber and entangled at the same time, with a basis weight of 80 g / m ² and a thickness of 0.4 m
A nonwoven fabric having m, an average fiber diameter of 4.7 μm, an apparent density of 0.2 g / cm ³ and an average dissolution index value of 11.4 was formed. Next, this non-woven fabric was coated with an aqueous solution in which an anhydrous silicon oxide powder having an average particle size of 40 μm was dispersed, adhered in an amount of 25 g / m ² , and then dried at 100 ° C. to form an oil absorbing sheet. Then, wind one end of this oil absorbing sheet around an aluminum shaft, and fix the other end to another aluminum shaft,
An oil absorbing member was formed.

Example 2 A nonwoven fabric formed exactly as in Example 1 was passed through an aqueous solution in which an anhydrous silicon oxide powder having an average particle size of 3 μm was dispersed to deposit 25 g / m ² and then 100 It was dried at ℃ to form an oil absorbing sheet.
Then, an oil absorbing member was formed in the same manner as in Example 1.

Example 3 An oil absorbing sheet was formed in exactly the same manner as in Example 2 except that anhydrous silicon oxide powder having an average particle size of 0.05 μm was attached. Then, an oil absorbing member was formed in the same manner as in Example 2.

(Example 4) Polypropylene fiber (melting point 165 ° C) formed on the surface of a roll-shaped material having a diameter of 20 mm, in which a foamed silicone elastic body having an Asker C hardness of 15 ° is integrated around an aluminum shaft, a melting point of 165 ° C. ), Areal weight 40 g / m ² , thickness 0.1 mm, apparent density 0.4 g /
A non-woven fabric having a cm ³ , an average fiber diameter of 3 μm and a dissolution index value of 8.1 was wound. Next, the same oil absorbing sheet as in Example 3 was wound around the surface of this nonwoven fabric to form an oil absorbing member.

(Comparative Example 1) Fiber having a fiber diameter of 14 μm
A unit weight of 80 g / m ² , a thickness of 0.4 mm, an apparent density of 0.2 g / cm ³ , and a fiber diameter of 14 μm, which were formed in exactly the same manner as in Example 1 except that the polyethylene terephthalate fiber (melting point 260 ° C.) was used. A nonwoven fabric having a solubility index value of 10.7 was used as an oil absorbing sheet. Then, an oil absorbing member was formed in the same manner as in Example 1.

(Comparative Example 2) A weight per unit area of 80 g / m ² , a thickness of 0.4 mm, and an average fiber diameter of 4.7 μm were formed in the same manner as in Example 1.
A nonwoven fabric having m, an apparent density of 0.2 g / cm ³ , and an average solubility index value of 11.4 was used as an oil absorbing sheet. Then, an oil absorbing member was formed in the same manner as in Example 1.

(Comparative Example 3) An anhydrous silicon oxide powder having an average particle diameter of 40 μm was applied to the oil absorbing sheet of Comparative Example 1 in Example 1.
In the same manner as the above, an oil absorbing sheet was obtained by adhering 25 g / m ² amount. Then, an oil absorbing member was formed in the same manner as in Example 1.

(Oil Absorption Test) Dimethyl silicone oil adhering to the surfaces of the fixing roll and pressure roll of a Canon color laser copying machine (CLC-350) was wiped off, and then the dimethyl silicone having a viscosity of 300 centistokes was removed from the oil coating roll. Oil (solubility index value 7.3)
Was set so that 0.08 g could be applied per A4 size. Next, after passing through an A4 size polyethylene terephthalate film for OHP (thickness 0.1 mm), projection was carried out by an optical projector to observe the adhered state of dimethyl silicone oil (reference state). Then, the dimethyl silicone oil adhering to the surface of the fixing roll and the pressure roll was wiped off, and the oil absorbing members of Examples 1 to 4 and Comparative Examples 1 to 3 were respectively placed in contact with the pressure roll,
After making 10 copies of B5 size, the same OH as above
The polyethylene terephthalate film for P was passed through, and the adhered state of dimethyl silicone oil in this polyethylene terephthalate film for OHP was observed and compared with the reference state to evaluate the oil absorbency of the oil absorbing member. The results are shown in Table 1. The oil absorbing sheets unrolled from the oil absorbing members of Examples 1 to 3 and Comparative Examples 1 to 3 were pressed against the pressure roll by the foamed silicone elastic body (nip width 3 mm) to obtain the oil absorbing member of Example 4. Was simply pressed against the pressure roll (nip width 3 mm). Further, the moving or rotating direction of the oil absorbing member was the same as the rotating direction of the pressure roll, and the moving or rotating speed of the oil absorbing member was 0.25 times the rotating speed of the pressure roll. .

[0034]

[Table 1]

[0035]

The oil absorbing sheet for the fixing portion of the present invention is
A fiber sheet composed of fibers having an average fiber diameter of 10 μm or less,
When the oil absorbing sheet for the fixing unit comes into contact with the fixing roll, the powder can absorb the oil by the powder and at the same time, the oil that cannot be absorbed by the powder is a fine fiber having an average fiber diameter of 10 μm or less. Since it can be quickly absorbed by the capillary effect, the generation of oil streaks can be prevented.

In the oil absorbing material for the fixing portion of the present invention, the oil absorbing sheet is wound around a shaft, and the other end of the oil absorbing sheet is fixed to another shaft, or the oil absorbing material. It is a roll-shaped product using an absorption sheet, and since this oil absorption sheet is located on at least the surface of the roll-shaped product, it can efficiently absorb oil.

The oil absorbing device for the fixing portion of the present invention has a mechanism in which the oil absorbing sheet unwound from the shaft of the former oil absorbing member is brought into contact with the fixing roll or the pressure roll and then wound by another shaft. Or a mechanism for bringing the latter oil absorbing member into contact with the fixing roll or the pressure roll, the oil can be efficiently absorbed. Further, when the oil absorbing member of these oil absorbing devices has a cleaning member capable of removing the powder after contacting with the fixing roll or the pressure roll, the powder remains on the fixing roll or the pressure roll. It is a device that can absorb oil without using.

[Brief description of drawings]

FIG. 1 shows an example of the cross-sectional shape of the splittable fiber of the present invention.

FIG. 2 is another example of the cross-sectional shape of the splittable fiber of the present invention.

FIG. 3 (a) Another example of the cross-sectional shape of the splittable fiber of the present invention. (B) Another example of the cross-sectional shape of the splittable fiber of the present invention

[Explanation of symbols]

A one component B Other ingredients

─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-6-195011 (JP, A) JP-A-4-316608 (JP, A) JP-A-5-156557 (JP, A) JP-A-7- 104603 (JP, A) JP-A-6-167903 (JP, A) Actually developed 57-78063 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) G03G 15/20

Claims (24)

(57) [Claims] 1. A fixing roll of a fixing section, which uses both an oil applying device and a cleaning device around the fixing roll, before the oil is applied by the oil applying device and after the toner is removed by the cleaning device. Or an oil absorbing sheet for a fixing part, which is brought into contact with a pressure roll, wherein the fixing part oil absorbing sheet is a fiber sheet made of fibers having an average fiber diameter (circular cross section conversion, the same applies hereinafter) of 10 μm or less, An oil-absorbing sheet for a fixing unit, characterized in that at least one powder selected from silicon hydroxide, anhydrous aluminum oxide, and anhydrous titanium oxide is attached. 2. An oil absorbing sheet for a fixing portion of a fixing portion using a cleaning sheet containing oil around the fixing roll, the fixing portion being in contact with a pressure roll, wherein the fixing portion oil absorbing sheet is an average. An oil absorbing sheet for a fixing unit, characterized in that at least one powder selected from anhydrous silicon oxide, anhydrous aluminum oxide, and anhydrous titanium oxide is attached to a fiber sheet composed of fibers having a fiber diameter of 10 μm or less. . 3. The oil absorbing sheet for a fixing unit according to claim 1 or 2, wherein the powder adheres in a state of being removable by a shearing force. 4. The fixing unit oil absorption sheet according to claim 1, wherein the average particle diameter of the powder is equal to or less than the average fiber diameter of the fibers constituting the fiber sheet. . 5. The fixing portion oil absorbing sheet according to claim 1, wherein the fibers forming the fiber sheet have an irregular cross-sectional shape. 6. The fiber constituting the fiber sheet has a melting point or a decomposition point of 130 ° C. or higher.
An oil absorbing sheet for a fixing unit according to claim 5. 7. The fixing portion oil absorbing sheet according to claim 1, wherein the fiber sheet is a non-woven fabric. 8. The fixing unit according to claim 1, wherein the fiber sheet is composed of two or more layers and has adjacent layers having different average fiber diameters of the fibers. Oil absorption sheet. 9. The fixing unit oil absorption according to claim 1, wherein the fibrous sheet is composed of two or more layers and has adjacent layers having different apparent densities. Sheet. 10. The fiber sheet according to claim 1, wherein the fiber sheet is composed of two or more layers and has adjacent layers having different average solubility parameter values of the fibers. The oil absorbing sheet for the fixing unit described. 11. The fixing portion oil absorbing sheet according to claim 1 is wound around a shaft, and the fixing portion oil absorbing sheet has the other end attached to another shaft. An oil absorbing member for a fixing unit, which is fixed. 12. The fixing unit oil absorbing sheet according to claim 8 is wound around a shaft, and the other end of the fixing unit oil absorbing sheet is fixed to another shaft. An oil absorbing member for the fixing section. 13. The fixing part oil absorbing sheet according to claim 9 is wound around a shaft, and the other end of the fixing part oil absorbing sheet is fixed to another shaft. An oil absorbing member for the fixing section. 14. The fixing part oil absorbing sheet according to claim 10 is wound around a shaft, and the other end of the fixing part oil absorbing sheet is fixed to another shaft. An oil absorbing member for the fixing section. 15. A roll-shaped product using the oil-absorbing sheet for the fixing part according to claim 1, wherein the oil-absorbing sheet for the fixing part is located on at least the surface of the roll-shaped product. An oil absorbing member for a fixing unit, which is characterized in that 16. The fiber layer made of fibers having an average fiber diameter smaller than that of the fixing portion oil absorbing sheet is adjacent to the fixing portion oil absorbing sheet located on the surface. The oil absorbing member for the fixing unit described. 17. The fiber layer having a larger apparent density than that of the fixing portion oil absorbing sheet is adjacent to the fixing portion oil absorbing sheet located on the surface thereof.
The oil absorbing member for a fixing unit according to claim 5 or claim 16. 18. The average dissolution of oil in the oil absorbing sheet for the fixing part located on the surface is more than the difference between the average solubility index value of the fibers constituting the fixing part oil absorbing sheet and the average solubility index value of the oil. The oil absorbing member for a fixing unit according to any one of claims 15 to 17, wherein fiber layers made of fibers having an average dissolution index value having a smaller difference from the index value are adjacent to each other. 19. A mechanism in which the fixing portion oil absorbing sheet unwound from the shaft of the fixing portion oil absorbing member according to claim 11 is brought into contact with a fixing roll or a pressure roll, and is then wound by another shaft. An oil absorbing device for a fixing unit, comprising: 20. After contacting the surface of the oil absorbing sheet for a fixing unit having a larger average fiber diameter unwound from the shaft of the oil absorbing member for a fixing unit according to claim 12 with a fixing roll or a pressure roll. An oil absorbing device for a fixing portion, which has a mechanism for winding with another shaft. 21. After contacting the surface of the fixing portion oil absorbing sheet unrolled from the shaft of the fixing portion oil absorbing member according to claim 13 having a lower apparent density with a fixing roll or a pressure roll. An oil absorbing device for a fixing portion, which has a mechanism for winding with another shaft. 22. The difference between the average solubility index value of the oil and the average solubility index value of the fibers of the oil absorbing sheet for the fixing part unrolled from the shaft of the oil absorbing member for the fixing part according to claim 14 is larger. An oil absorbing device for a fixing unit, comprising a mechanism for winding the surface of the fixing roller or the pressure roller in contact with the fixing roller or the pressure roller. 23. A fixing unit, comprising a mechanism for bringing the fixing unit oil absorbing member according to any one of claims 15 to 18 into contact with a fixing roll or a pressure roll. Oil absorber. 24. A powder of an oil absorbing device for a fixing unit according to claim 19, after the oil absorbing member for the fixing unit is brought into contact with a fixing roll or a pressure roll. An oil absorbing device for a fixing unit, which has a cleaning member capable of removing a body.