This application is based on and claims priority under 35 USC 119 from Japanese Patent Application Nos. 2009-230586 filed on Oct. 2, 2009, and 2010-196848 filed on Sep. 2, 2010.
The present invention relates to a separation unit, a fixing unit using the separation unit, and an image forming apparatus using the fixing unit.
[1] According to an aspect of the invention, a separation unit is provided on a downstream side of a contact area between a belt-like rotating body and a pressure rotating body disposed in contact with the belt-like rotating body so as to apply elastic pressure thereto, and separates a recording material disposed adjacently to the contact area inside the belt-like rotating body and adhering to the belt-like rotating body. The separation unit includes a pressure member, a guide portion and a pressure portion. The pressure member is provided to extend along a width direction of the belt-like rotating body. The width direction crosses a moving direction of the belt-like rotating body. The pressure member presses the belt-like rotating body so as to deform the belt-like rotating body into a bent shape changing a course of the belt-like rotating body away from a surface of the pressure rotating body after the belt-like rotating body is disposed in contact with the pressure rotating body. The guide portion is provided on the pressure rotating body side of the pressure member and guides the belt-like rotating body so that an angle portion of the bent shape of the belt-like rotating body bites into the pressure rotating body. The pressure portion is provided on the surface of the pressure member in the pressure rotating body side. The pressure portion is provided so that the surface of the pressure rotating body separates sequentially from the pressure rotating body in the extending direction of the pressure member from a center portion of the pressure portion to an end portion of the pressure portion.
Exemplary embodiments of the invention will be described in detail based on the following figures, wherein:
In this case, the image forming apparatus has a toner image forming unit which forms an unfixed toner image on a recording material, and a fixing unit which fixes the unfixed toner image formed on the recording material by the toner image forming unit.
In
In
In this embodiment, as shown in
In such technical means, the pressure member 2 may have a supported member 2a and a separation member 2b separated from each other as will be described later, or integrated with each other.
The guide portion 3 may be suitably selected as long as an angle portion of the bent shape of the belt-like rotating body 11 can bite into the pressure rotating body 12. It will go well if the guide portion 3 is provided in consideration of the relative position relationship between the mounting position of the pressure member 2 and the pressure rotating body 12.
Further, it will go well if the pressure portion 4 is formed so that a surface of the pressure member 2 in a side of the pressure rotating body 12 separates sequentially from the pressure rotating body 12 in the extending direction of the pressure member 2 from the center portion of the pressure portion 4 to the end portion of the pressure portion 4. On this occasion, due to the center portion which thrusts compared to the end portion, the distribution of pressure on the recording material is increased in a separation portion corresponding to the center portion so that a shortage of pressure in the center portion due to bending or the like of the pressure member 2 can be compensated.
In another respect, the pressure portion 4 is formed so that the surface of the pressure member 2 on the side of the pressure rotating body 12 thrusts sequentially towards the side of the pressure rotating body 12 in the extending direction of the pressure member 2 from the end portion of the pressure portion 4 to the center portion of the pressure portion 4.
Next, a representative mode or a preferred mode of the separation unit 1 will be described.
First, according a preferred mode of the separation unit 1, from the viewpoint of keeping the pressure distribution by the pressure member 2 better, a protrusion portion 5 may be further provided on the pressure rotating body 12 side of the pressure member 2 and on the contact area side between the belt-like rotating body 11 and the pressure rotating body 12. The protrusion portion 5 protrudes in a convex shape in which a center portion thereof is more protrusive toward the contact area than any of opposite end portions thereof with respect to a crossing direction crossing the moving direction of the belt-like rotating body 11.
The protrusion portion 5 mentioned herein does not have to be formed into a curved shape. The protrusion portion 5 may be formed into a mountain-like shape or any other shape may be suitably selected as long as the center portion thereof is protrusive.
On the other hand, according to a representative mode of the pressure member 2, the pressure member 2 may be constituted by a supported member 2a and a separation member 2b. The supported member 2a is supported on a predetermined support portion. The separation member 2b is provided along a contact plane between the supported member 2a and the belt-like rotating body 11. According to this mode, the guide portion 3 and the pressure portion 4 may be formed in advance in the separation member 2b which has, for example, a plate-like shape so that the separation member 2b can be fixedly attached to the supported member 2a.
Further, the structure to support the pressure member 2 configured thus may be selected suitably. From the viewpoint of uniquely deciding the position where the pressure member 2 is disposed, there is a preferable mode in which the pressure member 2 is fixedly supported through a support member (not shown) to a holding member (not shown) which can be held by the belt-like rotating body 11.
Furthermore, from the viewpoint of reducing the contact resistance with the belt-like rotating body, a contact surface of the pressure member 2 with the belt-like rotating body 11 preferably has a lubricating layer which can reduce a frictional force between the contact surface and the belt-like rotating body 11.
Indeed any mode can be used for the guide portion 3 as long as the mode can bite into the pressure rotating body 12, but from the viewpoint of stabilizing the state where the belt-like rotating body bites into the pressure rotating body 12, there is a preferable mode in which the angle portion of the bent shape of the belt-like rotating body 11 has a curved portion with a large curvature and the guide portion 3 makes the belt-like rotating body 11 bite into the pressure rotating body 12 so that the curved portion of the belt-like rotating body 11 can be buried therein.
Further, in another embodiment, the separation unit 1 is provided on the downstream side of a contact area between a belt-like rotating body 11 and a pressure rotating body 12 which is disposed in contact with the belt-like rotating body 11 so as to apply elastic pressure thereto. The separation unit 1 separates a recording material disposed adjacently to the contact area inside the belt-like rotating body 11 and adhering to the belt-like rotating body 11. The separation unit 1 has a pressure member 2, a guide portion 3 and a protrusion portion 5. The pressure member 2 is provided to extend along a width direction of the belt-like rotating body. The width direction crosses a moving direction of the belt-like rotating body 11. The pressure member 2 presses the belt-like rotating body 11 so as to deform the belt-like rotating body 11 into a bent shape changing the direction of the belt-like rotating body 11 away from the surface of the pressure rotating body 12 after the belt-like rotating body 11 is disposed in contact with the pressure rotating body 12. The guide portion 3 is provided on the pressure rotating body 12 side of the pressure member 2 to guide the belt-like rotating body 11 so that an angle portion of the bent shape of the belt-like rotating body 11 bites into the pressure rotating body 12. The protrusion portion 5 is provided on the pressure rotating body 12 side of the pressure member 2 and on the contact area side between the belt-like rotating body 11 and the pressure rotating body 12, so as to protrude in a convex shape in which a center portion thereof is more protrusive toward the contact area than any of opposite end portions thereof with respect to a crossing direction crossing the moving direction of the belt-like rotating body 11.
According to this mode, a shortage of pressure in the center portion of the distribution of pressure on the recording material in a separation portion where the recording material is separated on the downstream side of the contact area between the belt-like rotating body 11 and the pressure rotating body 12 can be compensated due to the guide portion 3 of the pressure member 2 as a component of the separation unit 1 by which the belt-like rotating body 11 can bite into the pressure rotating body 12, and the protrusion portion 5 by which the contact area can be increased in the center portion.
Here, according to a preferred mode of the protrusion portion 5, from the viewpoint of flattening creases which may be generated in the recording material, the protrusion portion 5 may be formed to be symmetrical with respect to the center portion in the crossing direction and to be curved.
In addition, from the viewpoint of preventing the belt-like rotating body 11 from being caught on the tip of the protrusion portion 5, it is preferable that the protrusion portion 5 is formed to have a sectionally curved tip.
In
Here, each image forming portion 22 has a drum-like photoconductor 30 rotating in a predetermined direction. A charging unit 31, an exposure unit 32 such as a laser scanning unit, a developing unit 33 and a cleaning unit 34 are provided around the photoconductor 30. The charging unit 31 charges the photoconductor 30. The exposure unit 32 writes an electrostatic latent image on the photoconductor 30 charged by the charging unit 31. The electrostatic latent image written on the photoconductor 30 by the exposure unit 32 is developed with a corresponding color toner by the developing unit 33. The cleaning unit 34 cleans a residue on the photoconductor 30 after the toner image developed by the developing unit 33 has been primarily transferred onto the intermediate transfer member 23 by the primary transfer unit 24.
In addition, the intermediate transfer member 23 is suspended on a plurality of suspension rolls 41-45. For example, the suspension roll 41 is circulated and rotated in a predetermined direction as a driving roll. The suspension roll 44 also serves as an opposed roll to the secondary transfer roll as the secondary transfer unit 25 so as to generate a secondary transfer electric field required for secondary transfer between the secondary transfer roll and the opposed roll. Further, an intermediate transfer cleaning unit 46 is disposed in the surface of the intermediate transfer member 23 corresponding to the suspension roll 45.
Further, a paper feed unit 50 is provided under the intermediate transfer member 23. A sheet of paper P supplied from the paper feed unit 50 is conveyed along a conveyance path 51 to the fixing unit 60 through the secondary transfer unit 25. A proper number of conveyance rolls 52, a conveyance belt 53, guide plates 54 and 55, a discharge roll 56, etc. are provided in the conveyance path 51. The conveyance belt 53 conveys the sheet of paper P from the secondary transfer unit 25 to the fixing unit 60. By each guide plate 54, 55, the sheet of paper P is guided to a secondary transfer portion of the secondary transfer unit 25 or a fixing portion of the fixing unit. The discharge roll 56 is provided for discharging the sheet of paper P to a not-shown paper discharge portion.
Next, the fixing unit 60 used in this embodiment will be described with reference to
In
Here, in this embodiment, the suspension rolls 62, 64 and 65 are disposed inside the heating belt 66 while the suspension roll 63 is disposed outside the heating belt 66 between the suspension rolls 62 and 64. In this embodiment, the fixing roll 61 is designed to have a heat source. In addition thereto or independently thereof, for example, a part of the suspension rolls 62-65 may also serve as assistant heating rolls each having a heat source if necessary.
In this embodiment, the fixing roll 61 has a cylindrical core coated with a protective layer, for example, of fluorinated resin or the like. The core is, for example, made from aluminum. For example, the pressure roll 67 has an aluminum core as a substrate, and an elastic layer of silicone rubber or the like and a release layer such as a PFA tube which are laminated on the substrate. Further, the heating belt 66 can be selected suitably. For example, the heating belt 66 has a base layer of polyimide resin or the like, and an elastic layer of silicone rubber or the like and a release layer (made of a PFA tube) which are laminated on the surface side of the base layer. Each suspension roll 62-65 is a metal roll which is, for example, made from aluminum.
In this embodiment, the separation unit 70 is provided so that the separation unit 70 extends along a width direction of the heating belt 66. The width direction crosses the moving direction of the heating belt 66. And, the separation unit 70 has a pressure pad (corresponding to a pressure member) 71 which presses the heating belt 66 to deform the heating belt 66 into a shape changing the direction of the heating belt 66 away from the surface of the pressure roll 67 after the heating belt 66 is disposed in contact with the pressure roll 67.
In this embodiment, as shown in
In this embodiment, the separation member 73 which is a component of the pressure pad 71 has a curved angle portion 73e in a sectionally L-shaped bent portion thereof, and a lateral wall portion 73b extends in the lateral direction of the separation member 73. The pressure pad 71 guides the heating belt 66 using the lateral wall portion 73b and the curved angle portion 73c as a guide portion 75 so as to make the heating belt 66 bite into the pressure roll 67.
In this embodiment, the guide portion 75 makes the heating belt 66 bite into the pressure roll 67 so that the bent portion of the heating belt 66 disposed and bent correspondingly to the curved angle portion 73c of the separation member 73 can be buried into the pressure roll 67.
Thus, in this embodiment, for example, as shown in
In addition, in this embodiment, in the separation member 73 which is a component of the pressure pad 71, a pressure portion 76 is provided so that a surface of the lateral wall portion 73b separates sequentially from the pressure roll 67 in a extending direction of the pressure pad 71 from a center portion of the pressure portion 76 to a end portion of the pressure portion 76. And, the pressure portion 76 presses the heating belt 66 toward the pressure roll 67, as shown in
Further, in this embodiment, the separation member 73 which is a component of the pressure pad 71 further has a protrusion portion 77 on the tip side of the lateral wall portion 73b, that is, on the side of the nip area N1 between the fixing roll 61 and the pressure roll 67. The protrusion portion 77 is formed to protrude in a convex shape so that a center portion thereof is more protrusive toward the nip area N1 than any of opposite end portions thereof with respect to a widthwise direction crossing the conveyance direction (corresponding to the process direction) of the sheet of paper P.
Particularly in this embodiment, the tip edge of the protrusion portion 77 is formed as a curved edge 78 which is symmetrical and curved around the widthwise center portion of the sheet of paper P.
Further, the protrusion portion 77 is formed as a curved end 79 having a sectionally curved tip (see
In this manner, in this embodiment, the separation member 73 which is a component of the pressure pad 71 is characterized by including the guide portion 75, the pressure portion 76 and the protrusion portion 77, as compared with a separation member 73′ (which is formed by bending a substantially rectangular flat plate into a substantially sectionally L-shape) in a comparative mode shown in
This embodiment provides a mounting structure of the separation unit 70 as shown in
The mounting structure of the separation unit 70 is not limited thereto. For example, as shown in
As for the mounting structure of the separation unit 70, the system shown in
Although the embodiment has been described in the case where the fixing unit 60 has the separation unit 70 provided inside the heating belt 66, a separation assistant member 90 may be provided on the downstream side of the fixing nip area N between the heating belt 66 and the pressure roll 67 in the fixing unit 60.
The separation assistant member 90 is disposed in the rotating direction of the heating belt 66 so that a tip portion of the separation assistant member 90 can face the heating belt 66 in a noncontact manner while separating the sheet of paper P adhering to the heating belt 66. For example, a plate-like baffle board is used as the separation assistant member 90.
The separation assistant member 90 is preferably provided so that the tip thereof is as close to the heating belt 66 as possible. The setting distance between the separation assistant member 90 and the heating belt 66 is made not longer than at least 1.0 mm, preferably not longer than 0.3 mm.
However, if the separation assistant member 90 is set too closely to the heating belt 66, there is fear that the separation assistant member 90 may be thermally expanded by radiant heat from the heating belt 66, and there is also fear that the separation assistant member 90 may further damage the heating belt 66 or wave the heating belt 66, to thereby cause a defect in an image. In this embodiment, it is therefore preferable that a raw material with low thermal expansion (e.g. Invar) is used as the separation assistant member 90.
Next, description will be made on the operation of the image forming apparatus according to this embodiment.
In the image forming apparatus shown in
In such an image forming process, an operating process of the separation unit 70 of the fixing unit 60 will be described.
In this embodiment, as shown in
Particularly in this embodiment, the guide portion 75 of the pressure pad 71 is designed to allow the heating belt 66 to bite into the pressure roll 67 so that a bent portion 66a of the heating belt 66 disposed to be bent correspondingly to the curved angle portion 73c of the separation member 73 can be buried into the pressure roll 67. Thus, the distribution of pressure applied between the heating belt 66 and the pressure roll 67 by the pressure pad 71 (corresponding to the distribution of pressure in the nip area N2 shown in
The distribution of pressure shown in
With respect to this point, if a pressure pad 71′ which is a component of a separation unit 70′ pressed the heating belt 66 without biting therein as in a comparative mode shown in
On this occasion, when the heating belt 66 is pressurized by the pressure roll 67, a toner layer T on the sheet of paper P is pressurized by the heating belt 66 as shown in
On the other hand, if the non-pressure area J were present as described above, there would be fear that the bubbles in the toner layer T might be expanded to establish the relationship of pressing force U< vapor pressure in bubbles K, to thereby cause a phenomenon that the expanded bubbles K might break the toner layer T to disturb the surface of the toner layer T, as shown in
Accordingly, the presence of the aforementioned non-pressure area J can be prevented according to the embodiment so that the phenomenon that the expanded bubbles K might break the toner layer T can be suppressed.
On this occasion, when the pressure portion 76 is absent from the pressure pad 71 of the separation unit 70 (corresponding to a mode where the pressure portion is formed as a flat), in the distribution of pressure in the fixed nip area N as shown in
In such circumstances, in this embodiment, the pressure portion 76 of the pressure pad 71 has a surface which separates sequentially from the pressure roll 67 with respect to a direction of the paper width from the center portion of the pressure portion 76 to the end portion of the pressure portion 76.
Accordingly, in the distribution of pressure in the fixed nip area N, a shortage of pressure in the center portion is compensated in the nip area N2 (corresponding to Pad Nip in
In this embodiment, the pressure pad 71 has a protrusion portion 77 which is formed to protrude in a convex shape in which a center portion thereof in the direction of the paper width is more protrusive toward the nip area N1 than any of opposite end portions thereof. Accordingly, the pressurizing area of the widthwise center portion of the pressure pad 71 increases due to the protrusion portion 77. Thus, the distribution of pressure applied by the pressure pad 71 has a tendency to increase in a portion corresponding to the protrusion portion 77 as shown in
Particularly in this embodiment, the distribution of pressure applied by the pressure pad 71 has a higher pressing force (nip pressure) than the vapor pressure of bubbles in a portion corresponding to the protrusion portion 77 as shown in
With respect to this point, if the protrusion portion 77 were absent from the pressure pad 71, no pressing force would act on the portion corresponding to the protrusion portion 77 of the pressure pad 71. Thus, as shown in
When the sheet of paper P passes through the fixing nip area N (see
In this embodiment, a tip edge of the protrusion portion 77 of the pressure pad 71 is formed as a curved edge 78 which is symmetrical and curved around the widthwise center portion of the sheet of paper P so that a force Fb to spread the sheet of paper P in the normal direction of the curved edge 78 can act on the curved edge 78 of the protrusion portion 77 as shown in
Particularly when the curvature (1/R) of the curved edge 78 of the protrusion portion 77 is set to be large, the effect to spread the sheet of paper P by a force Fc in the normal direction of the curved edge 78 will be enhanced as shown in
In this embodiment, the tip of the protrusion portion 77 is formed as a curved end 79 having a sectionally curved shape as shown in
With respect to this point, if the tip of the protrusion portion 77 of the pressure pad 71 were formed as a flat end 79′ having a sectionally flat surface as shown in
In this embodiment, the pressure pad 71 of the separation unit 70 presses the heating belt 66 onto the pressure roll 67. Therefore, when it is necessary to increase the pressing force by the pressure pad 71 to some extent, the frictional resistance between the pressure pad 71 and the heating belt 66 tends to increase.
In such circumstances, if the frictional resistance between the pressure pad 71 and the heating belt 66 increased unnecessarily, there would be fear that the moving velocity of the heating belt 66 would be so unstable that the conveyance performance of the sheet of paper P might be impaired, for example, due to a loop Pa produced when the sheet of paper P enters the fixing nip area N as represented by a virtual line in
In such a case, it is preferable that a lubricating layer 100 of glass fiber or the like is formed in the contact plane between the separation member 73, which is a component of the pressure pad 71, and the heating belt 66 as shown in
In
In this embodiment, the separation member 73 which is a component of the pressure pad 71 has the guide portion 75 and the protrusion portion 77 in the same manner as in the first embodiment, but does not have the pressure portion 76 of the first embodiment.
According to this embodiment, the pressure pad 71 has the guide portion 75 and the protrusion portion 77 so that a shortage of pressure in the center portion in the paper width direction can be compensated in the distribution of pressure applied by the pressure pad 71. Thus, the pressure in the center portion in the paper width direction is adjusted to approach the pressure in any of the opposite end portions.
Also in this embodiment, the protrusion portion 77 of the pressure pad 71 has an effect to spread a sheet of paper P when the sheet of paper P is passing through there. Thus, production of creases in the sheet of paper P can be suppressed.
According to any of the aforementioned embodiments, the pressure pad 71 of the separation unit 70 has the guide portion 75, by which the heating belt 66 is guided to bite into the pressure roll 67. For example, however, even in a mode where the guide portion 75 is absent from the pressure pad 71, a protrusion portion 77 similar to that according to the first or second embodiment may be added. In such a case, the protrusion portion 77 of the pressure pad 71 has an effect to spread the sheet of paper P when the sheet of paper P is passing through there. Thus, the production of creases in the sheet of paper P can be suppressed.
A fixing unit (using the separation unit 70) according to the first embodiment was used in Example, in which the relationship between a process-direction position and pressure in the fixing nip area N (see
On the other hand, a mode in which a guide portion, a pressure portion and a protrusion portion were absent as a pressure pad of a separation unit in a fixing unit according to the first embodiment was used in Comparative Example, in which the relationship between a process-direction position and pressure in the fixing nip area N (see
It can be understood that the distribution of pressure in the fixing nip area N in Example shows a substantially uniform pressure in the nip area N2 (see
On the other hand, it can be understood that the distribution of pressure in the fixing nip area N in Comparative Example shows that a non-pressure area is present in the nip area N2 (see
The foregoing description of the exemplary embodiments of the present invention has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
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2009-230586 | Oct 2009 | JP | national |
2010-196848 | Sep 2010 | JP | national |
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Entry |
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Office Action issued in Australian Patent Application No. 2010226871 dated Jul. 18, 2011. |
Number | Date | Country | |
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20110081173 A1 | Apr 2011 | US |