This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2016-157281 filed Aug. 10, 2016, the entire contents of which are hereby incorporated by reference.
The present disclosure relates to a fixing device and an image forming apparatus including the fixing device. In particular, the present disclosure relates to a fixing device including a bearing member for supporting a rotation shaft of a heating rotating member, a support plate for supporting the bearing member, and a fixing frame for supporting the support plate, and to an image forming apparatus including the fixing device.
Conventionally, in an electrophotographic image forming apparatus such as a copier or a printer, a toner image is carried on a surface of an image carrier such as a photosensitive drum or an intermediate transfer belt, the toner image carried on the surface of the image carrier is transferred to a recording medium, the recording medium is conveyed to a fixing device, the toner image is fixed to the recording medium by the fixing device, and the recording medium is conveyed to a discharge tray or the like.
The fixing device is constituted of, for example, a fixing member including a heating roller (heating rotating member) and a pressure roller (pressing rotating member), bushes attached to both ends of a rotation shaft of the heating roller, a bearing member supporting the bush in a rotatable manner, a support plate having an insertion hole to which the bearing member is inserted so as to fasten the bearing member, and a fixing frame for supporting the support plate.
In this fixing device, the support plate is provided with a positioning pin extending in an axial direction of the rotation shaft of the heating roller, and the fixing frame is provided with a positioning hole to which the positioning pin is inserted. Then, the positioning pin is inserted into the positioning hole, and hence the support plate is positioned to the fixing frame.
A fixing device according to a first aspect of the present disclosure includes a fixing member, a pair of bushes, a pair of bearing members, a support plate, and a fixing frame. The fixing member includes a heating rotating member and a pressing rotating member pressed to the heating rotating member, so as to heat and press the recording medium having a surface carrying a toner image so that the toner image is fixed to the recording medium. The pair of bushes are attached to both end parts of a rotation shaft of the heating rotating member. The pair of bearing members support the bushes in a rotatable manner. The support plate has an insertion hole into which the bearing member is inserted so that the bearing member is fastened, and a positioning pin extending in an axial direction of the rotation shaft. The fixing frame has a positioning hole into which the positioning pin is inserted so as to support the support plate. The support plate is provided with a distortion prevention part that prevents occurrence of distortion around the insertion hole when the positioning pin is inserted into the positioning hole. At least a part of the distortion prevention part is positioned within a first area of the support plate sandwiched between a first half line that starts from a first center of the insertion hole and passes a second center of the positioning pin, and a second half line that starts from the first center and extends in the opposite direction to a third center of the pressing rotating member.
Other objects of the present disclosure and specific advantages obtained by the present disclosure will become more apparent from the description of embodiments given below.
Hereinafter, an embodiment of the present disclosure is described with reference to the drawings.
With reference to
The image forming unit P is provided with a photosensitive drum (image carrier) 2 that carries a visible image (toner image). The toner image formed on the photosensitive drum 2 is transferred to a paper sheet (recording medium) 6, and is further fixed to the paper sheet 6 by the fixing device 20. Then, the paper sheet 6 is discharged from an apparatus main body. A drum drive motor (not shown) drives the photosensitive drum 2 to rotate in a clockwise direction in
In addition, around and in the front side (the right side in
The paper sheet 6 with the toner image transferred from the photosensitive drum 2 is conveyed to the fixing device 20. The paper sheet 6 conveyed to the fixing device 20 is heated and pressed by a fixing roller 21 and a pressure roller 22 described later so that the toner image is fixed to the surface of the paper sheet 6, and thus a predetermined image is formed. The paper sheet 6 with the formed image is then discharged to a discharge tray 19 by a discharge roller pair 18.
As illustrated in
The fixing roller 21 heats unfixed toner carried on the paper sheet 6. The fixing roller 21 is a so-called hard roller constituted of a cylindrical metal core made of metal such as aluminum or iron that is superior in thermal conductivity, and fluorine resin coating or tube covering the metal core. In addition, a halogen heater (not shown) as a heat source is disposed inside the core metal of the fixing roller 21, and the surface of the fixing roller 21 is kept at a predetermined temperature. In addition, the fixing roller 21 is linked to a drive motor via a gear train (both not shown) and is driven to rotate by a driving force from the drive motor.
The pressure roller 22 rotates while being pressed to contact with the fixing roller 21 at a predetermined pressure. The pressure roller 22 is constituted of a cylindrical base material made of synthetic resin, metal or other material, and an elastic layer of silicone rubber or the like formed on the base material, and the surface of the elastic layer is coated with resin such as fluorine resin having good release characteristics.
The fixing roller 21 is supported by the support plate 30 in a rotatable manner, and the pressure roller 22 is supported by the fixing frame 40 in a rotatable manner. A lower part of the support plate 30 is pivoted to the fixing frame 40 in a rockable manner, and the fixing roller 21 can contact with and separate from the pressure roller 22. An upper part of the support plate 30 is biased toward the pressure roller 22 by a pair of biasing members 50 constituted of a compression coil spring.
Hereinafter, a detailed structure of the fixing device 20 is described.
As illustrated in
The bearing 31 is inserted in an insertion hole 30a formed in the support plate 30 and is fastened to the support plate 30 with two screws 32a and 32b.
As illustrated in
The fixing frame 40 is constituted of a pair of frame side surface parts 40b provided with a positioning hole 40a (see
As illustrated in
The second area R2 is an area over which the first half line Lh1 passes when it is rotated about the first center O30a in a direction separating from the pressure roller 22 (in the clockwise direction in
Note that, when the fixing roller 21 and the pressure roller 22 are pressed to contact with each other, in an edge part of the insertion hole 30a in the side surface part 30b, a force from the pressure roller 22 is applied most at a part most away from the pressure roller 22 (maximum load part P).
In addition, a distortion prevention hole (distortion prevention part) 30d is formed in the side surface part 30b of the support plate 30 so that at least a part thereof is positioned within the first area R1. It is preferred that the entire distortion prevention hole 30d be positioned within the second area R2, and that at least a part thereof be positioned within the third area R3. Note that in this embodiment, the entire distortion prevention hole 30d is positioned within the third area R3.
Even if the positioning pin 33 is not completely perpendicular to the side surface part 30b, the distortion prevention hole 30d prevents occurrence of distortion around the insertion hole 30a when the positioning pin 33 is inserted into the positioning hole 40a. Note that if the distortion prevention hole 30d is not provided and the positioning pin 33 is not completely perpendicular to the side surface part 30b, a distortion occurs in the entire side surface part 30b when the positioning pin 33 is inserted into the positioning hole 40a, and hence the bearing 31 fastened to the side surface part 30b is not perpendicular to the rotation shaft 21a of the fixing roller 21. As a result, as illustrated in
In addition, when a thickness of the support plate 30 is represented by t, the distortion prevention hole 30d is disposed away from the opening edge of the insertion hole 30a by 2t or more as illustrated in
In this embodiment, as described above, the support plate 30 is provided with the distortion prevention hole 30d that prevents occurrence of distortion around the insertion hole 30a when the positioning pin 33 is inserted into the positioning hole 40a. In this way, when the positioning pin 33 is not completely perpendicular to the support plate 30, even if the positioning pin 33 follows to (corrected by) the fixing frame 40 when the positioning pin 33 is inserted into the positioning hole 40a, the distortion prevention hole 30d can prevent occurrence of distortion around the insertion hole 30a. Therefore, it is possible to prevent inclination of the bearing 31 inserted into the insertion hole 30a, and hence the clearance D between the bearing 31 and the bush 24 can be prevented from being small. As a result, it is possible to prevent generation of unusual sound when the bush 24 moves relatively to the bearing 31 in the axial direction.
In addition, at least a part of the distortion prevention hole 30d is positioned within the first area R1. In this way, the distortion prevention hole 30d can be positioned between the positioning pin 33 and the maximum load part P at which a force from the pressure roller 22 is applied most in the support plate 30 when the fixing roller 21 is pressed to contact with the pressure roller 22, and hence it is possible to prevent occurrence of distortion around the maximum load part P. Therefore, it is possible to effectively prevent generation of unusual sound.
In addition, as described above, the entire distortion prevention hole 30d is positioned within the second area R2. In this way, it is possible to prevent the distortion prevention hole 30d from being positioned near the maximum load part P, and hence it is possible to prevent a distortion from being generated in the support plate 30 by a force from the pressure roller 22 when the fixing roller 21 and the pressure roller 22 are pressed to contact with each other.
In addition, at least a part of the distortion prevention hole 30d is positioned within the third area R3. In this way, the distortion prevention hole 30d can be easily positioned between the maximum load part P and the positioning pin 33, and hence it is possible to easily prevent a distortion from being generated near the maximum load part P.
In addition, as described above, the entire distortion prevention hole 30d is positioned within the third area R3. In this way, the distortion prevention hole 30d can be prevented from being too large, and hence it is possible to prevent a decrease in strength of the support plate 30.
In addition, as described above, the distortion prevention hole 30d is positioned away from the opening edge of the insertion hole 30a by twice the thickness of the support plate 30 or more (2t or more). In this way, a boring process for forming the distortion prevention hole 30d can be easily performed.
In addition, as described above, the screws 32a and 32b are positioned on the opposite side to the distortion prevention hole 30d with respect to the first half line Lh1. In this way, the position at which the distortion prevention hole 30d is formed is not limited by the screws 32a and 32b.
In addition, as described above, the first half line Lh1 is substantially perpendicular to the straight line L passing the first center O30a and the third center O22. In this way, the distortion prevention hole 30d can be positioned away from the maximum load part P, and hence it is possible to easily prevent a distortion from being generated in the support plate 30 by a force from the pressure roller 22 when the fixing roller 21 and the pressure roller 22 are pressed to contact with each other.
Note that the embodiment disclosed above is merely an example in every aspect and should not be interpreted as a limitation. The scope of the present disclosure is defined by not the description of the above embodiment but by the claims, and should be understood to include all modifications within meanings and scopes equivalent to the claims.
For example, the above description exemplifies a case where the present disclosure is applied to the monochromatic printer, but the present disclosure is not limited to this. It is needless to say that the present disclosure can be applied to other image forming apparatuses such as a color printer, a monochromatic copier, a color copier, a digital multifunction peripheral, and a facsimile machine.
In addition, the above embodiment exemplifies a case where the support plate 30 is provided with the distortion prevention hole 30d as the distortion prevention part, but the present disclosure is not limited to this. For example, as illustrated in
Number | Date | Country | Kind |
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2016-157281 | Aug 2016 | JP | national |