1. Field of the Invention
The present invention relates to a sheet processing apparatus capable of selectively performing processing to sheets received from the main body of an image forming apparatus.
2. Description of the Related Art
Conventionally, among image forming apparatuses such as copying machines and printers, there have been image forming apparatuses including sheet processing apparatuses capable of successively receiving sheets on which images have been formed and selectively performing, on the sheets, processing such as binding. For example, Japanese Patent Application Laid-Open No. 2005-263488 discloses a sheet processing apparatus which is structured such that sheets are discharged to and stacked on an intermediate stacking portion through an intermediate roller, then are aligned at their end portions on the intermediate stacking portion and, then, are subjected to binding processing through a binding device, such as a stapler. Then, joggers for aligning the end portions of the sheets, which are constituents of the intermediate portion, are evacuated to positions having, therebetween, a width greater than the sheet width, and the sheets which have been subjected to the binding processing through the stapler are stacked on a stack tray under the intermediate stacking portion.
Further, there are sheet processing devices including plural trays, in order to sort sheets according to the applications, in addition to binding functions such as staplers. For example, if plural trays as aforementioned are provided in the aforementioned sheet processing apparatus at an upper portion thereof, this will increase the size of the entire apparatus. However, by placing the aforementioned plural trays near the upper portions of the joggers, it is possible to structure the entire apparatus to have a reduced size.
However, in the case of structuring the apparatus as described above, when the joggers are evacuated to the outermost positions within the range through which the joggers are movable, there is induced the problem that the joggers interfere with removal of sheets stacked on the tray just above the joggers, thereby making it difficult to remove sheets.
Further, when the joggers are evacuated to the outermost positions within the range through which the joggers are movable, as described above, there is induced the problem of degradation of the viewability of sheets stacked on the tray under the joggers in a vertical direction.
The present invention provides a sheet processing apparatus which increases the viewability of sheets and makes it easier to remove sheets, while having trays for sorting sheets which are provided above joggers in a vertical direction for reducing the size of the apparatus.
In order to attain the aforementioned object, a sheet processing apparatus according to the present invention includes an aligning member which aligns a conveyed sheet and is movable in a widthwise direction orthogonal to a sheet conveying direction to align the conveyed sheet in the widthwise direction; and a stacking portion which is provided below a position of the conveyed sheet to be aligned by the aligning member and stacks the aligned sheet, wherein the aligning member can move more outwardly than an end portion of the stacking portion in the widthwise direction, and wherein a standby position of the aligning member, where the aligning member is on standby without operating, is at a position more inwardly by a predetermined amount than the outermost position in the widthwise direction, within the range through which the aligning member is movable.
The present invention also provides a sheet processing apparatus includes an aligning member which aligns a conveyed sheet and is movable in a widthwise direction orthogonal to a sheet conveying direction to align the conveyed sheet in the widthwise direction; and a stacking portion which is provided above a position of the conveyed sheet to be aligned by the aligning member and stacks, thereon, a sheet conveyed thereto, wherein the aligning member can move more outwardly than an end portion of the stacking portion in the widthwise direction, and wherein a standby position of the aligning member, where the aligning member is on standby without operating, is at a position more inwardly by a predetermined amount than the outermost position in the widthwise direction, within the range through which the aligning member is movable.
According to the present invention, it is possible to provide a sheet processing apparatus which increases the viewability of sheets stacked on the stacking portion below the aligning member and makes it easier to remove sheets from the stacking portion above the aligning member, while reducing the size of the entire sheet processing apparatus.
Further features of the present invention will become apparent from the following description of exemplary embodiments (with reference to the attached drawings).
Hereinafter, with reference to the drawings, preferred embodiments for carrying out the present invention will be exemplarily described in detail. However, the sizes, materials, shapes and relative positions of components described in the embodiments should be properly changed according to the structure of the apparatus to which the invention is applied and according to various conditions, and the scope of the present invention is not intended to be limited to the following embodiments.
The sheet processing apparatus 1 according to the first embodiment is connected to the main body of the image forming apparatus as illustrated in
As illustrated in
The image forming processing unit 9 forms images (toner images) through an electrophotographic system. More specifically, light is directed from a laser scanner 11 to a photosensitive drum 10 as an image bearing member to form an image, then the aforementioned image is developed through toner, and the toner image is transferred to a sheet S.
The sheet S to which the toner image has been transferred from the photosensitive drum 10 is conveyed to a fixing device 12 which applies heat and a pressure thereto to fix the image.
The sheet S on which the image has been fixed is conveyed to a face-up conveying path 14 or a switch-back conveying path 15 which turns sheets upside down, wherein the switching between the face-up conveying path 14 and the switch-back conveying path 15 is performed by a conveying-path switching flapper 13.
The sheet transferred to the switch-back conveying path 15 is conveyed by a switch-back convey roller 16 until the rear end of the sheet passes through a reversing flapper 17. Thereafter, the switch-back conveying roller 16 is reversed, so that the aforementioned sheet is conveyed at a state where it is turned upside down such that its end which has been placed at the rear side is placed at the tip-end side. At this time, the reversing flapper 17 is switched over, so that the sheet which has been turned is conveyed to a face-down conveying path 18.
The face-up conveying path 14 and the face-down conveying path 18 are merged with each other before a discharge roller 19. Sheets guided to the face-up conveying path 14 and sheets which have been conveyed from the switch-back conveying path 15 and passed through the face-down conveying path 18 are both discharged from the image forming portion 2 through the discharge roller 19.
The image reading portion 3 is constituted by a scanner portion 21 and an automatic document feeding portion (hereinafter, referred to as an ADF) 22, as illustrated in
The scanner portion 21 includes the movable optical carriage 27 and reads information written on originals. In the scanner portion 21, the optical carriage 27 reads information written on the original placed on the original-base-plate glass 26 while scanning the original in a horizontal direction, and a CCD 28 performs photoelectric conversion on the read information. Further, during reading the original by the aforementioned ADF 22, the optical carriage 27 stays at the original reading position 25 and reads the information written on the original being conveyed, as described above.
As illustrated in
The sheet processing apparatus 1 has a second stacking portion which stacks the aforementioned received sheets thereon, in addition to the aforementioned first stacking portion. In this case, the sheet processing apparatus 1 has a second stack tray 44 and a third stack tray 45 which enables sorting the aforementioned sheets thereinto and stacking the sheets thereon, as the second stacking portion. The stack trays 44 and 45 are provided above an aligning member, in a vertical direction, which will be described later. A switching member 41 is provided at the inlet of the apparatus for conveying sheets to the upper stack trays 44 and 45. By switching over the orientation of the switching member 41, the sheets fed to the sheet processing apparatus 1 are fed to a stapling conveying path 42 or a sorting conveying path 43. Then, the conveying path is switched over through a sorting member 46 which is provided in the sorting conveying path 43, and the sheets are discharged to and stacked on the second stack tray 44 or the third stack tray 45 as the upper stack tray, through the corresponding discharge roller.
The aforementioned reference-side jogger 51 and the aligning-side jogger 52 exist downstream of the discharge rollers 32 and 33 in the sheet conveying direction and are shaped to form substantially an angular-U shape in such a way as to support the upper and lower surfaces of sheets S. Further, the joggers 51 and 52 are structured to be moved among plural positions illustrated in
The aforementioned joggers 51 and 52 are positioned at power-on or during standby between jobs at a home position which is set to be more inwardly by a predetermined amount than the outermost position (the evacuation position) within the range through which the joggers 51 and 52 are movable.
Next, with reference to
During standby (S101), the home positions of the joggers 51 and 52 are set to the reception positions (
Before a sheet is conveyed to the inside of the sheet processing apparatus, a conveying motor 100 is activated (S107) to rotate the conveying roller in the apparatus. When a sheet is conveyed to the sheet processing apparatus 1 (S108), the sheet is conveyed to the stapling conveying path 42 through the switching member 41 and then is discharged to the intermediate stacking portion 34 through the intermediate conveying roller 31. The first sheet to be processed is certainly conveyed toward the substantially-angular-U shape formed by the joggers 51 and 52, since the discharge upper roller 32 is positioned at the convey position. After the tip end of the first sheet is conveyed to the joggers 51 and 52, the discharge upper roller 32 is moved to the spacing position (S109) so that it is evacuated, which prevents the sheet from being further conveyed after the rear end of the sheet is passed through the intermediate conveying roller 31 and also prevents the discharge upper roller 32 from interfering with the movement of the sheet caused by subsequent aligning operations. Accordingly, until the completion of aligning of a predetermined number of sheets to be processed, after the first sheet, the discharge upper roller 32 is held at the spacing position.
Sheets are aligned one by one (S110) and, when a sheet is stacked on the intermediate stacking portion 34, the sheet is aligned in the widthwise direction through the movement of the joggers 51 and 52. At this time, the reference-side jogger 51 is fixed at the position at which the sheet aligning surface 51b is flashed with the second aligning reference wall 53. Then, the aligning-side jogger 52 is moved, in the direction orthogonal to the sheet conveying direction, to the alignment position (
Next, the aligning roller 36 is descended to abut against the surface of the sheet and then is rotated in the direction opposite from the sheet conveying direction to move the sheet until it abuts against the first aligning reference wall 37, thereby aligning the sheet in the sheet conveying direction.
A second sheet is conveyed (S111) and aligned (S112) with the discharge upper roller 32 held at the spacing position, as described above.
The same operations as the aforementioned operations are repeatedly performed until the predetermined number of sheets to be stapled is reached (S113). After the completion of aligning of the last sheet, the conveying motor 100 is stopped (S114), and the stapler 54 is driven to bind the bundle of the aforementioned sheets which have been aligned (S115). Thereafter, the discharge upper roller 32 is moved to the conveying position (S116), then the conveying motor 100 is activated (S117) to convey the aforementioned bundle of sheets and, further, the joggers 51 and 52 are evacuated to the evacuation positions (
Hereinafter, there will be described the operations which are performed by the apparatus, after a job which has been subjected to stapling processing is discharged to the stack tray 35.
The upper stack trays 44 and 45 have a width (a length in the sheet-widthwise direction) set to enable stacking a sufficient number of sheets thereon, and are positioned at subsequently the same positions as the positions of the joggers 51 and 52 at the reception positions (
In cases where processing of a next job is successively performed after the completion of the aforementioned job, the same sequence as the aforementioned sequence is repeatedly performed (S119). Further, in cases where the job is completed at this time, the conveying motor is stopped (S120), and the joggers 51 and 52 are moved to the reception positions (
When the joggers 51 and 52 are moved to the reception position, similarly to when the first job is processed, the discharge upper roller 32 is spaced apart from the discharge lower roller (S121) to ascend the stack-height detection flag 39 and, thereafter, the joggers 51 and 52 are moved to the reception positions (S122). Then, the discharge roller is descended (S123) and is restored to a standby state (S124).
As described above, in the present embodiment, the home positions of the joggers 51 and 52 is set to positions more inwardly by a predetermined amount than the evacuation positions which are the outermost positions within the range through which the joggers 51 and 52 are movable. This can provide a sheet processing apparatus capable of improving the viewability of sheets stacked on the first stack tray 35 and making it easier to remove sheets from the second stack tray 44, while reducing the size of the entire sheet processing apparatus.
Further, the home positions of the joggers 51 and 52 are set to the reception positions thereof, which improves the viewability of the first stack tray 35 and makes it easier to access the second stack tray 44, in comparison with cases where the home positions are set to the evacuation positions as in
Further, in this case, the joggers 51 and 52 are moved in conjunction with each other and, accordingly, the aligning-side jogger 52 exists at the home position when the reference-side jogger 51 has been moved to the home position. However, in the case where the sheet processing apparatus is connected to a side surface of the main body of the image forming apparatus and is structured to allow sheets stacked on the trays to be removed only at the front side or the side surface as the aforementioned sheet processing apparatus, the aligning-side jogger 52 which is positioned in the rear side of the apparatus does not affect the accessibility of sheets when sheets are removed, even when the aligning-side jogger 52 exists at the outermost evacuation position. Therefore, in this case, it is preferable to structure the apparatus such that only the reference-side jogger 51 positioned in the sheet-removal side is moved to the home position (the reception position) which is more inwardly by a predetermined amount than the evacuation position, in order to prevent the removal of sheets from being hindered.
As in
As in
In the present embodiment, similarly to in the aforementioned second embodiment, there are provided stack trays 44 and 45 having stacking surfaces which are provided with cutout portions 71 at their sheet-removal sides. When the reference-side jogger 51 exists at a home position as in
Although, in the aforementioned embodiments, there have been exemplified cases where the apparatus is structured such that the joggers at the opposite sides in the sheet-widthwise direction are moved with respect to the second aligning reference wall for aligning sheets in the widthwise direction, the present invention is not limited thereto. For example, even when the apparatus is structured such that both the joggers are moved with respect to a center portion in the sheet-widthwise direction served, the present invention is effective. Further, there have been exemplified structures provided with joggers for aligning sheets in the widthwise direction at the opposite sides in the widthwise direction, the present invention is not limited thereto. For example, in cases where aligning is performed with respect to a single side in the sheet-widthwise direction, the apparatus can be structured such that the aforementioned jogger can be provided only at the other side in the widthwise direction, and the present invention can be applied to this structure for offering the same effects.
Further, although, in the aforementioned embodiments, there have been exemplified two stack trays as a second stacking portion which is provided above the aforementioned aligning portion, the present invention is not limited thereto. It is necessary only to provide at least one stacking portion, and it is possible to provide a single stacking portion or three or more stacking portions.
Further, although, in the aforementioned embodiments, there has been exemplified a copying machine as an image forming apparatus, the present invention is not limited thereto, and it is possible to employ other image forming apparatuses, such as a scanner, a printer or a facsimile. Also, it is possible to employ other image forming apparatuses, such as a compound machine having combined functions of these image forming apparatuses. The present invention can be applied to a sheet processing apparatus used with such an image forming apparatus for offering the same effects.
Further, although, in the aforementioned embodiments, there has been exemplified a sheet processing apparatus which is detachably connected to an image forming apparatus, the present invention is not limited thereto. For example, it is possible to employ a sheet processing apparatus including an image forming apparatus formed integrally therewith, and the present invention can be applied to such a sheet processing apparatus for offering the same effects.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Applications No. 2007-015797, filed Jan. 26, 2007, No. 2008-008739, filed Jan. 18, 2008 which are hereby incorporated by reference herein in their entirety.
Number | Date | Country | Kind |
---|---|---|---|
2007-015797 | Jan 2007 | JP | national |
2008-008739 | Jan 2008 | JP | national |
This is a divisional of U.S. patent application Ser. No. 12/017,792, filed Jan. 22, 2008, allowed Sep. 17, 2010.
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Number | Date | Country |
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2005-263488 | Sep 2005 | JP |
2006-306530 | Nov 2006 | JP |
Number | Date | Country | |
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20110084442 A1 | Apr 2011 | US |
Number | Date | Country | |
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Parent | 12017792 | Jan 2008 | US |
Child | 12970254 | US |