This patent application is based on and claims priority pursuant to 35 U.S.C. §119 to Japanese Patent Application No. 2015-085297, filed on Apr. 17, 2015, in the Japanese Patent Office, the entire disclosure of which is hereby incorporated by reference herein.
Technical Field
Exemplary aspects of the present disclosure relate to a fixing device and an image forming apparatus, and more particularly, to a fixing device for fixing a toner image on a recording medium and an image forming apparatus incorporating the fixing device.
Description of the Background
Related-art image forming apparatuses, such as copiers, facsimile machines, printers, or multifunction printers having two or more of copying, printing, scanning, facsimile, plotter, and other functions, typically form an image on a recording medium according to image data. Thus, for example, a charger uniformly charges a surface of a photoconductor; an optical writer emits a light beam onto the charged surface of the photoconductor to form an electrostatic latent image on the photoconductor according to the image data; a developing device supplies toner to the electrostatic latent image formed on the photoconductor to render the electrostatic latent image visible as a toner image; the toner image is directly transferred from the photoconductor onto a recording medium or is indirectly transferred from the photoconductor onto a recording medium via an intermediate transfer belt; finally, a fixing device applies heat and pressure to the recording medium bearing the toner image to fix the toner image on the recording medium, thus forming the image on the recording medium.
Such fixing device may include a fixing rotator, such as a fixing roller, a fixing belt, and a fixing film, heated by a heater and a pressure rotator, such as a pressure roller and a pressure belt, pressed against the fixing rotator to form a fixing nip therebetween through which a recording medium bearing a toner image is conveyed. As the recording medium bearing the toner image is conveyed through the fixing nip, the fixing rotator and the pressure rotator apply heat and pressure to the recording medium, melting and fixing the toner image on the recording medium.
This specification describes below an improved fixing device. In one exemplary embodiment, the fixing device includes a first roller, a second roller, and a fixing belt looped over the first roller and the second roller and rotatable in a predetermined direction of rotation. A pressure rotator presses against the first roller via the fixing belt to form a fixing nip between the fixing belt and the pressure rotator, through which a recording medium bearing a toner image is conveyed. A separation aid is disposed in proximity to and downstream from the fixing nip in the direction of rotation of the fixing belt. The separation aid contacts an inner circumferential surface of the fixing belt to decrease a radius of curvature of the fixing belt. A polishing roller is disposed downstream from the separation aid and upstream from the second roller in the direction of rotation of the fixing belt. The polishing roller contacts an outer circumferential surface of the fixing belt. An opposed roller is disposed opposite the polishing roller via the fixing belt to form a polishing nip between the polishing roller and the fixing belt.
This specification further describes an improved image forming apparatus. In one exemplary embodiment, the image forming apparatus includes an image bearer to bear a toner image and a fixing device disposed downstream from the image bearer in a recording medium conveyance direction to fix the toner image on a recording medium. The fixing device includes a first roller, a second roller, and a fixing belt looped over the first roller and the second roller and rotatable in a predetermined direction of rotation. A pressure rotator presses against the first roller via the fixing belt to form a fixing nip between the fixing belt and the pressure rotator, through which the recording medium bearing the toner image is conveyed. A separation aid is disposed in proximity to and downstream from the fixing nip in the direction of rotation of the fixing belt. The separation aid contacts an inner circumferential surface of the fixing belt to decrease a radius of curvature of the fixing belt. A polishing roller is disposed downstream from the separation aid and upstream from the second roller in the direction of rotation of the fixing belt. The polishing roller contacts an outer circumferential surface of the fixing belt. An opposed roller is disposed opposite the polishing roller via the fixing belt to form a polishing nip between the polishing roller and the fixing belt.
A more complete appreciation of the disclosure and the many attendant advantages thereof will be readily obtained as the same becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings, wherein:
In describing exemplary embodiments illustrated in the drawings, specific terminology is employed for the sake of clarity. However, the disclosure of this specification is not intended to be limited to the specific terminology so selected and it is to be understood that each specific element includes all technical equivalents that operate in a similar manner and achieve a similar result.
Referring now to the drawings, wherein like reference numerals designate identical or corresponding parts throughout the several views, in particular to
It is to be noted that, in the drawings for explaining exemplary embodiments of this disclosure, identical reference numerals are assigned, as long as discrimination is possible, to components such as members and component parts having an identical function or shape, thus omitting description thereof once it is provided.
Referring to
As illustrated in
A detailed description is now given of a construction of the image forming device 50A.
The image forming device 50A includes a fixing device 1.
The image forming device 50A further includes a transfer belt 60 having a transfer face extending horizontally in
The developing devices 53Y, 53M, 53C, and 53K contain yellow, magenta, cyan, and black toners, respectively. The transfer belt 60 looped over a driving roller and a plurality of driven rollers is disposed opposite the photoconductors 55Y, 55M, 55C, and 55K and rotatable clockwise in
A detailed description is now given of a construction of the sheet feeder 50B.
The sheet feeder 50B includes a paper tray 70 that loads a plurality of sheets P serving as recording media and a feed device that separates an uppermost sheet P from other sheets P loaded in the paper tray 70 and conveys the sheet P to the transfer roller 62.
A description is provided of an image forming operation to form a toner image on a sheet P that is performed by the image forming apparatus 50 having the construction described above.
Taking the photoconductor 55Y that forms a yellow toner image, the charger 52Y uniformly changes an outer circumferential surface of the photoconductor 55Y. The optical writing device 51 forms an electrostatic latent image on the photoconductor 55Y according to image data sent from the image reader. The developing device 53Y containing yellow toner visualizes the electrostatic latent image into a yellow toner image. The primary transfer device 54Y applied with a predetermined bias primarily transfers the yellow toner image onto the transfer belt 60. Similarly, magenta, cyan, and black toner images are formed on the photoconductors 55M, 55C, and 55K, respectively, and primarily transferred onto the transfer belt 60 successively by an electrostatic force such that the yellow, magenta, cyan, and black toner images are superimposed on a same position on the transfer belt 60, thus forming a color toner image on the transfer belt 60.
The roller 61 and the transfer roller 62 secondarily transfer the color toner image formed on the transfer belt 60 onto the sheet P conveyed from the paper tray 70. The sheet P bearing the color toner image is conveyed further to the fixing device 1 where the color toner image is fixed on the sheet P as the sheet P passes through the fixing device 1. The sheet P ejected from the fixing device 1 is conveyed to a stacker 65 through an output path.
Referring to
As illustrated in
A detailed description is now given of a construction of the pressure roller 13.
The pressure roller 13 is disposed opposite and pressed against the fixing roller 11 via the fixing belt 12 to form a fixing nip N between the pressure roller 13 and the fixing belt 12 while the pressure roller 13 rotates in a rotation direction D13 and the fixing belt 12 rotates in a rotation direction D1. Thus, the fixing belt 12 serves as a first nip formation member and the pressure roller 13 serves as a second nip formation member. The pressure roller 13 includes a metallic body treated with fluorine coating or coated with a fluorine sheet. A separation aid 16 situated immediately downstream from the fixing nip N in the rotation direction D1 of the fixing belt 12 and inside a loop formed by the fixing belt 12 decreases the radius of curvature of the fixing belt 12, facilitating separation of the sheet P from the fixing belt 12.
As illustrated in
A detailed description is now given of a configuration of a separation plate 19 and a separation claw 18.
As illustrated in
A detailed description is now given of a construction of the fixing belt 12, the fixing roller 11, and the heating roller 14.
The fixing belt 12 is a double layered endless belt in cross-section constructed of a base layer made of nickel, stainless steel, polyimide, or the like and an elastic layer made of silicone rubber or the like. The fixing roller 11 is constructed of a cored bar made of metal and an elastic layer coating the cored bar and made of silicone rubber or the like. Alternatively, the elastic layer may be made of silicone rubber foam to reduce heat absorbed into the fixing belt 12 and thereby shorten a warm-up time to warm up the fixing belt 12 to a target temperature. The heating roller 14 is a hollow roller made of aluminum or iron and accommodating a heater 14h (e.g., a halogen heater) serving as a heater or a heat source. Alternatively, an induction heater (IH) may be used as a heater or a heat source that heats the fixing belt 12.
As illustrated in
When the fixing device 1 receives the fixing job, the heater 14h disposed inside the heating roller 14 heats the fixing belt 12 through the heating roller 14 to a predetermined temperature (e.g., a fixing temperature appropriate to fix a toner image T on a sheet P) that is detected by a temperature detector such as a thermistor disposed inside the fixing device 1. The pressure roller 13 is a tube constructed of a cored bar made of aluminum, iron, or the like and an elastic layer coating the cored bar and made of silicone rubber or the like.
The pressurization assembly moves the pressure roller 13 toward the fixing belt 12 to press the pressure roller 13 against the fixing belt 12 and moves the pressure roller 13 away from the fixing belt 12 to release pressure exerted by the pressure roller 13 to the fixing belt 12. As the fixing device 1 is actuated, the pressurization assembly presses the pressure roller 13 against the fixing belt 12 with predetermined pressure.
According to this exemplary embodiment, the pressure roller 13 is used as a pressure rotator. Alternatively, an endless belt looped over a plurality of rollers (e.g., two rollers) may be used as a pressure rotator. The pressure roller 13 is pressed against the fixing roller 11 via the fixing belt 12 to form the fixing nip N between the pressure roller 13 and the fixing belt 12.
While the fixing belt 12 and the pressure roller 13 are driven and rotated in the rotation directions D1 and D13, respectively, the outer circumferential surface 12a of the fixing belt 12 is heated to the predetermined temperature. As the sheet P bearing the unfixed toner image T is conveyed through the fixing nip N leftward in
The sheet P bearing the fixed toner image T is ejected leftward in
As illustrated in
A description is provided of a construction of a comparative fixing device.
The comparative fixing device includes a fixing roller, a heating roller, a fixing belt looped over the fixing roller and the heating roller, a pressure roller disposed opposite the fixing roller and in contact with the fixing belt, and a polishing roller.
A cam moves the polishing roller via a spring to bring the polishing roller into contact with the fixing belt and separate the polishing roller from the fixing belt looped over the fixing roller. As the polishing roller slides over a surface of the fixing belt, the polishing roller polishes the fixing belt.
While a sheet is conveyed through a fixing nip formed between the fixing belt and the pressure roller, burrs produced on the sheet by cutting may scratch and damage the surface of the fixing belt, resulting in abrasion of the fixing belt. If a large sheet spanning scratches on the fixing belt is conveyed through the fixing nip, the scratches on the fixing belt may damage a toner image on the sheet. To address this circumstance, the polishing roller polishes the surface of the fixing belt.
Under an increased consciousness of environmental issues, the comparative fixing device is requested to enhance usability of thin paper containing a decreased amount of pulp and generating a decreased amount of carbon dioxide, convey recording media of various types such as thin paper and thick paper at high speed, and improve durability of the fixing belt.
For example, the pressure roller having an increased rigidity greater than a rigidity of the fixing roller is pressed against the fixing roller serving as an elastic body disposed inside a loop formed by the fixing belt to decrease the curvature of the fixing belt at an exit of the fixing nip so as to separate the sheet from the fixing belt. However, such configuration does not separate soft thin paper precisely. For example, as the fixing roller is enlarged to convey the sheet at high speed, the thin paper may not separate from the fixing belt readily. To address this circumstance, a separation aid that defines the curvature of the fixing belt is disposed downstream from the fixing nip in a sheet conveyance direction.
The polishing roller configured to polish the surface of the fixing belt that suffers from abrasion caused by the burrs on the sheet is disposed opposite the fixing roller via the fixing belt. However, the linear velocity of the fixing belt may fluctuate between an upstream position upstream from the separation aid and a downstream position downstream from the separation aid in the sheet conveyance direction. Accordingly, the polishing roller disposed opposite the fixing roller may not polish the fixing belt precisely.
As illustrated in
Even if the linear velocity of the fixing belt 12 fluctuates between a position relatively in proximity to and upstream from the separation aid 16 and a position relatively in proximity to and downstream from the separation aid 16 in the rotation direction D1 of the fixing belt 12, the polishing roller 20 polishes the fixing belt 12 in a state in which the opposed roller 21 presses the fixing belt 12 against the polishing roller 20 at a position disposed upstream from the separation aid 16 in the rotation direction D1 of the fixing belt 12 where the fixing belt 12 achieves a stable linear velocity. Accordingly, the polishing roller 20 polishes the fixing belt 12 stably and sufficiently, suppressing faulty polishing of the fixing belt 12.
Additionally, since the fixing belt 12 moves toward the polishing nip N1 while contacting the tension roller 15 disposed downstream from the separation aid 16 in the rotation direction D1 of the fixing belt 12, the tension roller 15 stabilizes the linear velocity of the fixing belt 12. While the fixing belt 12 moves in the circumferential span 12A defined between the tension roller 15 and the heating roller 14 at the stabilized linear velocity, the polishing roller 20 polishes the fixing belt 12 pressed against the opposed roller 21. Accordingly, the polishing roller 20 polishes the fixing belt 12 more stably and sufficiently, further suppressing faulty polishing of the fixing belt 12. Consequently, the polishing roller 20 retains stable polishing of the fixing belt 12, improving separation of the sheet P from the fixing belt 12 and quality of the toner image T fixed on the sheet P.
As illustrated in
According to this exemplary embodiment, the bend angle θ is 170 degrees, for example. Alternatively, the bend angle θ may be about 170 degrees, for example, in a range of from about 165 degrees to about 175 degrees. Yet alternatively, the bend angle θ may be 170 degrees or smaller. However if the bend angle θ is an acute angle, the fixing belt 12 may suffer from degradation in durability. Hence, it is preferable that the bend angle θ is an obtuse angle.
The bend angle θ of the fixing belt 12 created by the opposed roller 21, the tension roller 15, and the heating roller 14 is defined as below. As illustrated in
Similarly, as illustrated in
Alternatively, an identical mover may move the polishing roller 20 and the opposed roller 21 with respect to the fixing belt 12 simultaneously. For example, the mover may bring the polishing roller 20 and the opposed roller 21 into contact with the fixing belt 12 simultaneously and may separate the polishing roller 20 and the opposed roller 21 from the fixing belt 12 simultaneously. The opposed roller 21 may contact the fixing belt 12 constantly. However, it is preferable that the opposed roller 21 separably contacts the fixing belt 12 to decrease friction between the opposed roller 21 and the fixing belt 12. Alternatively, the opposed roller 21 may move with respect to the fixing belt 12 to a close position where the opposed roller 21 is in proximity to the fixing belt 12 with a decreased interval therebetween and an isolation position where the opposed roller 21 is isolated from the fixing belt 12 with an increased interval therebetween.
While the polishing roller 20 is not requested to polish the fixing belt 12, the polishing roller 20 is separated from the fixing belt 12 to extend the life of the fixing belt 12. Consequently, the polishing roller 20 retains stable polishing of the fixing belt 12, improving separation of the sheet P from the fixing belt 12 and quality of the toner image T fixed on the sheet P.
Like the fixing roller 11, the heating roller 14, or the pressure roller 13, the polishing roller 20 and the opposed roller 21 are parallel to each other and extend horizontally in an axial direction of the polishing roller 20 and the opposed roller 21. A length of the polishing roller 20 in the axial direction thereof is greater than a length of the opposed roller 21 in the axial direction thereof. Accordingly, the polishing roller 20 is pressed against the opposed roller 21 via the fixing belt 12 throughout the entire width of the opposed roller 21 in the axial direction thereof. The polishing roller 20 precisely and sufficiently polishes the outer circumferential surface 12a of the fixing belt 12 that comes into contact with an imaged side of the sheet P that bears the unfixed toner image T and conveys the sheet P in the sheet conveyance direction DP. Consequently, the polishing roller 20 retains stable polishing of the fixing belt 12, improving separation of the sheet P from the fixing belt 12 and quality of the toner image T fixed on the sheet P.
A description is provided of a configuration of other components of the fixing device 1 depicted in
The fixing device 1 is installed in a printer employing an electrophotographic method, for example. As illustrated in
An upstream, entry sheet guide plate 24, that is, a right sheet guide plate in
The separation aid 16 curved in cross-section is disposed downstream from the fixing nip N in the sheet conveyance direction DP on the left of the fixing nip N in
A left, front edge of the right, entry sheet guide plate 24 is in proximity to the outer circumferential surface of a right upper part of the pressure roller 13. The right, entry sheet guide plate 24 constitutes a part, that is, an upper wall, of the lower cover 3. Multiple rollers 27 that constitute a cleaning web unit, for example, are located in a space below the right, entry sheet guide plate 24. The multiple rollers 27 include a roller 17 having a decreased diameter that is in proximity to the outer circumferential surface of a right part of the pressure roller 13.
A right, front end of the left, exit sheet guide plate 28 is bent obliquely downward to produce a bent portion disposed in proximity to the pressure roller 13. The left, exit sheet guide plate 28 is mounted on or secured to the lower cover 3. Below the left, exit sheet guide plate 28 is a rectification plate 23. A right, front end of the rectification plate 23 contacts the outer circumferential surface of a left lower part of the pressure roller 13.
On the right of the rectification plate 23 and a lower end of the pressure roller 13 is another rectification plate 22 angled right upward. An upper end of the rectification plate 22 contacts the outer circumferential surface of a right lower part of the pressure roller 13. Below the right rectification plate 22 is an inlet to take in air. The inlet penetrates through a bottom wall of the lower cover 3. A cooling duct 26 extends from the inlet obliquely left upward toward the lower end of the pressure roller 13. An exhaust duct 34 is on the left of the cooling duct 26 and adjoins the cooling duct 26. For example, the lower cover 3 accommodates a temperature sensor serving as a temperature detector that detects the temperature of the pressure roller 13. The temperature sensor projects upward from an upper face of the left rectification plate 23. Additionally, cooling air travels along the outer circumferential surface of the pressure roller 13 in a direction W effectively, thus cooling the pressure roller 13.
As illustrated in
The fixing device 1 and the image forming apparatus 50 incorporating the fixing device 1 improve fixing performance to fix the toner image T on the sheet P and separation of the sheet P from the fixing belt 12 for various types of the sheet P and the toner image T formed on the sheet P. Additionally, the image forming apparatus 50 and the fixing device 1 are downsized while stabilizing separation of the sheet P from the fixing belt 12, improving quality of the toner image T formed on the sheet P, and enhancing durability of the fixing belt 12. Consequently, the image forming apparatus 50 and the fixing device 1 retain stable polishing of the fixing belt 12, improving separation of the sheet P from the fixing belt 12 and quality of the toner image T fixed on the sheet P.
The construction and the configuration of the image forming apparatus 50 and the fixing device 1 are not limited to those of the exemplary embodiments described above with reference to the drawings.
A description is provided of advantages of the fixing device 1.
As illustrated in
Accordingly, even if the fixing device incorporates the separation aid, the polishing roller polishes the fixing belt while suppressing polishing failure.
According to the exemplary embodiments described above, the fixing belt 12 serves as a fixing belt. Alternatively, a fixing film, a fixing sleeve, or the like may be used as a fixing belt. Further, the pressure roller 13 serves as a pressure rotator. Alternatively, a pressure belt or the like may be used as a pressure rotator.
The present disclosure has been described above with reference to specific exemplary embodiments. Note that the present disclosure is not limited to the details of the embodiments described above, but various modifications and enhancements are possible without departing from the spirit and scope of the disclosure. It is therefore to be understood that the present disclosure may be practiced otherwise than as specifically described herein. For example, elements and/or features of different illustrative exemplary embodiments may be combined with each other and/or substituted for each other within the scope of the present disclosure.
Number | Date | Country | Kind |
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2015-085297 | Apr 2015 | JP | national |
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Number | Date | Country | |
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20160306306 A1 | Oct 2016 | US |