1. Field of the Invention
The present invention relates to a sheet processing apparatus for aligning a side edge of a sheet and to an image forming apparatus having the sheet processing apparatus in an apparatus main body.
2. Description of the Related Art
Hitherto, as an image forming apparatus for forming an image onto a sheet, there is a type in which a sheet processing apparatus for aligning a sheet side edge along a sheet conveying direction is provided for an apparatus main body (the Official Gazette of Japanese Patent Application Laid-Open No. 2005-306506).
Schematic diagrams of a sheet processing apparatus in the related art are illustrated in
When the side edge alignment of the sheet is made, the processing roller 204 slip-moves (slips) on the sheet in a state where the side edge Sa of the sheet S is in contact with the width restricting plate 239 and causes a deflection in the side edge portion of the sheet, thereby raising side edge aligning precision of the sheet.
The sheet processing apparatus in the related art uses what is called a center-main conveyance in which the sheet is conveyed in a state where a center in the width direction of the sheet and a center in the width direction of a sheet conveying path are made coincident. A center (CL1) in the width direction of the processing roller 204 existing at a home position also coincides with a center (CL2) in the width direction of the sheet.
Therefore, a distance (L2) between the side edge Sa of the sheet having a large width size in
A distance (L8) at which the processing roller 204 moves from the center (CL2) in the width direction of the sheet to a position where the processing roller 204 finishes the side edge alignment of the sheet and stops, is set to a predetermined value irrespective of the width size (length in the arrow direction) of the sheet. Therefore, an interval (L5) between the processing roller 204 and the width restricting plate 239 at the time when the processing roller 204 finishes the side edge alignment of the sheet and stops, is constant irrespective of the width size of the sheet.
Consequently, in the case of the sheet having the large width size, a distance at which the processing roller 204 further moves (alignment slip movement) after the processing roller 204 makes the side edge Sa of the sheet hit to the width restricting plate 239 is equal to L2−L5 (=L7). In the case of the sheet having the small width size, a distance at which the processing roller 204 further moves (alignment slip movement) after the processing roller 204 made the side edge Sa of the sheet hit to the width restricting plate 239 is equal to L1−L5 (=L6). Since L2>L1, L7>L6.
That is, the alignment slip movement distance of the processing roller 204 in the case of the sheet having the large width size is larger than that of the sheet having the small width size.
As mentioned above, in the sheet processing apparatus in the related art, by the processing roller 204 in which the movement distance (L8) in the width direction of the sheet is constant, the sheet conveyed by the center-main conveyance is moved by the same distance (L8) as a movement distance of a processing tray. Therefore, the relation of (L2>L1) occurs and in the case of the sheet having the large width size, a deflection amount of the sheet at the time when the sheet side edge has been come into contact with the width restricting plate 239 is larger than that of the sheet having the small width size and a buckling of the sheet is liable to occur.
The above problem occurs not only in the sheet processing apparatus of the center-main conveyance but also, similarly, in a sheet processing apparatus in which the sheet is away from a side wall of a sheet conveying path and conveyed.
In other words, the above problem occurs in the sheet processing apparatus in which the sheet stacked on the processing tray so as to be away from the width restricting plate 239 is moved by the same distance as the movement distance (L8) by the processing roller 204 in which the movement distance (L8) in the width direction of the sheet is constant, thereby making the side edge alignment.
In an image forming apparatus having the sheet processing apparatus in which buckling is caused in the sheet, there is a case where an image has to be formed again on the buckled sheet and image forming efficiency is low.
The invention intends to provide a sheet processing apparatus in which a frequency of occurrence of the buckling in a sheet received to a side edge aligning unit is reduced.
The invention intends to provide an image forming apparatus in which the sheet processing apparatus is provided for an apparatus main body, where an image is formed again on a sheet and an amount of the occurrence of the buckling is reduced, so that image forming efficiency is improved.
According to the invention, there is provided a sheet processing apparatus comprising: a stacking unit on which an ejected sheet is stacked; a moving unit which is come into contact with an upper surface of the sheet stacked on the stacking unit so that the moving unit can slip and moves the sheet in a direction which crosses a sheet ejecting direction; and a side edge aligning unit adapted to receive a side edge along the sheet ejecting direction of the sheet which is moved in the crossing direction by the moving unit, wherein the moving unit further moves in a state where the sheet stacked on the stacking unit so as to be away from the side edge aligning unit has been moved to and has been come into contact with the side edge aligning unit, and the sheet processing apparatus further includes a movement blocking unit adapted to block the movement of the sheet which is moved to the side edge aligning unit by the moving unit, thereby allowing the moving unit to slip and move on the sheet so as to adjust a relative position with the sheet and a block cancelling unit adapted to allow the movement blocking unit to cancel the block of the movement of the sheet when the moving unit has position adjustment slip moved by a predetermined distance.
According to the invention, there is also provided a sheet processing apparatus comprising: a stacking unit on which an ejected sheet is stacked; a moving unit which is come into contact with an upper surface of the sheet stacked on the stacking unit so that the moving unit can slip and moves the sheet in a direction which crosses a sheet ejecting direction; and a side edge aligning unit which receives a side edge along the sheet ejecting direction of the sheet which is moved in the crossing direction by the moving unit, wherein the moving unit further moves in a state where the sheet stacked on the stacking unit so as to be away from the side edge aligning unit has been moved to and has been come into contact with the side edge aligning unit, the sheet processing apparatus further includes a movement blocking unit which blocks the movement of the sheet which is moved to the side edge aligning unit by the moving unit, thereby allowing the moving unit to slip and move on the sheet so as to adjust a relative position with the sheet and a block cancelling unit adapted to allow the movement blocking unit to cancel the block of the movement of the sheet, and the block cancelling unit calculates a position adjustment slip movement distance from a slip start position of the moving unit to a slip end position as a position away from the side edge of the sheet based on information of the sheet, and when the moving unit slips and moves by the position adjustment slip movement distance, the block cancelling unit allows the movement blocking unit to cancel the block of the movement of the sheet.
According to the invention, there is also provided an image forming apparatus comprising: an image forming unit which forms an image onto a sheet; and a sheet processing apparatus which aligns a side edge of the sheet on which the image has been formed by the image forming unit, wherein the sheet processing apparatus is one of the foregoing sheet processing apparatuses.
According to the sheet processing apparatus of the invention, the sheet is made to come into contact with the side edge aligning unit by the moving unit, the movement of the sheet is blocked by the movement blocking unit, and when the moving unit slips and moves on the upper surface of the sheet, a distance between the side edge of the sheet and the moving unit is shortened. Thus, the sheet processing apparatus of the invention can reduce a frequency of occurrence of the buckling of the sheet that is caused when the sheet is made to come into contact with the side edge aligning unit and can improve the side edge aligning precision of the sheet.
Since the image forming apparatus of the invention has the sheet processing apparatus in which the frequency of occurrence the buckling of the sheet is reduced, such a situation that the image is formed again on the sheet corresponding to the amount of the occurrence of the buckling is reduced and the image forming efficiency can be improved.
Further features of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings.
A sheet processing apparatus of an embodiment of the invention and an image forming apparatus in which the sheet processing apparatus has been provided for an apparatus main body will be described hereinbelow with reference to the drawings.
In the description of the embodiments, a sheet conveying direction denotes a right/left direction (direction shown by an arrow X) in
(Image Forming Apparatus)
The apparatus main body 150A of the image forming apparatus 150 forms the image onto the sheet based on information from an outside source. A sheet cassette 151 in which the sheets S have been enclosed is provided in a lower portion of the apparatus main body 150A so that the sheet cassette can be freely pulled out to the right in
The user operates an operation panel 152 provided for the apparatus main body 150A, thereby making the apparatus main body 150A and the sheet processing apparatus 300 or 301 operative. The operation panel 152 may be provided for the sheet processing apparatus 300 or 301. The apparatus main body 150A is controlled by a main body control unit 140.
(Sheet Processing Apparatus)
A direction of the sheet processing apparatus 300 illustrated in
The sheet processing apparatus 300 performs what is called a center-main conveyance in which the sheet is conveyed in the state where the center in the width direction of the sheet and the center in the width direction of the sheet conveying path are made coincident. In the sheet processing apparatus, as illustrated in
It is not always necessary that the sheet is fed by the center-main conveyance. It is sufficient that a side edge of the sheet is not guided by a side wall of a conveying path but the sheet is away from the side wall and conveyed. Therefore, it is not always necessary that the center (CL1) in the width direction of the processing roller 204 existing at the home position coincides with the center (CL2) in the width direction of the sheet.
The operation of the sheet processing apparatus 300 or 301 is controlled by a CPU 100 (
An inlet sensor 202 (
A conveying motor 206, a TD motor 216, and a clamp solenoid 240 are also connected to the CPU 100. The conveying motor 206 rotates a driving roller 203a (
A ROM 110 in which control procedures shown in
The operation panel 152 provided for the apparatus main body 150A may be provided for the sheet processing apparatus 300 or 301. In this case, the operation panel 152 may be connected to the CPU 100.
(Sheet Processing Apparatus)
In
In
In a rotation stop state, in
At this time, in
The gripper 241 will be described here. The gripper 241 is inclined upward by the clamp solenoid 240 (
After the trailing edge alignment of the sheet was made, the CPU 100 turns off the clamp solenoid 240. The gripper 241 grasps the sheet in cooperation with the processing tray 205 and blocks the movement of the sheet so that a positional deviation of the sheet from the processing tray 205 does not occur (
Simultaneously with that the processing roller 204 starts to move from the home position (movement start position), the processing roller 204 position adjustment slip moves on the upper surface Sb of the sheet grasped on the processing tray 205 by the gripper 241. Therefore, the home position (movement start position) is a slip start position.
When, for example, the CPU serving as a block cancelling unit allows the processing roller 204 to move from the movement start position in
Thus, a relative position between the processing roller 204 and the sheet is adjusted by the distance L13 at which the processing roller 204 has slip moved for the sheet. The slip movement in this instance is referred to as a position adjustment slip movement. A distance between the side edge Sa of the sheet and the edge surface 204a of the processing roller 204 is equal to L4. The position of the processing roller 204 is a slip end position SP. The distance L4 is shorter than the distance L2 (
The processing roller 204 continues such a movement that it approaches the width restricting plate 239 and the sheet which can move freely because the gripper 241 has been opened is moved and made to approach the width restricting plate 239 by the processing roller 204 so as to be come into contact with the width restricting plate 239 as illustrated in
The distance L4 is set in such a manner that a buckling resistant force at which the sheet received and stopped by the width restricting plate 239 can endure the conveying force without buckling is larger than the conveying force at the time of moving the sheet to the width restricting plate 239 even after the processing roller 204 allowed the sheet to be come into contact with the width restricting plate 239. Therefore, the frequency of occurrence of the buckling of the sheet is smaller than that in the related art. The reason for it will be described hereinafter.
After that, the processing roller 204 is retreated upward (S814) and is returned to the home position (movement start position) (S816). At this time, the gripper 241 rotates downward and grasps the sheet on the processing tray 205, thereby preventing the sheet position from being deviated from the processing tray 205 (S818). The sheet processing apparatus 300 repeats the above operation until there are no subsequent sheets. After the sheets were stacked onto the processing tray 205 in a bundle form, the sheet processing apparatus 300 binds the sheet bundle by a stapler 254 (
As mentioned above, when the processing roller 204 moves in the width direction of the sheet, its movement is temporarily blocked by the gripper 241. When the processing roller 204 position adjustment slip moves on the upper surface Sb of the sheet and reaches the slip end position SP, the block of the movement of the sheet by the gripper 241 is cancelled.
As mentioned above, in the sheet processing apparatus, after the processing roller 204 position adjustment slip moves by the predetermined distance (L13), the sheet moves. Therefore, the distance between the edge surface 204a of the processing roller 204 and the side edge Sa of the sheet can be more shortened than that in the related art by the distance (L13) corresponding to the position adjustment slip movement. In other words, since L13+L4=L2 in
Consequently, in the sheet processing apparatus, since the movement of the sheet is blocked and the distance between the edge surface 204a of the processing roller 204 and the side edge Sa of the sheet is shortened, a deflection amount of the sheet at the time when it is come into contact with the width restricting plate 239 is reduced by such a shortened distance and the frequency of occurrence of the buckling of the sheet can be decreased. The side edge aligning precision of the sheet can be also improved.
Although the position adjustment slip movement distance (L13) has previously been stored in the ROM 110 (
For this purpose, if the apparatus is constructed in such a manner that at least one of the timing when the movement of the sheet is blocked by the gripper 241 and the timing for cancelling the block of the movement can be changed by the operation panel 152, the position adjustment slip movement distance (L13) can be adjusted. If the position adjustment slip movement distance (L13) can be adjusted by the operation panel 152 as mentioned above, the side edge alignment of the sheet is actually made and such an optimum slip end position SP that the position adjustment slip movement distance is short and no buckling occurs in the sheet can be found.
Relations among a width size of the sheet, characteristics of the sheet, and the position adjustment slip movement distance have previously been stored in the ROM 110. The apparatus can be also constructed in such a manner that when the user inputs the sheet width size and the sheet characteristics, the position adjustment slip movement distance is automatically selected. In other words, at least one of the timing when the movement of the sheet is blocked by the gripper 241 and the timing for cancelling the block of the movement can be also changed according to information of the sheet characteristics. If the apparatus is constructed in such a manner that at least one of the timing for blocking the movement of the sheet and the timing for cancelling the block of the movement can be changed according to the sheet characteristics as mentioned above, the frequency of occurrence of the buckling of the sheet can be decreased. As characteristics, there are a thickness, a rigidity (tear-resistance), a material, a coefficient of friction, and the like of the sheet.
(Sheet Processing Apparatus of Another Embodiment)
Although the distance between the edge surface 204a of the processing roller and the side edge Sa of the sheet is shortened by blocking the movement of the sheet in the above description, the frequency of occurrence of the buckling may be decreased by setting the distance between the edge surface 204a of the processing roller and the side edge Sa of the sheet to be constant irrespective of the width size of the sheet.
The sheet processing apparatus 301 in which the distance between the edge surface 204a of the processing roller and the side edge Sa of the sheet is made constant irrespective of the width size of the sheet and the frequency of occurrence of the buckling is decreased will be described hereinbelow. It is assumed that the distance between the edge surface 204a of the processing roller 204 and the side edge Sa of the sheet has been set to L3.
When size information of the sheet (or sheet width size information) is input from the operation panel 152 by the user, the CPU 100 reads out the width size of the sheet from the ROM 110 based on the sheet size. The CPU 100 subtracts the distance L3 between the edge surface 204a of the processing roller 204 and the side edge Sa of the sheet from the width size of the sheet, thereby calculating the position adjustment slip movement distance of the processing roller 204 (
After the trailing edge alignment of the sheet was made (S902), the CPU 100 turns off the clamp solenoid 240. The gripper 241 grasps the sheet in cooperation with the processing tray 205 (S904), thereby blocking the movement of the sheet so that the positional deviation of the sheet from the processing tray 205 does not occur. Subsequently, the CPU 100 controls the TD motor 216 so as to move the processing roller 204 in an arrow direction (width direction) in
The processing roller 204 position adjustment slip moves by the distance L14 when the width size is small and by the distance L15 when the width size is large. When the processing roller 204 position adjustment slip moves to the slip end position SP that is away from the side edge Sa of the sheet S which is come into contact with the width restricting plate 239 by the distance L3 (YES in S906), the gripper 241 is opened by making the clamp solenoid 240 operative (S908). The slip end position SP is a position that is away from the side edge Sa of the sheet by the distance L3 (<L1<L2 (
Thus, the relative position of the processing roller 204 and the sheet is adjusted by the distance (L14, L15) at which the processing roller 204 slip moved for the sheet.
The gripper 241 is opened and the processing roller 204 allows the sheet side edge to be come into contact with the width restricting plate 239 (S908, S910).
Since the movement distance (L8) of the processing roller 204 is constant, even if the side edge Sa of the sheet is brought into contact with the width restricting plate 239, the processing roller 204 further moves in the arrow direction (width direction) in
After that, the processing roller 204 is retracted upward (S914) and returned to the home position (movement start position) (S916). At this time, the gripper 241 is rotated downward and grasps the sheet on the processing tray 205, thereby preventing the position of the sheet from being deviated from the processing tray 205. The sheet processing apparatus 301 repeats the above operation until there are no subsequent sheets (S918). After the sheets were stacked onto the processing tray 205 in a bundle form, the sheet processing apparatus 301 binds the sheet bundle by the stapler 254 (
A relation between the movement distance (L8) of the processing roller 204 and another distance is L8=L14+L16+(L9=L3−L5) in the case of the sheet of the small width size and is L8=L15+L17+(L9=L3−L5) in the case of the sheet of the large width size.
Therefore, since the distance L3 between the edge surface 204a of the processing roller and the side edge Sa of the sheet is set to be shorter than that in the related art, the sheet processing apparatus 301 can reduce the frequency of occurrence of the buckling by decreasing the deflection amount of the sheet at the time when the side edge Sa of the sheet is brought into contact with the width restricting plate 239. Thus, the side edge aligning precision of the sheet can be improved. Since the distance L3 is made constant irrespective of the width size of the sheet, the frequency of occurrence of the buckling can be decreased irrespective of the width size of the sheet.
Although the distance L3 between the edge surface 204a of the processing roller 204 and the side edge Sa of the sheet has previously been stored in the ROM 110 (
For this purpose, if the apparatus is constructed in such a manner that at least one of the timing when the movement of the sheet is blocked by the gripper 241 and the timing for cancelling the block of the movement can be changed by the operation panel 152, the distance (L3) can be adjusted. If the position adjustment slip movement distance (L3) can be adjusted by the operation panel 152 as mentioned above, the side edge alignment of the sheet is actually made and such an optimum slip end position SP that the position adjustment slip movement distance is short and no buckling occurs in the sheet can be found.
Relations among the width size of the sheet, the characteristics of the sheet, and the various kinds of distances L3 according to the width size and the characteristics have previously been stored in the ROM 110. The apparatus can be also constructed in such a manner that when the user inputs the sheet width size and the sheet characteristics information, the distance L3 is selected. In other words, at least one of the timing when the movement of the sheet is blocked by the gripper 241 and the timing for cancelling the block of the movement can be also changed according to the sheet characteristics information. If the apparatus is constructed in such a manner that at least one of the timing for blocking the movement of the sheet is blocked and the timing for cancelling the block of the movement can be also changed according to the sheet characteristics as mentioned above, the frequency of occurrence of the buckling of the sheet can be decreased. As characteristics, there are the thickness, rigidity (tear-resistance), material, coefficient of friction, and the like of the sheet.
In the description of
Since, for example, the processing roller 204 as a moving unit in the above description moves the sheet in the sheet conveying direction or in the sheet width direction in the rotation stop state, it may be a member which is merely come into contact with the sheet. Therefore, the moving unit is not limited to the processing roller 204.
Such a phenomenon that when the sheet processing apparatus makes the width alignment of the sheet, if the distance between the edge surface 204a of the processing roller 204 and the side edge Sa of the sheet is narrowed, the buckling becomes difficult to occur in the sheet will be described.
It is assumed that the processing roller 204 executes the aligning operation toward the arrow direction in
According to the sheet processing apparatus in the related art, as described based on
On the other hand, according to the sheet processing apparatus of the embodiment, the frequency of occurrence of the buckling of the sheet can be reduced by narrowing the distance between the processing roller 204 and the width restricting plate 239 by changing the position adjustment slip movement distance of the processing roller 204 on the sheet according to the width size of the sheet.
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 Application No. 2008-043633, filed Feb. 25, 2008, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
---|---|---|---|
2008-043633 | Feb 2008 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
6219503 | Miyake et al. | Apr 2001 | B1 |
6273418 | Fujikura et al. | Aug 2001 | B1 |
6330422 | Sato et al. | Dec 2001 | B1 |
6386080 | Okamoto et al. | May 2002 | B1 |
7073706 | Yaginuma et al. | Jul 2006 | B2 |
7080835 | Oikawa et al. | Jul 2006 | B2 |
7300046 | Sugiyama et al. | Nov 2007 | B2 |
7354034 | Nakamura et al. | Apr 2008 | B2 |
7392983 | Kodama et al. | Jul 2008 | B2 |
7566051 | Kodama et al. | Jul 2009 | B2 |
7571909 | Saeki et al. | Aug 2009 | B2 |
7665730 | Funada | Feb 2010 | B2 |
Number | Date | Country |
---|---|---|
2005-306506 | Nov 2005 | JP |
Number | Date | Country | |
---|---|---|---|
20090212487 A1 | Aug 2009 | US |