JP3890823B2 - Belt fuser - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fixing device used in an image forming apparatus such as a printer, a facsimile machine, and a copying machine capable of forming a toner image on a recording material such as paper using an electrophotographic technique, more specifically, a fixing belt to be heated. The present invention relates to the belt fixing device used.
[0002]
[Prior art]
In general, an image forming apparatus that forms a toner image on a recording material such as paper using electrophotographic technology is a rotationally driven photoreceptor, and exposure that exposes the photoreceptor to form an electrostatic latent image on the surface. Means, developing means for developing the electrostatic latent image into a toner image, transfer means for transferring the toner image onto a recording material, and heating while passing the recording material onto which the toner image has been transferred by the transfer means And a fixing device for fixing the toner image on the recording material.
[0003]
The fixing device usually has a rotating body to be heated and a rotating body that is pressed against the rotating body. The two rotating bodies heat the recording material passing therethrough while sandwiching it, and the toner on the recording material An image is melted and fixed on a recording material.
In such a fixing device, if there is a difference in peripheral speed between the two rotating members, the toner image on the recording material passing through the pinching portion (pressure contact portion) is rubbed and the image is disturbed. It is not said that the rotating body is driven, and a configuration is adopted in which only one rotating body is driven and the other rotating body is driven.
In addition, if the rotating body to be heated is a roller, it takes a long time for the initial heating, so the heated rotating body is used as an endless belt (fixing belt), and the belt fixing in which the initial heating time is shortened. The vessel is known.
[0004]
FIG. 6 is a diagram showing a first example of a belt fixing device (Japanese Patent Laid-Open No. 9-138600).
This belt fixing device includes an endless heat-resistant belt 6, rollers 7 a and 7 b that support the belt 6 from the inside thereof, a roller 8 that heats the belt 6, and a pressure roller 9 that is in contact with the outer peripheral surface of the belt 6. The pressure roller 9 is rotationally driven in the direction of arrow a by the motor M, and the belt 6 is driven by the pressure roller 9.
The recording material on which the toner image has been formed is supplied to the pressure contact portion N between the belt 6 and the pressure roller 9 as indicated by an arrow b, and the toner image is heated and melted by passing through the pressure contact portion N, and is then applied onto the recording material. It is fixed.
FIG. 7 is a view showing a second example of the belt fixing device (Japanese Patent Laid-Open No. 8-334997).
In this belt fixing device, a fixing belt 1 is wound and stretched between a rotationally driven fixing roller 2 and a heating roller 3 incorporating a heater, and the pressure roller 4 is attached to the fixing roller 2 via the fixing belt 1. The recording material S on which the toner image T is formed is passed through the pressure contact portion N in the direction of the arrow in the drawing, and the toner image T is heated and melted and fixed on the recording material S.
In addition, this fixing device uses a silicone oil or the like as a release agent on the surface of the fixing belt 1 in order to prevent a phenomenon that the toner on the recording material is transferred to the surface of the fixing belt 1 (so-called offset phenomenon). An oil application roller 5 for applying release oil is provided.
[0005]
[Problems to be solved by the invention]
In the conventional belt fixing device shown in FIG. 6, a relatively slippery recording material, for example, a synthetic resin sheet, is supplied to the pressure contact portion N between the pressure roller 9 that is rotationally driven and the belt 6 that is driven by the pressure roller 9. Then, slippage occurs between the driving-side pressure roller 9 and the recording material and / or between the recording material and the driven-side belt 6 due to the slippery recording material. There is a possibility that a peripheral speed difference occurs between the belt 6 and the belt 6, and as a result, a stable fixing operation cannot be performed.
Similarly, in the conventional belt fixing device shown in FIG. 7, a relatively slippery recording material is supplied to the pressure contact portion N between the belt 1 driven by the fixing roller 2 and the pressure roller 4 driven thereby. In addition, due to the slippery recording material, slip occurs between the driving belt 1 and the recording material and / or between the recording material and the driven pressure roller 4. There is a possibility that a peripheral speed difference is generated between the roller 4 and a stable fixing operation as a result.
In particular, in the belt fixing device shown in FIG. 7, since the release oil is applied to the surface of the belt 1, the slip is promoted. Further, the oil applied to the surface of the belt 1 gradually enters the end N ′ of the pressure contact portion N, and reduces the frictional force between the fixing roller 2 and the pressure roller 4 at the end N ′. The slip is further promoted.
An object of the present invention is to provide a belt fixing device that solves the above-described problems and can perform a stable fixing operation.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the belt fixing device according to claim 1 includes a heated fixing belt, a rotating body pressed against the fixing belt, and an oil applying means for applying release oil to the surface of the fixing belt. And one of the fixing belt and the rotating body is driven, the other is driven, and a recording material on which a toner image is formed is passed through the central portion of the pressure contact portion between the fixing belt and the rotating body, A fixing device for heating and melting the toner image and fixing the toner image on a recording material,
At both ends of the fixing belt, a plurality of high grip members arranged in a belt shape along the circumferential direction thereof, and an oil absorbing member arranged between the high grip members are provided.
The high grip member is composed of a rubber belt having a number of protrusions extending in the width direction of the fixing belt, and the surface of the high grip member is more than the surface of the oil absorbing member in the radial direction of the fixing belt. Is also protruding.
3. The belt fixing device according to claim 2, further comprising: a fixing belt to be heated; a rotating body that is pressed against the fixing belt; and an oil application unit that applies release oil to a surface of the fixing belt. One of the belt and the rotator is driven, the other is driven, and the recording material on which the toner image is formed is passed through the central portion of the pressure contact portion between the fixing belt and the rotator to heat and melt the toner image. A fixing device for fixing on a recording material,
At both ends of the fixing belt, a plurality of high grip members arranged in a belt shape along the circumferential direction thereof, and an oil absorbing member arranged between the high grip members are provided.
The high grip member has a structure in which a large number of granular materials are fixed to the surface of the high grip member, and the surface of the high grip member is more than the surface of the oil absorbing member in the radial direction of the fixing belt. It is characterized by protruding.
[0007]
[Function and effect]
According to the belt fixing device of claim 1, a recording material on which a toner image is formed is pressed on one side and driven on the other side between a heated fixing belt and a rotating body pressed against the fixing belt. By passing through the central portion of the toner image, the toner image is heated and melted and fixed on the recording material. In addition, since an oil application means for applying release oil to the surface of the fixing belt is provided, an offset phenomenon is less likely to occur.
Since both ends of the fixing belt are provided with a plurality of high grip members arranged in a belt shape along the circumferential direction, and an oil absorbing member arranged between the high grip members. The high grip member forms a high grip portion for the rotating body at both ends of the fixing belt.
Therefore, a relatively slippery recording material is supplied to the central portion of the pressure contact portion between the fixing belt and the rotating body, and the drive side fixing belt (or the rotating body) and the recording material are interposed by the slippery recording material. Even if a slip is likely to occur between the recording medium and / or between the recording material and the driven-side rotator (or fixing belt), the high-grip portion acts on the driving-side fixing belt (or rotator). The followability of the driven rotating body (or fixing belt) is improved, and the fixing belt and the rotating body rotate at substantially the same peripheral speed. For this reason, the slip is prevented (at least significantly less likely to occur), and as a result, a stable fixing operation is performed. Therefore, the toner image on the recording material is hardly rubbed, and image distortion hardly occurs.
Moreover, a plurality of the high grip members are provided in a belt shape along the circumferential direction of both end portions of the fixing belt, and an oil absorbing member is disposed between the high grip members. The effect is obtained.
That is, when the release oil is applied to the surface of the fixing belt, as described above, the oil gradually enters the end of the pressure contact portion between the fixing belt and the rotating body. According to the belt fixing device of the first aspect, since the oil absorbing member is disposed between the high grip members, the oil that has entered the end of the pressure contact portion is absorbed by the oil absorbing member. Will be.
Therefore, the amount of oil present on the surface of the high grip member forming the high grip portion is small, or, among the plurality of high grip members, the surface of the high grip member located at the outermost end portion of the belt. Intrusion of oil is prevented (at least significantly hindered) by the presence of the oil absorbing member. As a result, grip force at both ends of the press contact portion is secured, and the slip is prevented (at least significantly less likely to occur). Thus, a stable fixing operation is performed.
That is, according to the belt fixing device of the first aspect, it is possible to obtain a stable fixing operation even though the release oil is applied to the surface of the fixing belt.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
<First Embodiment>
FIG. 1 is a schematic side view showing a first embodiment of a belt fixing device according to the present invention, and FIG. 2 is a schematic perspective view of a main part.
[0009]
The fixing device 100 includes a fixing belt 110 to be heated and a pressure roller 120 as a rotating body pressed against the fixing belt 110, and a recording material S on which a toner image (not shown) is formed. As shown by an arrow S1, the toner image is heated and melted and fixed on the recording material S through the central portion N1 of the pressure contact portion N between the fixing belt 110 and the pressure roller 120.
The fixing device 100 of this embodiment includes a backup roller 130 as a backup member that supports the fixing belt 110 from the inside in the pressure contact portion N, and a heating roller 140 as a heating unit that heats the fixing belt 110. The fixing belt 110 is stretched between the backup roller 130 and the heating roller 140.
An oil application roller 150 serves as an oil application unit, and applies release oil to the surface of the fixing belt 110.
[0010]
As the driving roller for rotating the fixing belt 110 and each roller, any roller other than the oil application roller 150 can be used. In this embodiment, the pressure roller 120 is used as the driving roller. Used.
That is, the pressure roller 120 is rotationally driven in the direction of the arrow in FIG. 1 (counterclockwise) by a driving unit (not shown) so that the backup roller 130, the fixing belt 110, the heating roller 140, and the oil application roller 150 are driven. It has become. Specifically, since the fixing belt 110 and the backup roller 130 are pressed against the pressure roller 120, the fixing belt 110 and the backup roller 130 are driven by the pressure roller 120, and the fixing belt 110 is heated by the heating roller 140. As a result, the heating roller 140 is driven by the fixing belt 110, and the oil application roller 150 is pressed against the fixing belt 110, so that the oil application roller 150 is driven by the fixing belt 110. It has become.
In FIG. 1, reference numeral 111 denotes a thermistor for detecting the surface temperature of the fixing belt 110 at a portion wound around the backup roller 130. The thermistor 111 is provided on the upstream side of the pressure contact portion N with the pressure roller 120.
[0011]
The backup roller 130 has a metal core 131 and a relatively thick elastic layer 132 provided on the surface of the core 131, and the frame of the fixing device 100 is supported by the shaft 131 a of the core 131. The side plate 101 is rotatably supported. The heating roller 140 is formed in a pipe shape from a material having excellent thermal conductivity (for example, aluminum), and a halogen lamp 141 as a heat source is disposed therein. The heating roller 140 can rapidly heat the fixing belt 110 at the winding portion of the fixing belt 110. The heating roller 140 in this embodiment is configured as a tension roller, and is urged in the tensioning direction of the fixing belt 110 by an appropriate urging unit (not shown). In FIG. 1, reference numeral 143 denotes a thermistor for detecting the temperature of the heating roller 140.
[0012]
The pressure roller 120 includes a pipe-shaped core material 121 having excellent thermal conductivity, a relatively thin elastic layer 122 provided on the surface of the core material 121, and harder than the elastic layer 132 of the backup roller 130, A surface layer 122 a that is formed on the surface of the elastic layer 122 and has excellent releasability from the recording material and toner, and a halogen lamp 123 that is a heat source is disposed inside the core material 121.
The pressure roller 120 is rotatably supported with respect to the frame side plate 101 of the fixing device 100, and is illustrated by a driving unit (not shown) provided in an image forming apparatus main body (not shown) to which the fixing device 100 is attached. 1 is rotated in the direction of the arrow 1 (counterclockwise). The pressure roller 120 is attached so as not to move in the radial direction, and is pressed against the backup roller 130 via the fixing belt 110 by the elastic force of the elastic layer 122 and the elastic layer 132 of the backup roller 130. ing. The pressure contact portion N is formed in a convex shape on the backup roller 130 side because the elastic layer 132 of the backup roller 130 is thicker and softer than the elastic layer 122 of the pressure roller 120. In FIG. 1, a thermistor 124 detects the surface temperature of the pressure roller 120.
[0013]
On the frame 101, the recording material S on which a toner image is formed (transferred) by a transfer portion of an image forming apparatus (not shown) is guided to a central portion N1 of a pressure contact portion (nip portion) N between the fixing belt 110 and the pressure roller 120. A guide 102 is provided. Further, on the downstream side of the press-contact portion N, a paper discharge roller pair 103 and a guide 104 that guides the recording material S after fixing to a paper discharge path of an image forming apparatus (not shown) are provided. Each of the thermistors is connected to a control unit of an image forming apparatus (not shown), and the energization amount to each of the heat sources 123 and 141 is controlled by the control unit in accordance with the detected temperature from each thermistor. ing.
[0014]
The main feature of this embodiment is the structure of the fixing belt 110, which will be described.
3A is a partially enlarged front view of the fixing belt 110 (the fixing belt 110 in a state before being stretched between the backup roller 130 and the heating roller 140), FIG. 3B is a left side view thereof, and FIG. FIG. 3 is a cross-sectional view of the belt end.
[0015]
The fixing belt 110 is a heat-resistant belt, and includes an endless belt base 112 (see FIG. 2) and a central portion 112a in the width direction of the belt base 112 (the horizontal direction in FIG. 2 and the axial direction of each roller). A plurality of (three in this embodiment) high grip members G arranged in a band shape along the circumferential direction thereof, and the high grips thereof. Oil absorbing members 116 and 116 disposed between the members G are provided.
The belt base 112 is made of, for example, conductive polyimide.
The surface layer 113 is formed by coating the central portion 112a in the width direction of the belt base 112 with a high release material (a material excellent in releasability from a recording material and toner, for example, silicone rubber).
As shown in FIG. 3, the high grip member G in this embodiment is configured to fix a ring-shaped endless rubber belt having a large number of protrusions G1 extending in the axial direction (belt width direction) with an adhesive 115, or a large number of protrusions. A tape-like rubber belt having the stripe G1 is wound around the belt substrate 112 in a ring shape and fixed with an adhesive 115.
The oil absorbing member 116 is a ring-shaped member fixed between the high grip members with the adhesive 115 or a tape-shaped member wound around the belt base 112 in a ring shape and fixed with the adhesive 115. As the oil absorbing member 116, heat resistant fiber, cloth, sponge, porous film or the like can be employed.
[0016]
According to the fixing device 100 according to this embodiment, the following operational effects can be obtained.
The recording material S on which the toner image is formed is centered at the pressure contact portion N between the heated fixing belt 110, one of which is driven and the other driven, and the pressure roller 120 as a rotating body pressed against the fixing belt 110. By passing through the portion N1, the toner image is heated and melted and fixed on the recording material S. Further, since the oil applying means 150 for applying the release oil to the surface of the fixing belt 110 is provided, the offset phenomenon is hardly generated.
At both ends of the fixing belt 110, a plurality of high grip members G arranged in a belt shape along the circumferential direction thereof and an oil absorbing member 116 arranged between the high grip members G are provided. Therefore, the high grip member G forms high grip portions for the pressure roller 120 at both ends of the fixing belt 110.
Accordingly, the relatively slippery recording material S is supplied to the central portion N1 of the pressure contact portion N between the fixing belt 110 and the pressure roller 120, and the drive-side pressure roller 120 is interposed by the slippery recording material S. Even if a slip is likely to occur between the recording material S and / or the recording material S and the fixing belt 110 on the driven side, the pressure roller on the driving side is caused by the action of the high grip portion (G). The followability of the fixing belt 110 on the driven side with respect to 120 is improved, and the fixing belt 110 and the pressure roller 120 rotate at substantially the same peripheral speed. For this reason, the slip is prevented (at least significantly less likely to occur), and as a result, a stable fixing operation is performed. Therefore, the toner image on the recording material S is hardly rubbed, and image disturbance hardly occurs.
Moreover, a plurality of high grip members G are provided in a belt shape along the circumferential direction of both end portions 112b of the fixing belt 110, and the oil absorbing member 116 is disposed between the high grip members G. The following effects can be obtained.
That is, when the release oil is applied to the surface of the fixing belt 110, the oil gradually enters the end portion N2 of the pressure contact portion N between the fixing belt 110 and the pressure roller 120 as described above. However, according to this belt fixing device 100, since the oil absorbing member 116 is disposed between the high grip members G, the oil that has entered the end portion N2 of the press contact portion is oil. It is absorbed by the absorbing member 116.
Therefore, the amount of oil present on the surface G4 (see FIG. 3) of the high grip member G forming the high grip portion is small. Alternatively, intrusion of oil into the surface of the high grip member G ′ located at the outermost end of the belt among the plurality of high grip members is prevented (at least significantly hindered) by the presence of the oil absorbing member 116. As a result, a grip force at both ends of the press contact portion is ensured, the slip is prevented (at least significantly less likely to occur), and a stable fixing operation is performed.
That is, according to the belt fixing device 100, it is possible to obtain a stable fixing operation even though the release oil is applied to the surface of the fixing belt 110.
[0017]
<Second Embodiment>
FIG. 4 is a view showing a main part of a second embodiment of the belt fixing device according to the present invention. FIG. 4A shows a fixing belt 110 (before being stretched between the backup roller 130 and the heating roller 140). FIG. 2 is a partially enlarged front view of the fixing belt 110) in a state, (b) is a left side view, and (c) is a transverse sectional view of the belt end. In FIG. 4, the same or corresponding parts as those in the first embodiment are given the same reference numerals.
This embodiment is different from the first embodiment in that the grip force is further improved by adopting a structure in which the high grip member G has a structure in which a large number of particles (for example, glass beads) are fixed to the surface G4 with an epoxy adhesive. The other points are the same.
Also according to this embodiment, the same effect as that obtained by the first embodiment can be obtained.
[0018]
【Example】
Further specific examples will be described.
(Regarding fixing belt 110)
The structure is a seamless belt, and the belt base 112 is composed of an endless belt-like sheet made of conductive polyimide. The thickness of the belt substrate 112 is about 150 μm.
The width of the belt substrate 112 is about 392 mm, and a surface layer 113 is formed by coating silicone rubber with a thickness of about 200 μm only at the center thereof, and exposed portions 112b having a width of about 27 mm are formed at both ends. A high grip member G and an oil absorbing member 116 are provided on the exposed portion.
The inner diameter of the belt base 112 is about φ60 mm.
[0019]
(Regarding the pressure roller 120)
The structure is made of iron (SUM24) having a hollow shaft portion 125 (see FIG. 2) at both ends, and an outer peripheral surface of a pipe portion 121 having an outer diameter of about 32 mm and an inner diameter of about 22 as an elastic layer 122, and its outer peripheral surface. The surface layer 122a is covered with a fluororesin.
The elastic layer 122 has a rubber hardness of about JIS-A 20 ° and a layer thickness of about 1.5 mm.
The surface layer 122a is a fluorine latex film that is thermally cured after applying a fluorine latex paint. The layer thickness is about 60 μm.
The heat generation amount of the halogen lamp 123 provided in the hollow portion is about 230 W at 100V.
The outer diameter of the pressure roller 120 is about 35.2 mm.
The width of the roller including the shaft portion 124 (length in the axial direction) is about 444.3 mm.
The pressing load on the backup roller 130 is applied to the shaft portions 125 and 125 and is about 60 kg on one side (total load on both ends 120 kg). The backup roller 130 and the pressure roller 120 are fixed to the frame 101 at a fixed position (a constant distance between the axes), and no special pressing means is provided. The pressing load is generated when the two rollers 120 and 130 are fixed to the frame 101 so that the distance between the shafts is shorter than the sum of the outer diameters of the two rollers 120 and 130, and the two rollers bite each other. The load acting position on the roller is a fixed position on the frame and a position of a bearing (not shown) which is a bearing of the shaft 124.
The circumferential length L2 of the press contact portion N with the fixing belt 110 is about 11 mm.
[0020]
(For backup roller 130)
The structure is made of a solid iron (SUM24) roller of about φ26 having a shaft portion 131a of about φ10 at both ends and silicone rubber as an elastic layer 132 on the outer peripheral surface, and PFA (4-fluorocarbon) as a surface layer 132a on the outer peripheral surface. (Ethylene fluoride / perfluoroalkoxyethylene copolymer).
The outer diameter of the backup roller 130 is about 38.5 mm, and the roller width excluding the shaft portion 131a is about 398 mm.
The layer thickness of the elastic layer 132 is about 6.25 mm. The rubber hardness is about JIS-A 10 °.
The surface layer 132a uses a heat-shrinkable PFA resin tube. The layer thickness after coating is about 110 μm.
[0021]
(Regarding heating roller 140)
The structure is a pipe-shaped aluminum roller having a shaft portion 144 of about φ20 at both ends and having an outer diameter of about φ28 and a thickness of about 3 mm.
The roller width excluding the shaft portion 144 is about 393 mm.
The heat generating means 141 arranged in the roller hollow portion is a halogen lamp. The calorific value is about 695 W at 100V.
[0022]
(Regarding oil application roller 150)
The structure is such that an oil retaining layer 152 composed of an oil impregnated layer 152a and an oil supply layer 152b and a surface layer 153 are sequentially laminated on a shaft 151 made of iron (SUM24) having a diameter of about 10 mm.
The oil application roller 150 has an outer diameter of about 36 mm, a roller width not including the shaft end portion of about 337 to 392 mm, and preferably a range that does not cover the high grip portion and covers the sheet passing range. Specifically, it is about 337 mm.
The oil impregnated layer 152a is made of sponge and has a thickness of about 11 mm.
The oil supply layer 152b is made of felt and has a layer thickness of about 2 mm.
The surface layer 153 is made of porous PTFE (tetrafluoroethylene polymer) resin and has a layer thickness of about 120 μm.
The release agent is made of dimethyl silicone oil. The viscosity (at 20 ° C.) is about 100 centistokes, and the total amount to be impregnated is about 140 g.
The contact load (pressing load) to the fixing belt 110 can be set as appropriate within a range of a total load of 0.5 to 2 kg, and more preferably about 1 kg.
The contact width (length in the belt moving direction) between the oil application roller 150 and the fixing belt 110 is about 3 mm.
[0023]
Although the embodiments and examples of the present invention have been described above, the present invention is not limited to the above-described embodiments or examples, and can be appropriately modified within the scope of the gist of the present invention.
For example,
(1) In the above embodiment, the number of the high grip members G is three, but can be set as appropriate as long as the number is two or more. Therefore, the number of the oil absorbing members 116 can also be set as appropriate, and may be disposed between at least two high grip members.
(2) As shown in FIG. 5 (a), the oil applying means 150 may have a length longer than the width of the belt 110, or as shown in FIG. 5 (b), the surface layer of the belt. The oil may be applied only to the image forming area with a width slightly shorter than the width 113. As shown in FIG. 5A, when the length of the oil applying unit 150 is longer than the width of the belt 110, the stress generated in the fixing belt 110 can be reduced, and as shown in FIG. 5B. If the configuration is such that the oil is applied only to the image forming area by making it slightly shorter than the width of the surface layer 113 of the belt, it becomes difficult for the oil to enter the end portion N2 of the fixing nip portion N.
[0024]
【The invention's effect】
According to the belt fixing device of the first aspect, it is possible to obtain a stable fixing operation even though the release oil is applied to the surface of the fixing belt.
[0025]
[Brief description of the drawings]
FIG. 1 is a schematic side view showing a first embodiment of a belt fixing device according to the present invention.
FIG. 2 is a schematic perspective view of a main part.
3A is a partially enlarged front view of the fixing belt 110, FIG. 3B is a left side view, and FIG. 3C is a cross-sectional view of the belt end.
FIGS. 4A and 4B are diagrams illustrating a main part of a second embodiment of a belt fixing device according to the present invention, in which FIG. 4A is a partially enlarged front view of a fixing belt 110, FIG. 4B is a left side view, and FIG. FIG. 2 is a cross-sectional view of the belt end.
FIGS. 5A and 5B are explanatory views of modified examples (a front view of a main part viewed from the oil application roller 150 side), respectively.
FIG. 6 is an explanatory diagram of a conventional technique.
FIG. 7 is an explanatory diagram of a conventional technique.
[Explanation of symbols]
S Recording material
100 Fixing device
110 Fixing belt
112 Belt base
112b End of belt base
G High grip material
116 Oil absorbing member
120 Pressure roller (rotating body)
150 Oil roller (oil application means)
N pressure weld
N1 Central part of pressure weld
N2 End of pressure weld

Claims (2)

A fixing belt to be heated; a rotating body that is pressed against the fixing belt; and an oil application unit that applies release oil to a surface of the fixing belt, wherein one of the fixing belt and the rotating body is driven. And a fixing device that passes the recording material on which the other is driven and a toner image is passed through the central portion of the press-contact portion between the fixing belt and the rotating body to heat and melt the toner image and fix it on the recording material. And
At both ends of the fixing belt, a plurality of high grip members arranged in a belt shape along the circumferential direction thereof, and an oil absorbing member arranged between the high grip members are provided.
The high grip member is composed of a rubber belt having a number of protrusions extending in the width direction of the fixing belt, and the surface of the high grip member is more than the surface of the oil absorbing member in the radial direction of the fixing belt. A belt fixing device characterized by also protruding. A fixing belt to be heated; a rotating body that is pressed against the fixing belt; and an oil application unit that applies release oil to a surface of the fixing belt, wherein one of the fixing belt and the rotating body is driven. And a fixing device that passes the recording material on which the other is driven and a toner image is passed through the central portion of the press-contact portion between the fixing belt and the rotating body to heat and melt the toner image and fix it on the recording material. And
At both ends of the fixing belt, a plurality of high grip members arranged in a belt shape along the circumferential direction thereof, and an oil absorbing member arranged between the high grip members are provided.
The high grip member has a structure in which a large number of granular materials are fixed to the surface of the high grip member, and the surface of the high grip member is more than the surface of the oil absorbing member in the radial direction of the fixing belt. A belt fixing device that protrudes.

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