JP6828616B2 - Fixing device and image forming device - Google Patents

Description

The present invention relates to a fixing device for fixing a toner image on a recording medium, and an image forming device provided with the fixing device.

Conventionally, image forming devices such as copiers, printers, and facsimiles are provided with a fixing device for fixing a toner image on a recording medium such as paper. This fixing device includes, for example, a fixing member (for example, a fixing roller or a fixing belt) for fixing a toner image on a recording medium, and a pressure member for forming a fixing nip together with the fixing member.

Conventionally, in such a fixing device, a method of supporting a fixing member by a rotating shaft has been widely adopted. On the other hand, in recent years, as the demand for energy saving of the fixing device has increased, it has become important to shorten the warm-up time. However, the method of supporting the fixing member by the rotating shaft has a limit in shortening the warm-up time. There is.

Therefore, in order to shorten the warm-up time, a method of sliding the fixing belt with respect to a fixing member arranged in the fixing belt (hereinafter referred to as "sliding belt method") has been proposed (hereinafter referred to as "sliding belt method"). See Patent Document 1). In this sliding belt type fixing device, the fixing belt is rotated while the fixing belt is sandwiched between the pressure member and the fixing member, so that the fixing belt is rotated in accordance with the pressure member. By adopting such a configuration, the heat capacity of the fixing device can be reduced, so that the warm-up time can be shortened.

Japanese Unexamined Patent Publication No. 2014-41190

In the sliding belt type fixing device, the width of the fixing nip can be widened by devising the shape of the fixing member, and the fixing property of the toner image on the recording medium can be improved accordingly. .. For example, by curving the surface of the fixing member on the fixing nip side, it is possible to widen the width of the fixing nip as compared with the case where the surface of the fixing member on the fixing nip side is flat. ..

However, if the surface of the fixing member on the fixing nip side is curved as described above, pressure release of the fixing nip (a phenomenon in which the pressure of the fixing nip is partially reduced) may occur. When the pressure release of the fixing nip occurs in this way, the recording medium may slip slightly and the toner image on the recording medium may shift, leading to deterioration of image quality.

Therefore, in consideration of the above circumstances, it is an object of the present invention to improve the fixability of the toner image on the recording medium and to suppress the deterioration of the image quality due to the pressure release of the fixing nip.

The fixing device according to the present invention includes a fixing belt rotatably provided, a pressurizing member that forms a fixing nip together with the fixing belt and is rotatably provided, and a pressing member provided inside the fixing belt. The fixing member includes a fixing member for sandwiching the fixing belt, and the fixing member covers the boundary between the pad and the surface of the fixing nip side in which a plurality of portions having different radii of curvature in cross sections are formed. It is characterized in that it is provided with an elastic sheet fixed to a part of the surface of the pad on the fixing nip side.

The plurality of portions include an upstream side portion and a downstream side portion provided on the downstream side in the transport direction of the recording medium from the upstream side portion, and the radius of curvature of the cross section of the upstream side portion is Ra, and the downstream side portion is defined as Ra. When the radius of curvature of the cross section of the side portion is Rb, the relationship of Ra> Rb may be established.

The upstream side portion has a planar shape, and the downstream side portion may be curved so as to bulge toward a side away from the rotation axis of the pressurizing member.

The upstream side portion and the downstream side portion may be curved so as to bulge toward a side away from the rotation axis of the pressurizing member.

The fixing member further includes a contact sheet interposed between the pad and the fixing belt, and a stay provided on the opposite side of the fixing nip across the pad and supporting the pad. Is also good.

The image forming apparatus according to the present invention is characterized by including the fixing apparatus.

According to the present invention, it is possible to improve the fixability of the toner image on the recording medium and suppress the deterioration of the image quality due to the pressure release of the fixing nip.

It is a schematic diagram which shows the outline of the image forming apparatus which concerns on one Embodiment of this invention. It is sectional drawing which shows the fixing device which concerns on one Embodiment of this invention. It is sectional drawing which shows the fixing member which concerns on one Embodiment of this invention, and its peripheral part. It is sectional drawing which shows the fixing member which concerns on 1st comparative example, and the peripheral part thereof. It is sectional drawing which shows the fixing member which concerns on 2nd comparative example, and the peripheral part thereof. It is sectional drawing which shows the fixing member which concerns on 3rd comparative example, and the peripheral part thereof. It is sectional drawing which shows the fixing member which concerns on other different embodiment of this invention, and the peripheral part thereof.

First, the overall configuration of the image forming apparatus 1 will be described.

Hereinafter, for convenience of explanation, the front side of the paper surface in FIG. 1 is referred to as the front side of the image forming apparatus 1. Arrows L, R, U, and Lo appropriately attached to each figure indicate the left side, right side, upper side, and lower side of the image forming apparatus 1, respectively.

With reference to FIG. 1, the image forming apparatus 1 is, for example, a printer. The image forming apparatus 1 includes a box-shaped apparatus main body 2. A paper feed cassette 3 for storing paper S (an example of a recording medium) is housed in the lower part of the apparatus main body 2. A paper output tray 4 is provided on the upper surface of the apparatus main body 2. In the upper part of the apparatus main body 2, the exposure device 5 is housed below the output tray 4.

A paper S transport path P is provided inside the apparatus main body 2. A paper feeding unit 6 is provided at the upstream end of the transport path P. An image forming portion 7 is provided in the middle stream portion of the transport path P. A fixing device 8 is provided in the downstream portion of the transport path P.

Next, the operation of the image forming apparatus 1 having such a configuration will be described.

First, an electrostatic latent image is formed in the image forming unit 7 by the laser light from the exposure device 5 (see the two-dot chain line in FIG. 1). Next, the image forming unit 7 develops the above electrostatic latent image to form a toner image. As a result, the image forming operation is completed.

On the other hand, the paper S taken out from the paper feed cassette 3 by the paper feed unit 6 is conveyed to the image forming unit 7 at the same timing as the image forming operation described above, and the toner image is transferred to the paper S in the image forming unit 7. Is transferred to. The paper S on which the toner image is transferred is conveyed downstream along the transport path P and enters the fixing device 8, and the toner image is fixed on the paper S in the fixing device 8. The paper S on which the toner image is fixed is discharged to the paper ejection tray 4.

Next, the fixing device 8 will be further described.

The arrow Y attached to each of the drawings after FIG. 2 indicates the transport direction of the paper S in the fixing device 8 (hereinafter, referred to as “transport direction Y”). In the present embodiment, the transport direction Y is a direction from the left side to the right side.

With reference to FIG. 2, the fixing device 8 includes a fixing belt 11, a pressure roller 12 (an example of a pressure member) provided on the lower side (outside) of the fixing belt 11, and an upper side (outside) of the fixing belt 11. A heating mechanism 13 provided in the above, and a fixing member 14, a guide member 15, and a holding member 16 provided inside the fixing belt 11 are provided.

The fixing belt 11 of the fixing device 8 has a long cylindrical shape in the front-rear direction. The fixing belt 11 has flexibility and is endless in the circumferential direction. The diameter of the fixing belt 11 is, for example, 30 mm. The fixing belt 11 is rotatable around a rotation shaft X1 extending in the front-rear direction. That is, in the present embodiment, the front-rear direction is the rotation axis direction of the fixing belt 11.

The fixing belt 11 includes, for example, a cylindrical base material layer, an elastic layer provided around the base material layer, and a release layer covering the elastic layer. The base material layer of the fixing belt 11 is made of a metal such as nickel electroformed. The thickness of the base material layer of the fixing belt 11 is, for example, 30 μm to 50 μm. The inner peripheral surface of the base material layer of the fixing belt 11 (corresponding to the inner peripheral surface of the entire fixing belt 11) is coated with a heat-resistant resin such as PTFE (Poly Tetra Fluoro Ethylene). The elastic layer of the fixing belt 11 is made of an elastic material such as silicon rubber. The thickness of the elastic layer of the fixing belt 11 is, for example, 200 μm to 500 μm. The release layer of the fixing belt 11 is made of, for example, a heat-resistant resin such as PFA (Per Fluoro Alkoxy).

The pressure roller 12 of the fixing device 8 has a long cylindrical shape in the front-rear direction. The diameter of the pressure roller 12 is, for example, 30 mm. The pressurizing roller 12 can rotate around a rotation shaft X2 extending in the front-rear direction. That is, in the present embodiment, the front-rear direction is the rotation axis direction of the pressure roller 12.

The pressure roller 12 comes into contact with the fixing belt 11 at a predetermined pressure to form a fixing nip N together with the fixing belt 11. In the A3 machine (image forming apparatus 1 capable of printing on the paper S of A3), the pressure of the fixing nip N is, for example, 300N to 400N.

The pressure roller 12 includes, for example, a cylindrical base material layer, an elastic layer provided around the base material layer, and a mold release layer covering the elastic layer. The base material layer of the pressure roller 12 is made of, for example, a metal such as stainless steel or aluminum. The elastic layer of the pressure roller 12 is made of an elastic material such as silicon rubber. The thickness of the elastic layer of the pressure roller 12 is, for example, 5 mm. The release layer of the pressure roller 12 is made of, for example, a heat-resistant resin such as PFA (Per Fluoro Alkoxy).

The heating mechanism 13 of the fixing device 8 covers the upper part of the fixing belt 11 from the outside in the radial direction, and is configured to heat the upper part of the fixing belt 11 by induction heating. That is, the heating mechanism 13 of the present embodiment is a so-called "external IH type".

The heating mechanism 13 includes a bobbin 18, a core 19 that covers the bobbin 18 from the outside in the radial direction, and an IH coil 20 (an example of a heat source) provided in the space between the bobbin 18 and the core 19. The IH coil 20 is curved in an arc shape along the outer peripheral surface of the fixing belt 11, and faces the outer peripheral surface of the fixing belt 11 at a predetermined interval.

The fixing member 14 of the fixing device 8 sandwiches the fixing belt 11 together with the pressure roller 12. The fixing member 14 is fixed to a fixing frame (not shown). The fixing member 14 is fixedly provided and cannot rotate.

The fixing member 14 is provided on the stay 24, the plate 25 provided on the left side of the stay 24 (upstream side in the transport direction Y), the contact sheet 26 provided from the left side to the lower side of the stay 24, and the lower side of the stay 24. The pad 27 is provided, and the elastic sheet 28 provided under the pad 27 is provided.

The stay 24 of the fixing member 14 has a long square tubular shape in the front-rear direction. The stay 24 is provided on the opposite side of the fixing nip N with the pad 27 interposed therebetween. The stay 24 is formed, for example, by bending a sheet metal. The stay 24 has mechanical strength capable of receiving the pressure from the pressure roller 12.

The plate 25 of the fixing member 14 has a long flat plate shape in the front-rear direction. The plate 25 is fixed to the lower part of the left side surface of the stay 24 by a screw 30.

The contact sheet 26 of the fixing member 14 has a long shape in the front-rear direction. The contact sheet 26 is made of, for example, a heat-resistant resin such as PTFE (Poly Tetra Fluoro Ethylene). The contact sheet 26 has a smaller coefficient of friction than the pad 27. A lubricant is applied to the contact sheet 26 in order to improve the slidability of the fixing belt 11 with respect to the fixing member 14.

The left end portion of the contact sheet 26 (the end portion on the upstream side in the transport direction Y) is sandwiched between the stay 24 and the plate 25. The left and right central portions of the contact sheet 26 are interposed between the pad 27 and the fixing belt 11, and are in direct contact with the inner peripheral surface of the fixing belt 11.

The pad 27 of the fixing member 14 has a long shape in the front-rear direction. The pad 27 is made of, for example, a heat-resistant resin such as LCP (Liquid Crystal Polymer). The pad 27 sandwiches the fixing belt 11 and the contact sheet 26 together with the pressure roller 12.

The upper surface of the pad 27 (the surface opposite to the fixing nip N) is in contact with the lower surface of the stay 24. As a result, the pad 27 is supported by the stay 24 from above (the side opposite to the fixing nip N).

With reference to FIGS. 2 and 3, the lower surface of the pad 27 (the surface on the fixing nip N side) presses the fixing belt 11 toward the lower side (pressurizing roller 12 side) via the contact sheet 26. .. The lower surface of the pad 27 regulates the shape of the fixing nip N.

On the lower surface of the pad 27, a plurality of portions 31 and 32 having different radii of curvature in cross sections are formed. The plurality of portions 31 and 32 include an upstream side portion 31 and a downstream side portion 32 provided on the right side (downstream side in the transport direction Y) of the upstream side portion 31.

The upstream side portion 31 of the lower surface of the pad 27 is continuous from the vicinity of the inlet of the fixing nip N (the upstream end portion in the transport direction Y) to the boundary Z between the upstream side portion 31 and the downstream side portion 32. The upstream side portion 31 has a planar shape. The radius of curvature Ra of the cross section of the upstream side portion 31 is ∞ (infinity).

The downstream side portion 32 of the lower surface of the pad 27 is continuous from the boundary Z between the upstream side portion 31 and the downstream side portion 32 to the vicinity of the outlet of the fixing nip N (the downstream end portion in the transport direction Y). The downstream side portion 32 is curved so as to bulge toward the upper side (the side of the pressure roller 12 separated from the rotation axis X2). The radius of curvature Rb of the cross section of the downstream side portion 32 is, for example, 40 mm or more. The relationship of Ra> Rb is established between the radius of curvature Ra of the cross section of the upstream side portion 31 and the radius of curvature Rb of the cross section of the downstream side portion 32.

The elastic sheet 28 of the fixing member 14 has a long shape in the front-rear direction. The elastic sheet 28 is made of an elastic material such as silicon rubber. The thickness of the elastic sheet 28 is, for example, 0.1 mm to 0.2 mm, which is thinner than the thickness of the pad 27. The width of the elastic sheet 28 in the transport direction Y is, for example, 3 mm to 5 mm.

The elastic sheet 28 covers the boundary Z between the upstream side portion 31 and the downstream side portion 32 on the lower surface of the pad 27. The left and right central portions (central portions in the transport direction Y) of the elastic sheet 28 coincide with the boundary Z. The elastic sheet 28 is fixed only to the left and right central portions (central portion in the transport direction Y) of the lower surface of the pad 27, and the left side portion (upstream portion in the transport direction Y) and the right side portion (transport direction Y) of the lower surface of the pad 27. It is not fixed in the downstream part). Specifically, the elastic sheet 28 is attached and fixed near the boundary Z with double-sided tape or the like.

With reference to FIG. 2, the guide member 15 of the fixing device 8 has a long shape in the front-rear direction. The guide member 15 is made of, for example, a magnetic SUS plate. The thickness of the guide member 15 is, for example, 0.2 mm to 0.3 mm.

The guide member 15 is a pair of a curved portion 34 that is curved so as to bulge upward and a pair that is bent radially inward (the side of the fixing belt 11 that approaches the rotation axis X1) from the left and right ends of the curved portion 34. The first flat plate portion 35 of the above, and a pair of second flat plate portions 36 that are bent downward from the radial inner end portion of each first flat plate portion 35. The curved portion 34 stabilizes the rotation trajectory of the fixing belt 11 by guiding the upper portion of the fixing belt 11 (the portion facing the IH coil 20) from the inside in the radial direction. Each second flat plate portion 36 is fixed to the upper part of the left and right side surfaces of the stay 24. As a result, the guide member 15 is supported by the stay 24.

The holding member 16 of the fixing device 8 has a long shape in the front-rear direction. The holding member 16 has a U-shape that is open toward the upper side. The lower surface of the holding member 16 is fixed to the upper surface of the stay 24. As a result, the holding member 16 is supported by the stay 24. Wiring of electrical components (not shown) is held inside the holding member 16.

Next, the operation of fixing the toner image on the paper S in the fixing device 8 configured as described above will be described.

With reference to FIG. 2, when fixing the toner image on the paper S, a high frequency current is passed through the IH coil 20 of the heating mechanism 13. Along with this, the IH coil 20 generates a magnetic field, and the action of this magnetic field generates an eddy current in the fixing belt 11, and the fixing belt 11 generates heat. That is, the fixing belt 11 is heated by the IH coil 20.

Further, when fixing the toner image on the paper S, the pressure roller 12 is rotated by a drive source (not shown) such as a motor (see arrow A in FIG. 2). When the pressure roller 12 rotates in this way, the fixing belt 11 rotates in accordance with the pressure roller 12 (see arrow B in FIG. 2). Along with this, the fixing belt 11 slides against the contact sheet 26 of the fixing member 14. That is, in this embodiment, the so-called "sliding belt method" is adopted.

When the paper S enters the fixing nip N in this state, the paper S and the toner image are heated and pressurized by the fixing belt 11 and the pressure roller 12. As a result, the toner image is fixed on the paper S.

Next, the problems of the fixing members 41 to 43 according to the first to third comparative examples will be described with reference to FIGS. 4 to 6.

The shapes of the fixing members 41 to 43 are required to have the following functions 1 to 3.
<Function 1> A function of widening the width of the fixing nip N in the transport direction Y (hereinafter referred to as "fixing nip width") to improve the fixing property of the toner image on the paper S. <Function 2> Near the outlet of the fixing nip N. Function to naturally separate the paper S from the fixing belt 11 by utilizing the change in the curvature of the fixing belt 11 in <Function 3> Image quality due to pressure release of the fixing nip N (a phenomenon in which the pressure of the fixing nip N partially decreases). Function to suppress the decrease of

With reference to FIG. 4, in the fixing member 41 according to the first comparative example, the lower surface of the pad 27 has a flat surface. Further, the fixing member 41 according to the first comparative example does not include the elastic sheet 28.

In the fixing member 41 according to the first comparative example, since the lower surface of the pad 27 is flat, the fixing nip width is narrower than that in the case where the lower surface of the pad 27 is curved. Therefore, the above function 1 is not satisfied.

Further, in the fixing member 41 according to the first comparative example, since the lower surface of the pad 27 is flat, the change in the curvature of the fixing belt 11 near the outlet of the fixing nip N is small, and the fixing nip N passes through the fixing member 41. The paper S is hard to be naturally separated from the fixing belt 11. Therefore, the above function 2 is not satisfied either.

On the other hand, in the fixing member 41 according to the first comparative example, since the lower surface of the pad 27 is flat, the paper S tends to follow the shape of the lower surface of the pad 27. Therefore, a gap is unlikely to occur between the lower surface of the pad 27 and the inner peripheral surface of the fixing belt 11, and pressure release of the fixing nip N is unlikely to occur. Therefore, the above function 3 is satisfied.

With reference to FIG. 5, in the fixing member 42 according to the second comparative example, the lower surface of the pad 27 is curved with a constant curvature. Further, the fixing member 42 according to the second comparative example does not include the elastic sheet 28.

In the fixing member 42 according to the second comparative example, since the lower surface of the pad 27 is curved with a constant curvature, the fixing nip width is wider than in the case where the lower surface of the pad 27 is flat. .. Therefore, the above function 1 is satisfied.

Further, in the fixing member 42 according to the second comparative example, since the lower surface of the pad 27 is curved with a constant curvature, the change in the curvature of the fixing belt 11 near the outlet of the fixing nip N becomes large, and the fixing nip N is formed. The passed paper S is likely to be naturally separated from the fixing belt 11. Therefore, the above function 2 is also satisfied.

On the other hand, in the fixing member 42 according to the second comparative example, when the curvature of the lower surface of the pad 27 is increased in order to widen the fixing nip width, when a strong paper S such as thick paper enters the fixing nip N, The paper S may not be sufficiently curved along the shape of the lower surface of the pad 27. If the paper S is not sufficiently curved in this way, a gap G is formed between the inner peripheral surface of the fixing belt 11 and the lower surface of the pad 27, and the pressure release of the fixing nip N occurs accordingly. Therefore, the above function 3 is not satisfied. Whether or not pressure release of the fixing nip N occurs is determined by, for example, the shape of the boundary Z between the upstream side portion 31 and the downstream side portion 32 of the lower surface of the pad 27, the outer diameter of the pressure roller 12, and the pressure roller 12. It depends on various factors such as the setting of the elastic layer (thickness, hardness) and the pressure of the fixing nip N.

With reference to FIG. 6, in the fixing member 43 according to the third comparative example, the upstream side portion 31 of the lower surface of the pad 27 is planar, and the downstream side portion 32 of the lower surface of the pad 27 is curved. .. The fixing member 43 according to the third comparative example does not include the elastic sheet 28.

In the fixing member 43 according to the third comparative example, since the downstream portion 32 of the lower surface of the pad 27 is curved, the above functions 1 and 2 are satisfied for the same reason as the fixing member 42 according to the second comparative example. Is done.

On the other hand, in the fixing member 43 according to the third comparative example, if the curvature of the downstream portion 32 of the lower surface of the pad 27 is increased in order to widen the fixing nip width, for the same reason as the fixing member 42 according to the second comparative example. , Pressure release of the fixing nip N occurs. Therefore, the above function 3 is not satisfied.

As described above, it is difficult for all of the fixing members 41 to 43 according to the first to third comparative examples to satisfy all the functions 1 to 3 required for their shapes.

On the other hand, in the fixing member 14 according to the present embodiment, since the downstream portion 32 of the lower surface of the pad 27 is curved, the fixing member 14 is fixed as compared with the case where the lower surface of the pad 27 is flat. The nip width becomes wider. Therefore, the above function 1 is satisfied.

Further, in the fixing member 14 according to the present embodiment, since the downstream portion 32 of the lower surface of the pad 27 is curved, the change in the curvature of the fixing belt 11 near the outlet of the fixing nip N becomes large, and the fixing nip N is formed. The passed paper S is easily separated from the fixing belt 11. Therefore, the above function 2 is also satisfied.

Further, in the fixing member 14 according to the present embodiment, the boundary Z between the upstream side portion 31 and the downstream side portion 32 of the lower surface of the pad 27 is covered with the elastic sheet 28. Therefore, when a strong paper S such as thick paper enters the fixing nip N, the inner peripheral surface of the fixing belt 11 and the pad do not have to be sufficiently curved along the shape of the lower surface of the pad 27. A gap is less likely to be formed between the lower surfaces of the 27, and it is possible to suppress the pressure release of the fixing nip N (see FIG. 3). Therefore, the above function 3 is also satisfied.

As described above, the fixing member 14 according to the present embodiment can satisfy the functions 1 to 3 required for the shape in a well-balanced manner.

Further, when the elastic member is fixed to the entire lower surface of the pad 27, the elastic member needs to have a thickness of about 0.5 mm to 1 mm in order to suppress the pressure release of the fixing nip N. This is because the elastic force of the elastic member is exerted not only in the portion where the fixing nip N is likely to be depressurized but also in the portion where the fixing nip N is unlikely to be depressurized.

On the other hand, in the present embodiment, since the elastic sheet 28 is fixed only to a part of the lower surface of the pad 27 (the part where pressure release of the fixing nip N is likely to occur), the elastic sheet 28 has a thickness of 0.1 mm to If the thickness is 0.2 mm, it is possible to sufficiently suppress the pressure release of the fixing nip N. That is, in the present embodiment, it is possible not only to reduce the fixed area of the elastic sheet 28 with respect to the lower surface of the pad 27, but also to reduce the thickness of the elastic sheet 28. Along with this, the heat capacity of the elastic sheet 28 can be reduced, and the warm-up time can be shortened.

Further, since the thickness of the elastic sheet 28 is 0.1 mm to 0.2 mm, it is possible to prevent a step from being generated between the left and right ends of the elastic sheet 28 (both ends in the transport direction Y) and the lower surface of the pad 27. Therefore, the left and right ends of the elastic sheet 28 and the lower surface of the pad 27 can be smoothly continuous. Along with this, it becomes possible to suppress deterioration of image quality.

Further, the relationship of Ra> Rb is established between the radius of curvature Ra of the cross section of the upstream side portion 31 of the lower surface of the pad 27 and the radius of curvature Rb of the cross section of the downstream portion 32 of the lower surface of the pad 27. By adopting such a configuration, it is possible to reduce the stress applied to the paper S entering the fixing nip N and allow the paper S to stably enter the fixing nip N.

Further, the upstream side portion 31 of the lower surface of the pad 27 has a flat shape. By adopting such a configuration, it is possible to make the upstream side portion 31 of the lower surface of the pad 27 follow the transport direction Y, and it is possible to allow the paper to enter the fixing nip N more stably.

Further, the fixing member 14 includes a contact sheet 26 interposed between the pad 27 and the fixing belt 11. By adopting such a configuration, it is possible to improve the slidability of the fixing belt 11 with respect to the fixing member 14. Further, the fixing member 14 includes a stay 24 provided on the opposite side of the fixing nip N with the pad 27 interposed therebetween, and the stay 24 supports the pad 27. By adopting such a configuration, it is possible to suppress the position of the pad 27 from being displaced due to the pressing force from the pressure roller 12.

Further, the image forming apparatus 1 according to the present invention includes the fixing apparatus 8. By adopting such a configuration, it is possible to provide an image forming apparatus 1 which has high fixability of the toner image on the paper S and can suppress deterioration of image quality due to pressure release of the fixing nip N.

In the present embodiment, the upstream side portion 31 of the lower surface of the pad 27 is planar, and the downstream side portion 32 of the lower surface of the pad 27 faces the upper side (the side separated from the rotation axis X2 of the pressure roller 12). It is curved so that it swells. On the other hand, in another different embodiment, as shown in FIG. 7, both the upstream side portion 31 and the downstream side portion 32 of the lower surface of the pad 27 are on the upper side (the side separated from the rotation axis X2 of the pressure roller 12). It may be curved so as to bulge toward. By adopting such a configuration, the fixing nip width can be further widened, and the fixing property of the toner image on the paper S can be further improved. When such a configuration is adopted, the radius of curvature Ra of the cross section of the upstream side portion 31 is, for example, 80 mm or more, and the radius of curvature Rb of the cross section of the downstream side portion 32 is, for example, 40 mm or more. Further, in order to allow the paper S to stably enter the fixing nip N, as in the present embodiment, between the radius of curvature Ra of the cross section of the upstream side portion 31 and the radius of curvature Rb of the cross section of the downstream side portion 32. It is preferable that the relationship of Ra> Rb is established.

In this embodiment, the IH coil 20 is used as a heat source. On the other hand, in other different embodiments, a member other than the IH coil 20 such as a halogen heater may be used as a heat source.

In this embodiment, the image forming apparatus 1 is a printer. On the other hand, in another different embodiment, the image forming apparatus 1 may be a copier, a facsimile, a multifunction device (an image forming apparatus having a printing function, a copying function, a fax function, etc. in combination) and the like.

1 Image forming device 8 Fixing device 11 Fixing belt 12 Pressurizing roller (example of pressurizing member)
14 Fixing member 24 Stay 26 Contact sheet 27 Pad 28 Elastic sheet 31 Upstream side part (example of multiple parts)
32 Downstream part (example of multiple parts)
N Fixing Nip S Paper (Example of Recording Media)
X1 Rotation axis (of fixing belt) X2 Rotation axis (of pressure roller) Y (paper) transport direction Z (upstream part and downstream part) boundary

Claims (5)

With a rotatably provided fixing belt
A pressurizing member that forms a fixing nip together with the fixing belt and is rotatably provided,
A fixing member provided inside the fixing belt and sandwiching the fixing belt together with the pressurizing member is provided.
The fixing member is
A pad in which the upstream side portion and the downstream side portion in the transport direction of the recording medium having different radii of curvature in the cross section are formed on the surface on the fixing nip side
An elastic sheet fixed to a central portion of the pad on the fixing nip side surface in the transport direction so as to cover the boundary between the upstream side portion and the downstream side portion is provided .
When the radius of curvature of the cross section of the upstream portion is Ra and the radius of curvature of the cross section of the downstream portion is Rb, the relationship of Ra> Rb is established, and the central portion of the elastic sheet in the transport direction is the boundary. A fixing device characterized in that it matches with . The upstream portion is flat and has a flat shape.
The fixing device according to claim 1 , wherein the downstream side portion is curved so as to bulge toward a side away from the rotation axis of the pressurizing member. The fixing device according to claim 1 , wherein the upstream side portion and the downstream side portion are curved so as to bulge toward a side away from the rotation axis of the pressurizing member. The fixing member is
A contact sheet interposed between the pad and the fixing belt,
The fixing device according to any one of claims 1 to 3 , further comprising a stay that is provided on the opposite side of the fixing nip with the pad sandwiched and supports the pad. An image forming apparatus comprising the fixing apparatus according to any one of claims 1 to 4 .

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