This application claims priority from Japanese Patent Application No. 2011-055744, filed on Mar. 14, 2011, the entire subject matter of which is incorporated herein by reference.
1. Technical Field
An aspect of the present invention relates to a sheet conveyer device and an image forming apparatus having a sheet conveyer device.
2. Related Art
A sheet conveyer device to convey a sheet along a conveying path is known. In the sheet conveyer device, for example, a sheet-feeder roller and a sheet-separator roller may be held in a piece of roller holder. The roller holder may be coupled with a manipulation arm via a boss, which is formed to protrude upwardly from an upper plane of the roller holder, to be swingable in order to move the sheet-feeder roller vertically.
While the roller holder is thus vertically movable via the manipulation arm, with the boss protruding upward, it is required that the sheet conveyer device reserves an empty space as a movable range for the roller holder and for the boss. Therefore, it may be difficult to reduce a volume of the sheet conveyer device in a vertical direction, i.e., a direction of movement for the roller holder.
In view of the difficulty, the present invention is advantageous in that a sheet conveyer device, which can be downsized, is provided.
According to an aspect of the present invention, a sheet conveyer device, which is configured to convey a sheet in a predetermined sheet conveying direction along a sheet conveying path, is provided. The sheet conveyer device includes a sheet tray, in which the sheet is stored in a stack along a direction of thickness of the sheet, a feeder roller, which is configured to rotate in a position to contact the sheet and feed the sheet in the sheet conveying path, a separator roller, which is arranged in a downstream position along the sheet conveying direction with respect to the feeder roller and configured to separate the fed sheet from the stack of sheets, a roller holder, which is configured to rotatably support the feeder roller and to be coupled with the separator roller; configured to spread from a separator roller side toward a feeder roller side over the separator roller and the feeder roller; and configured to be movable between a first position, in which the feeder roller is in contact with the sheet in the sheet tray, and a second position, in which the feeder roller is apart from the sheet tray, a manipulation arm, which is configured to extend in a direction parallel with an axial direction of the feeder roller; configured to be coupled to the roller holder; and configured to manipulate the roller holder to move between the first position and the second position, and a driving unit, which is configured to drive the manipulation arm to move the roller holder. The manipulation arm is coupled to the roller holder at a coupled section, which is in a position between the feeder roller and the separator roller and in a position between two tangent planes which are common to the feed roller and the separator roller.
According to another aspect of the present invention, an image forming apparatus is provided. The image forming apparatus includes a sheet conveyer device, which is configured to convey a sheet in a predetermined sheet conveying direction along a sheet conveying path, and an image forming unit, which is configured to form an image on the sheet being conveyed in the sheet conveying path by the sheet conveyer device. The sheet conveyer device includes a sheet tray, in which the sheet is stored in a stack along a direction of thickness of the sheet, a feeder roller, which is configured to rotate in a position to contact the sheet and feed the sheet in the sheet conveying path, a separator roller, which is arranged in a downstream position along the sheet conveying direction with respect to the feeder roller and configured to separate the fed sheet from the stack of sheets, a roller holder, which is configured to rotatably support the feeder roller and to be coupled with the separator roller; configured to spread from a separator roller side toward a feeder roller side over the separator roller and the feeder roller; and configured to be movable between a first position, in which the feeder roller is in contact with the sheet in the sheet tray, and a second position, in which the feeder roller is apart from the sheet tray, a manipulation arm, which is configured to extend in a direction parallel with an axial direction of the feeder roller; configured to be coupled to the roller holder; and configured to manipulate the roller holder to move between the first position and the second position, and a driving unit, which is configured to drive the manipulation arm to move the roller holder. The manipulation arm is coupled to the roller holder at a coupled section, which is in a position between the feeder roller and the separator roller and in a position between two tangent planes which are common to the feed roller and the separator roller.
Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
1. Overall Configuration of the Image Forming Apparatus
An overall configuration of the image forming apparatus 1 according to the embodiment will be described with reference to
The image forming apparatus has a chassis 3, and an image forming unit 5 is contained in the chassis 3. The image forming unit 5 forms an image in a developer agent and transfers the image in the developer agent to a recording medium, which is, for example, a sheet of paper and an OHP sheet, as the recording sheet flows in a predetermined conveying direction. The image forming unit 5 includes a processing cartridge 7, an exposure device 9, and a fixing unit 11.
The processing cartridge 7 includes a photosensitive drum 7A, which carries the developer agent image, a charger 7B, which electrically charges the photosensitive drum 7A, and a transfer roller 13, which transfers the developer agent image on the photosensitive drum 7A to the recording sheet. The transfer roller 13 is arranged in a position to face the photosensitive drum 7A.
The image transferred onto the recording sheet is heated and thermally fixed thereat by the fixing device 11. The recording sheet passing through the fixing unit 11 is directed upward and carried to be discharged in a discharge tray 3A, which is formed in an upper surface of the chassis 3.
In an upstream position with respect to the photosensitive drum 7A along the conveying direction, a sheet-feed tray 15 is removably installed in the chassis 3. In the sheet-feed tray 15, the recording sheets to be carried to the photosensitive drum 7A and to the discharge tray 3A are stored in a stack along a direction of thickness. The recording sheets are picked up one-by-one and conveyed toward register rollers 19 by a feeder 17.
The feeder 17 includes a pickup roller 17A, a separator roller 17B, and a separator pad 17C. The pickup roller 17A picks up a topmost recording sheet amongst the recording sheets stacked in the sheet-feed tray 15 and forwards the picked-up recording sheet toward the register rollers 19. The separator roller 17B and the separator pad 17C separate the topmost recording sheet from the stack of recording sheets and forward the separated recording sheet toward the register rollers 19.
In the present embodiment, the register rollers 19 are arranged in upstream positions with respect to the photosensitive drum 7A along the conveying direction. The register rollers 19 serve as conveyer rollers, which adjust timings for feeding the recording sheet to the photosensitive drum 7A and correct an orientation of the recording sheet to be conveyed to the photosensitive drum 7A. However, the register rollers 19 may not necessarily serve to adjust timings and correct the orientation at a same time, but the register rollers 19 may serve to solely adjust timings or correct the orientation.
2. Structure of Sheet Conveyer
Structure of a sheet conveyer 23 according to the embodiment of the present invention will be described with reference to
The opening 3B allows a user to access the internal structure inside the chassis 3. Therefore, whilst the processing cartridge 7 is removably installable in the chassis 3, the user can remove and install the processing cartridge 7 when the front cover 1 is open. Further, the user can access the recording sheet when the recording sheet is jammed in a first conveying path L1 to remove when the front cover 1 is open. The sheet inlet 3C is an opening, through which recording sheets are externally inserted in the chassis 3.
An inner side of the front cover 21, which is closer to the image forming unit 5 when the front cover 21 is in the closed position, is formed to serve as a cover tray 21A. When the front cover 21 is in the open position to expose the sheet inlet 3C, the recording sheets to be externally inserted in the image forming apparatus 1 are placed on the cover tray 21A.
The recording sheets stacked on the cover tray 21A are picked up and separated from the stack to be forwarded toward the register rollers 19 by a sheet conveyer 23 one-by-one (see
The pickup roller 23A is a feeder roller, which picks up a topmost recording sheet amongst the recording sheets stacked on the cover tray 21A in a position to contact the topmost recording sheet and forwards the picked-up recording sheet toward the separator roller 23B. The separator roller 23B contacts the topmost recording sheet forwarded from the pickup roller 23A on a top surface and applies conveying force to the topmost recording sheet.
The separator roller 23B is arranged in a downstream position with respect to the pickup roller 23A along the conveying direction. The separator roller 23B is arranged in an orientation to have an axis thereof to be in parallel with an axial direction of the pickup roller 23. A diameter of the separator roller 23A is same as a diameter of the pickup roller 23A. The axes of the separator roller 23B and the pickup roller 23A extend in parallel with the direction of width of the image forming apparatus 1.
The separator pad 23C is arranged in a position to face the separator roller 23B and contacts a lower surface of the recording sheet to apply convey resistance to the recording sheet from below. The separator pad 23C is held by a pad holder 23D and movable to be close to and apart from the separator roller 23B; yet, the separator pad 23C is resiliently urged toward the separator pad 23B by a resilient member (not shown) such as a coil spring via the pad holder 23D.
When the separator roller 23B rotates, the recording sheet being in contact with the separator roller 23B is forwarded toward the register rollers 19, which is in the downstream position along the conveying direction. Meanwhile, the recording sheet being in contact with the separator pad 23C is held at the position by the convey resistance. Accordingly, a plurality of recording sheets picked up by the pickup roller 23A are separated, and solely the topmost recording sheet is forwarded toward the register rollers 19.
Additionally, in the present embodiment, a friction pad 23E is provided in a position to face the pickup roller 23A. Therefore, feeding a plurality of recording sheets in the second conveying path L2 is prevented even more effectively.
The pickup roller 23A is rotatably supported by a roller holder 25 (see
The separator roller 23B with the roller holder 25 coupled therewith is rotatably supported by a frame (not shown), which extends in the widthwise direction being parallel with the axis of the drive shaft 23F, and is rotatable along with the drive shaft 23F.
Therefore, when the roller holder 25 swings about the drive shaft 23F, the pickup roller 23A moves between a first position (see
The sheet conveyer 23 further includes a manipulation arm 27, which manipulates the roller holder 25 to move from the first position to the second position, and vice versa. The manipulation arm 27 extends from one of widthwise ends (e.g., a left side end) of the chassis 3 toward the other one of widthwise ends (e.g., a right side end) to a widthwise midst position.
Thus, the manipulation arm 27 is coupled to the roller holder 25 at one longitudinal end and extends over a part of a range of the sheet conveying path L, whilst the other longitudinal end of the manipulation arm 27 extends beyond the sheet conveying path L (see
The swing axis 27A being in the position corresponding to the sheet conveying path L refers to the swing axis 27A falling within the range of the sheet conveying path L when, for example, the sheet conveying path L is viewed from above (e.g., in a plane view). Moreover, the swing axis 27A is supported in a frame (not shown) extending in the widthwise direction similarly to the separator roller 23B.
In a position outside the range of the sheet conveying path L, a driving unit 29 (see
In a position outside the range of the sheet conveying path L along the widthwise direction, and in a position closer to the sheet conveying path L with respect to the driving unit 29, a coil spring 29A (see
When no recording sheet is fed in the sheet conveying path L, the driving unit 29 presses one of the longitudinal ends outside the range of the sheet conveying path L (e.g., the left-side end) of the manipulation arm 27 downward to compress the coil spring 29A (
The pickup roller 23A is driven by the driving force, which is transmitted by the drive shaft 23F via a gear 25A (see
It is to be noted that the driving force from the drive shaft 23F may be transmitted to the pickup roller 23A with or without additional intervening gears other than the gear 25A. For example, an additional gear to be engaged with the gear 25A and to rotate along with the drive shaft 23F may be provided to the drive shaft 23F. For another example, an additional gear to be engaged with the gear 25A may be provided to an axial end of the separator roller 23B. In the present embodiment, the driving force is transmitted to the pickup roller 23A via the gear 25A and the latter additional gear.
A coupled section 27B (see
In other words, the swing movement of the manipulation arm 27 in a direction to intersect the tangent plane S2 (e.g., vertically) shifts the pickup roller 23A between the first position and the second position; however, with the pickup roller 23A being in any position in and between the first position and the second position, the coupled section 27B falls in the position between the two tangent plane S1 and S2.
When the roller holder 25 is in the first position, in which the pickup roller 23A is in the position to be in contact with the recording sheet, the manipulation arm 27 urges the roller holder 25 along with the pickup roller 23A at a widthwise midst position (see
3. Features of the Image Forming Apparatus and the Sheet Conveyer
In the present embodiment, as has been described above, the coupled section 27B, in which the roller holder 25 and the manipulation arm 27 are coupled to each other, is set in the position between pickup roller 23A and the separator roller 23B and in the position between the common tangent planes S1 and S2. Thus, it is prevented that the coupled section 27B protrudes from the roller holder 25. Rather, without a boss protruding upward from the top surface of the roller holder 25, the coupled section 27B stays within the roller holder 25 at all times. Therefore, a room required for the roller holder to move in the chassis 3 may be reduced. In other words, the sheet conveyer 23 which can be easily downsized may be provided.
In the present embodiment, the roller holder 25 is coupled with the separator roller 23B. In other words, the separator roller 23B is rotatably held in the roller holder 25. If the separator roller 23B is held in a different roller holder, the separator roller 23B and the pickup roller 23A are treated independently from each other. In such a configuration, processes for assembling the sheet conveyer 23 may be increased, and efficiency in maintenance of the sheet conveyer 23 may be lowered. According to the present embodiment, however, with the roller holder 25 holding the separator roller 23B and the pickup roller 23A, the separator roller 23B and the pickup roller 23A may be handled as a piece of roller assembly. Therefore, processes for manufacturing the sheet conveyer 23 may be reduced, and efficiency in maintenance of the sheet conveyer may be improved.
In the present embodiment, the manipulation arm 27 is movable in the direction to intersect the tangent plane S2. Therefore, a distance between the pickup roller 23A and the separator roller 23B may be reduced to be smaller compared to a distance between the pickup roller and the separator roller in a sheet conveyer with a manipulation arm movable in parallel with the tangent plane S2. That is, if the manipulation arm 27 is movable in a direction parallel with the tangent plane S2 when the roller holder 25 is in the first position, the distance between the pickup roller 23A and the separator roller 23B is required to be greater than a movable (stroke) range of the manipulation arm 27. Thus, a smallest distance between the pickup roller 23A and the separator roller 23B is limited and may not be as small as the distance between the pickup roller 23A and the separator roller 23B in the present embodiment. Meanwhile, in the present embodiment with the manipulation arm 27 movable in the direction to intersect the tangent plane S2, the distance between the pickup roller 23A and the separator roller 23B is not necessarily affected by the stroke range of the manipulation arm 27. Therefore, according to the present embodiment, the sheet conveyer 23, which can be downsized by shortening the distance between the pickup roller 23A and the separator roller 23B, may be provided. According to the embodiment, it is to be noted that the tangent planes S1, S2 may not necessarily be in parallel with each other.
According to the present embodiment, when the roller holder 25 is in the first position, the manipulation arm 27 applies pressure to the roller holder 25 at a section corresponding to an axial midst position of the pickup roller 23A (see
According to the present embodiment, the coupled section 27B is set in the position between the two tangent planes S1, S2 at all times regardless of the positions (see
According to the present embodiment, the manipulation arm 27 extends from the roller holder 25 to the outside of the range of the sheet conveying path L (see
According to the present embodiment, the roller holder 25 is swingable about the axis of the drive shaft 23F, which transmits the driving force to the separator roller 23B (see
According to the present embodiment, whilst the drive shaft 23F and the manipulation arm 27 are arranged on the same side with respect to the roller holder 25, the drive shaft 23F and the driving unit 29 are commonly driven by the force supplied from the same drive source, i.e., the motor 31. Thus, a less complicated arrangement of the drive shaft 23F and the driving unit 29, compared to a sheet conveyer, which has the drive shaft 23F and the driving unit 29 being arranged on different sides across the roller holder 25, can be achieved even with regard to transmitting flows of the driving force.
According to the present embodiment, the pickup roller 23A is rotated by the driving force from the drive shaft 23F via the gear 25A, which is attached to the roller holder 25. Meanwhile, the gear 25A is arranged on the opposite side from the drive shaft 23F across the separator roller 23B within the roller holder 25 (see
According to the present embodiment, the opening 3B is formed in the position adjacent to the movable range of the roller holder 25 (see
According to the present embodiment, the image forming apparatus 1 can be downsized without downsizing the processing cartridge 7. If the processing cartridge 7 is downsized, it may be necessary to reduce an amount of the developer agent to be contained therein. However, according to the present embodiment, a volume of the processing cartridge 7 can be maintained, and frequent exchange of the processing cartridges 7 can be prevented.
4. More Examples
Although an example of carrying out the invention has been described, those skilled in the art will appreciate that there are numerous variations and permutations of the image forming apparatus that fall within the spirit and scope of the invention as set forth in the appended claims. It is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or act described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims.
For example, the manipulation arm 27 may not necessarily be installed to be movable in the direction to intersect the tangent plane S2 but may be, for example, movable in a direction in parallel with the tangent planes S1 and S2.
For another example, the driving force from the drive shaft 23F to the pickup roller 23A may not necessarily be transmitted via the gear 25A but may be transmitted via, for example, a belt.
For another example, the sheet conveyer according to the present embodiment may not necessarily be employed in the electro-photographic image forming apparatus but may be employed in an image forming apparatus, which can form images in other image forming method. Further, the sheet conveyer may be employed in an auto document feeder in such image forming apparatuses.
Number | Date | Country | Kind |
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2011-055744 | Mar 2011 | JP | national |
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7461840 | Hattori | Dec 2008 | B2 |
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Number | Date | Country |
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06-219573 | Aug 1994 | JP |
2006-176321 | Jul 2006 | JP |
2008-174390 | Jul 2008 | JP |
Entry |
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Search Report and the Search Opinion in corresponding European Patent Application No. 12150885.7 mailed Jun. 25, 2013. |
Number | Date | Country | |
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20120237279 A1 | Sep 2012 | US |