Field of the Invention
The present invention relates to a device for folding a sheet bundle formed by sheets that are sequentially carried out from an image forming device such as a copier or a printer and accumulated in a bundle and, more particularly, to a sheet processing device that performs pressing against a fold of a two-folded sheet bundle.
Description of the Related Art
There are widely known processing devices that align sheets carried out from an image forming device, bind them, and fold them into a booklet. Among them, some processing devices are configured to saddle-stitch the sheet bundle with a staple or an adhesive and fold the sheet bundle into a booklet.
Such a device performs folding for sheet bundle formed by about 20 to 30 sheets in half; however, there may be a case where the two-folded sheet bundle is unintentionally opened after being discharged from the device, degrading aligning property of the sheet bundle, which results in reduction in accumulation amount.
Thus, it is widely known that, after the folding, the two-folded sheet bundle is subjected to pressing from above and below the fold.
For example, Japanese Patent No. 4,217,640 discloses a device that moves along a fold of a two-folded sheet bundle while pinching/pressing the fold by means of rollers disposed above and below the fold. This device is also provided with a flattening roller that presses the fold from a front side thereof at a position slightly rearward of the pinching/pressing position of the upper and lower rollers. That is, in this device, the rollers that pinch/press the fold from thereabove and therebelow and flattening roller that presses the fold from the front side thereof are formed into one unit, and this unit is moved along the sheet folding direction. Thus, only a portion that is pinched by the rollers can be made flat, thereby reducing wrinkles and breaks of a portion other than the fold due to a difference in gripping force.
Further, as illustrated in detail in
Further, Jpn. Pat. Appln. Laid-Open Publication No. 2014-76903 discloses a processing device provided with a pair of pressing rollers that press a fold of a two-folded sheet bundle in a sheet width direction and a moving unit that reciprocates the pressing roller pair in the sheet width direction. Further, this processing device is configured to move the pressing roller pair between a position where they are separated away from each other and a position where they are brought into pressure contact with each other. Upon pressing the sheet bundle, the moving unit moves inward from an end portion in the sheet width direction with the pressing roller pair separated away from each other and then moves from the inside to one end portion of the sheet bundle while pressing the sheet bundle. After passing the one end portion, pressing by the pressing roller pair is released to separate the pressing roller pair away from each other. When moving again for pressing, the moving unit passes the one end position of the sheet bundle with the pressing roller pair separated away from each other and then moves from the inside to the other end portion of the sheet bundle while pressing the sheet bundle. In other words, the pressing against the fold of the sheet bundle is started from the inside in the sheet width direction to the one or the other end portion of the sheet bundle.
The above-described devices that perform pressing against the folded sheet bundle carried out from an image forming device or the like have the following problems, respectively.
In the device disclosed in Japanese Patent No. 4,217,640, the roller pair that is previously brought into a pressure contact state is moved along the fold, so that even if the roller pair is reciprocated many times, the roller pair presses the same position, that is, the folded positions are overlapped in a straight line, with the result that the folded sheet bundle may be opened after the pressing. Thus, an accumulating property and an aligning property of the folded sheet bundle cannot be effectively improved.
Also, in the device disclosed in Jpn. Pat. Appln. Laid-Open Publication No. 2014-76903, the pressing against the fold of the sheet bundle by means of the pressing roller pair is repetitively performed with the same pressing force, so that, as in the case of the device disclosed in Japanese Patent No. 4,217,640, the folded positions are overlapped in a straight line, with the result that the folded sheet bundle may be opened after the pressing. Thus, improvement of the accumulating property and aligning property of the folded sheet bundle is conventionally difficult to achieve.
The present invention has been made in view of the above problems and based on the following idea. That is, when a fold of a folded sheet bundle is subjected to pressing, a plurality of pressing operations are not made for the same position of the fold but for different positions in a thickness direction of the fold, with the result that created fold lines are directed inward in the sheet thickness direction after the last pressing operation.
To solve the above problem, a sheet processing device includes a pair of sheet pressing members that press a fold of the folded sheet bundle in a thickness direction of the fold, a moving member that moves the sheet pressing member pair along the fold of the folded sheet bundle, and an interval regulating member that regulates an interval between the sheet pressing member pair. When the moving member is moved along the fold of the folded sheet bundle to press the fold in the fold thickness direction, the interval regulating member reduces stepwise the interval between the sheet pressing member pair in accordance with a moving direction of the moving member.
The present invention provides the following effects by having the above features.
The first sheet pressing roller pair in the moving direction is moved in a sheet width direction while pressing the folded sheet bundle in the fold thickness direction in a state of being separated from each other to create a fold, and the second sheet pressing roller pair in the moving direction is moved in the sheet width direction while pressing the folded sheet bundle with the interval therebetween reduced to create a new fold, whereby the fold of the folded sheet bundle is directed inward. Thus, the sheet bundle itself is directed to its binding direction, thereby preventing the folded sheet bundle from being opened after the pressing, which allows more sheet bundles to be accumulated.
Hereinafter, the present invention will be described in detail based on illustrated embodiments.
The image forming system illustrated in
[Configuration of Image Forming Device]
The image forming device A illustrated in
A reference numeral 11 is an image reading device. The image reading device 11 scans a document sheet set on a platen 12 using a scan unit 13, and light reflected from the document and passing through a reflective mirror and a condenser lens is electrically read by a photoelectric conversion element 14. This image data is subjected to, e.g., digital processing in an image processing section, transferred to a data storage section 17, from which an image signal corresponding to the resultant image data is transmitted to the laser emitter 5. A reference numeral 15 is a document feeder that feeds a document sheet housed in a document stacker 16 to the platen 12.
A controller is provided in the image forming device A having the above configuration, and image formation conditions, for example, print-out conditions such as sheet size designation, color/monochrome printing designation, number-of-copies designation, one-side/two-side printing designation, and scaling printing designation are set through a control panel 18. Further, in the image forming device A, image data read by the scan unit 13 or image data transferred from an external network is stored in the data storage section 17. The image data is transferred from the data storage section 17 to a buffer memory 19, from which data signals corresponding to the image data are sequentially transmitted to the laser emitter 5.
Upon input of the image formation conditions, sheet processing conditions are also input (designated) through the control panel 18. Through input of the sheet processing conditions, the following modes are designated. The image forming device A forms an image on the sheet according to the image formation conditions and post processing conditions.
[Configuration of Sheet Processing Device]
The sheet processing device B connected to the above-described image forming device A is configured to receive the image-formed sheet from the main body sheet discharge port 3 of the image forming device A and perform sheet processing according to one of the following modes.
The modes include: (1) “print-out mode” in which the image-formed sheet is housed in a first sheet discharge tray 21; (2) “staple-binding mode” in which the sheets from the main body sheet discharge port 3 are aligned in a bundle, bound by an end face stapler 33, and housed in the first sheet discharge tray 21; (3) “saddle stitching and folding mode” in which the sheets from the main body sheet discharge port 3 are aligned in a bundle in a stacker section 35 which is a second processing tray, bound at a portion near a center thereof using a saddle stitching stapler 40, folded into a booklet, and stored in a second sheet discharge tray 22; and (4) “folded sheet pressing mode” in which a sheet loop is pressed at a fold of a sheet bundle that has been saddle-stitched and folded into a booklet and then stored in the second sheet discharge tray 22.
As illustrated in
In such a path configuration, in the sheet carry-in path P1, there are disposed a carry-in roller 24 and a sheet discharge roller 25. The sheet discharge roller 25 is configured to be rotatable in normal and reverse directions. Further, in the sheet carry-in path P1, there is disposed a path switching piece (not illustrated) for guiding the sheet to the second switchback conveying path SP2, and the piece is coupled to an operation means such as a solenoid. Further, the sheet carry-in path P1 has, on the downstream side of the carry-in roller 24, a stamp means for performing stamping on the sheet fed from the carry-in port 23 or a single-sheet punching unit 28 for punching the sheets fed from the carry-in port 23 one by one.
[Configuration of First Switchback Conveying Path SP1]
The first switchback conveying path SP1 disposed on the downstream side (rear end portion of the device) of the sheet carry-in path P1 as illustrated in
Further, the first sheet discharge tray 21 is located downstream of the first switchback conveying path SP1 and is configured to support a leading end of the sheet to be guided to the first switchback conveying path SP1 and the second switchback conveying path SP2.
An end face stapler 33 is disposed at a rear end portion of the processing tray 29 in the sheet discharge direction. The illustrated end face stapler 33 staples a sheet bundle on the processing tray 29 at one or more positions of a rear end edge of the sheet bundle. The staple-bound sheet bundle is discharged onto the first sheet discharge tray 21.
The first switchback conveying path SP1 configured as described above aligns the sheets fed by the sheet discharge roller 25 on the processing tray 29 in the “(2) staple-binding mode” as described above, and the end face stapler 33 staples the sheet bundle at one or more portions of the rear end edge of this sheet bundle. In the “(1) print-out mode”, the sheet fed by the sheet discharge roller 25 is not subjected to the switchback, but conveyed along the processing tray 29 and discharged to the first sheet discharge tray 21 by a rotation of the normal/reverse rotation roller 30 in a clockwise direction in
[Configuration of Second Switchback Conveying Path SP2]
The following describes a configuration of the second switchback conveying path SP2 branched from the sheet carry-in path P1. The second switchback conveying path SP2 is a conveying path for guiding a switchback-conveyed sheet. That is, in a state where the sheet is nipped by the sheet discharge roller 25, rotation of the sheet discharge roller 25 is changed from the normal rotation to the reverse rotation, with the result that the sheet is switchback-conveyed along the switchback conveying path SP2. As illustrated in
[Configuration of Stacker Section]
The stacker section 35 is formed of a guide member that guides the sheet being conveyed. The stacker section 35 is configured such that the sheets are stacked and housed thereon. The illustrated stacker section 35 is connected to the second switchback conveying path SP2 and located in a center portion of the casing 20 so as to extend in the substantially vertical direction. This allows the device to be compactly configured. The stacker section 35 is shaped to have an appropriate size to house maximum sized sheets. In particular, the illustrated stacker section 35 is curved or bent so as to project toward an area in which the saddle stitching stapler 40 and the folding roller 45 to be described later are arranged.
A switchback approaching path 35a is connected to a conveying direction rear end of the stacker section 35. The switchback approaching path 35a overlaps the outlet end of the second switchback conveying path SP2. This is to allow the leading end of a carried-in (succeeding) sheet fed from the exit conveying roller 37 on the second switchback conveying path SP2 to overlap the rear end of the stacked (preceding) sheets supported on the stacker section 35 to ensure the page order of the stacked sheets. A leading end regulating member (hereinafter, referred to as stopper 38) regulating a sheet leading end of the sheet in the conveying direction is located downstream of the stacker section 35. The stopper 38 is supported by a guide rail and the like so as to be movable along the stacker section 35. The stopper 38 is configured to be movable to a position where the sheet is carried in the stacker section 35 by means of a not illustrated shift means, a position where the sheet bundle is bound at a center thereof in the stacking direction, and a position where the sheet bundle is folded by the folding roller 45. Further, an aligning means 39 for aligning the sheets is provided in the middle of the stacker section 35 in the sheet conveying direction. The aligning means 39 presses a side edge of the sheet for alignment every time the sheet is carried in.
[Saddle Stitching Stapler]
The saddle stitching stapler 40 positioned above the stacker section 35 includes a driver unit 41 and a clincher unit 42 which are arranged opposite to each other with respect to the stacker section 35. The driver unit 41 drives a staple into a sheet bundle. The clincher unit 42 bends leg portions of the driven staple in a direction facing each other. With this configuration, the sheet bundle is bound at a binding position X illustrated in
[Folding Roller]
The following describes a configuration of the folding roller 45. As illustrated in
Further, the folding blade 46 configured to be moved toward the pressure contact position of the folding roller pair 45 is disposed so as to be capable of advancing and retreating. After the sheet bundle is saddle-stitched by the saddle stitching stapler 40, the folding blade 46 is moved to push the binding position between the folding roller pair 45 to cause the folding roller pair 45 to be rotated while pressed against each other, whereby the saddle-stitched sheet bundle is center-folded. In the middle of the above folding processing, the folding blade 46 is returned to its original position and waits for the next sheet bundle. A movement path along which the folding blade 46 is moved is illustrated as the folding position Y which coincides with the binding position X of the sheet bundle.
Hereinafter, a procedure of folding processing of the stacked sheet bundle or stacked and saddle-stitched sheet bundle will be described using
Then, as illustrated in
The loop at the fold is generated due to action of force for the sheet bundle to be opened outward. Thus, the larger the number of the sheet bundle BS to be folded, the greater the force for the sheet bundle itself to be opened and spread. Accordingly, if no countermeasure is taken, a discharged sheet bundle is opened. So, in the present invention, sheet pressing to be described below is performed.
The folding roller 45 may be used for detecting a thickness of the sheet bundle BS to be folded. That is, by measuring a difference between a distance between axes of the upper and lower pressure contact rollers 45a and 45b in a state where the sheet bundle BS is not inserted and a distance therebetween in a state where the sheet bundle BS is inserted, the thickness of the sheet bundle BS can be detected.
[Sheet Pressing Device]
Hereinafter, the sheet pressing device constituting a part of the sheet processing device according to the present invention will be described. The sheet pressing device 50 is a device for preventing the folded sheet bundle BS from being opened. First, a configuration of the sheet pressing device 50 will be described with reference to
As illustrated in
The sheet pressing device 50 illustrated in
As illustrated in
A moving belt 65 is provided above the pressing roller unit 56 so as to be stretched between the right side plate 53 and the left side plate 54. A right pulley 63 that winds the moving belt 65 is provided at the right side plate 53 side, and a left pulley 64 that winds the moving belt 65 is provided at the left side plate 54 side. One end of the moving belt 65 is fixed to a belt fixing portion 65b at an upper end of the pressing roller unit 56. Thus, when the moving belt 65 is moved to move the belt fixing portion 65b from a device back side (right side) to a device front side (left side), the pressing roller unit 56 is moved from the device back side (right side) to the device front side (left side) along the upper guide rail 57 and the lower guide rail 58. When the moving belt 65 is moved in the opposite direction, the belt fixing portion 65b is also moved in the opposite direction, which moves the pressing roller unit 56 in the opposite direction. Thus, the pressing roller unit 56 is a moving member that is moved by means of the moving belt 65 and the like.
The left pulley 64 that winds the moving belt 65 is mounted to a motor gear unit 68 provided on the left side plate 54 and connected to a drive motor 69 as a drive member configured to be rotatable in normal and reverse directions through the motor gear unit 68. Rotation drive of the drive motor 69 is transmitted from a motor output gear 67 to a transmission gear 66 provided in the motor gear unit 68, and then to the left pulley 64 of the moving belt 65. Thus, selecting a rotating direction of the drive motor 69 allows the pressing roller unit 56 to be moved selectively in the directions from the device back side (right side) to the device front side (left side) and from the device front side (left side) to the device back side (right side).
[Pressing Roller Unit 56]
The following describes the pressing roller unit 56 configured to be reciprocated left and right. As illustrated in
As illustrated in
As illustrated in
The pressing roller 70 need not include the two series of pressing rollers but may be constructed of a single pressing roller.
As described above, there is provided the cam member 80 as the interval regulating member for regulating the interval between the upper and lower pressing rollers 71 and 72. A configuration of the cam member 80 is as follows. Referring back to
Hereinafter, with reference to
Referring to
As described above, each of the upper and lower cam surface pairs are point-symmetrical to each other. That is, a shape of the cam member 80 before rotation and that of the cam member 80 after rotation by 180° about the cam drive shaft 81 are the same as each other. This is for making the upper and lower pressing rollers 71 and 72 being moved by substantially the same distance with the cam drive shaft 81 as a rotation center axis by rotation of the cam member 80 by a predetermined amount. This allows the upper and lower pressing rollers 71 and 72 (pressing roller 70) to press the folded sheet bundle BS substantially uniformly from both sides in the thickness direction of the fold. Thus, the upper and lower pressing rollers 71 and 72 constitute a sheet pressing member that presses the folded sheet bundle.
As described above, the upper and lower pressing rollers 71 and 72 as the sheet pressing member of the present invention can be moved both in the sheet fold direction which is the left-right width direction of the sheet to be conveyed between the left and right side plates 53 and 54 of
[Operation of Sheet Pressing Device]
Hereinafter, carry-in of the folded sheet bundle BS to the sheet pressing device 50 and stepwise pressing operation will be described with reference to
First, the first-step pressing operation for the folded sheet bundle BS will be described with reference to
In the present embodiment, a size of the maximum loop is set to about 22 mm, and the interval between the upper and lower pressing rollers 71 and 72 in the first step is set to about 14 mm, so that the upper and lower pressing rollers 71 and 72 overlap the upper and lower portions of the loop, respectively, each by a length of about 4 mm. Thus, the upper and lower pressing rollers 71 and 72 override the end portion of the folded sheet bundle BS in the width direction and move along the fold while pressing the loop of the folded sheet bundle BS. In the one-way movement along the fold, the interval between the upper and lower pressing rollers 71 and 72 is regulated by the first separated cam surfaces 85 of the cam member 80 so as not to become smaller. As a result of this movement, a first fold line 100 is created along the fold of the folded sheet bundle BS. This point will be described in detail later using
Next, the second-step pressing operation for the folded sheet bundle BS will be described with reference to
In the present embodiment, the interval between the upper and lower pressing rollers 71 and 72 in the first step is set to about 14 mm. In the second step, the interval is set to about 7 mm. Thus, the upper and lower pressing rollers 71 and 72 overlap the respective upper and lower portions of the folded sheet bundle that has been pressed in the first step, each by a length of about 3.5 mm. Thus, as in the case of the first step, the upper and lower pressing rollers 71 and 72 override the end portion of the folded sheet bundle BS in the width direction and move along the fold while pressing the loop of the folded sheet bundle BS. In the movement along the fold, the interval between the upper and lower pressing rollers 71 and 72 is regulated by the second separated cam surfaces 86 of the cam member 80 so as not to become smaller. As a result of this movement, a second fold line 101 to be described later is created along the fold of the folded sheet bundle BS toward the right side plate 53 side.
Finally, the third-step pressing operation for the folded sheet bundle BS will be described with reference to
In the first and second steps, the cam member 80 uses the first separated cam surfaces 85 and the second separated cam surfaces 86, respectively, to regulate the interval between the upper and lower regulating pins 82 and 83 so as not to reduce the interval any more. On the other hand, in the final step, a gap is provided between the pressure contact surfaces 87 and respective upper and lower regulating pins 82 and 83. This means that, if the folded sheet bundle BS is not inserted between the upper and lower pressing rollers 71 and 72, the upper and lower pressing rollers 71 and 72 are brought into pressure contact with each other by the upper and lower springs 90 and 91. Thus, the upper and lower pressing rollers 71 and 72 move along the fold of the folded sheet bundle BS while pressing the fold in the thickness direction of the fold without being regulated by the cam member 80 in terms of the interval therebetween. That is, the fold created by the folding roller is pressed by the pressing roller 70 once again.
In the present embodiment, the interval between the upper and lower pressing rollers 71 and 72 in the second step is set to about 7 mm. In the final step, the interval between the upper and lower pressing rollers 71 and 72 is set so as to allow the fold of the folded sheet bundle BS to be pressed harder in the thickness direction thereof. Thus, the upper and lower pressing rollers 71 and 72 override, along the fold created by the folding roller 45, the end portion of the folded sheet bundle BS in the width direction by an amount corresponding to the thickness of the folded sheet bundle BS and move along the fold while pressing the fold. That is, as described later, in the final step, the pressing roller 70 presses a final fold line 102 corresponding to the fold created by the folding roller 45.
[Movement of Sheet Pressing Unit]
The following describes a pressing procedure of the pressing roller unit 56 and a standby position after the pressing operation with reference to
In
Further, although not illustrated particularly, the following procedure can be adopted. That is, as illustrated in
As described above, in the present embodiment, the three-step pressing operation is performed for the two-folded sheet bundle BS by the pressing roller unit 56. The following describes the folded sheet bundle BS in a state after being pressed and discharged with reference to
As described hereinbefore, the upper and lower pressing rollers 71 and 72 (pressing roller 70) as the sheet bundle pressing member of the present invention are moved, along the fold direction, on a part of the folded sheet bundle BS where the fold is created by the folding roller 45 and thus the loop is generated while pressing the folded sheet bundle BS in a thickness direction (vertical direction crossing, at the fold of the folded sheet bundle BS, a conveying direction of the folded sheet bundle BS) of the fold to thereby create a plurality of folds. As described above, in the first step, the interval between the upper and lower pressing rollers 71 and 72 is set to a value (in the present embodiments, about 14 mm relative to the loop size (height) of 22 mm) slightly smaller than the size of the folded sheet bundle loop BL, and the upper and lower pressing rollers 71 and 72 are moved along the fold created by the folding roller 45 to thereby create the first-step fold. In
In the second step, the upper and lower pressing rollers 71 and 72, the interval between which is set to a value (in the present embodiments, about 7 mm) slightly smaller than the size of the loop pressed in the first step, are moved along the fold created by the folding roller 45 to thereby create the second-step fold. In
In the final step, the upper and lower pressing rollers 71 and 72 are brought into pressure contact with each other by the elastic force of the upper and lower springs 90 and 91. In this final step, unlike the first and second steps, no interval is provided between the upper and lower pressing rollers 71 and 72 (in the present embodiments, interval is set to 0).
Thus, in the final step, the upper and lower pressing rollers 71 and 72 are moved along the fold while pressing the position corresponding to the thickness of the folded sheet bundle BS that has been pressed in the first and second steps. The fold created in the final step is illustrated as a final fold line 102 represented by a comparatively dark line on the folded sheet bundle BS.
At end portions of the folded sheet bundle BS in the width direction, end portion folds 103 created when the folding roller 45 and upper and lower pressing rollers 71 and 72, which are brought into a pressure contact state, override the folded sheet bundle BS are formed.
As described above, the folds are created by the upper and lower pressing rollers 71 and 72 whose interval can be variously changed. As a result, a folding direction is directed to a closing direction (direction of a line extending in the conveying direction that passes the fold) of the folded sheet bundle BS at the respective positions of the first fold line 100 (indicated by the light line) of the first step, the second fold line 101 (indicated by the light line) of the second step, and the final fold line 102 (indicated by the comparatively dark line) of the final step generated in accordance with the thickness of the folded sheet bundle BS. With this configuration, it is possible to prevent the folded sheet bundle BS from being opened after discharge of the folded sheet bundle BS to thereby prevent degradation of aligning property and accumulating property.
[Control Configuration]
Control configuration of the sheet processing device B provided with the thus described sheet pressing device 50 and the image forming device A including the sheet processing device B will be described based on a block diagram of
As described above, in the sheet processing device B of the present invention, the following four modes can be specified: (1) “print-out mode”, (2) “staple-binding mode”, (3) “saddle stitching and folding mode”, and (4) “folded sheet pressing mode”.
The sheet processing device B includes the sheet processing device controller 115 that is made operable in one of the above four modes, a ROM that stores an operation program, and a RAM that stores control data. The sheet processing device controller 115 includes a sheet conveying controller 116 that controls sheet conveyance in the device, a single-sheet punching controller 117 that applies punching, one by one, the sheets by means of a single-sheet punching unit 28, a processing tray controller 118 that performs control of accumulating the sheets on the processing tray 29, and an end face binding controller 119 that binds the end face side of the sheets accumulated in a bundle and discharges the bound sheet bundle.
The saddle stitching or the center-folding of the sheet at about a half position thereof in the sheet conveying direction is controlled by a stacker section controller 120 that accumulates the sheet bundle in the sheet stacker section 35. The stacker section controller 120 uses the stopper 38 or the aligning means 39 that regulates the leading end of the sheets carried in, one by one, to the stacker section 35 to generate an aligned sheet bundle. The sheet processing device controller 115 further includes a saddle stitching controller 121 that controls the saddle stitching stapler 40 to drive a staple or the like to a center portion of the sheet bundle and a sheet folding controller 122 that controls the folding blade 46 to push the saddle-stitched sheet bundle into the folding roller 45 to fold the sheet bundle.
The sheet processing device controller 115 further includes a folded sheet pressing controller 123 that controls the sheet pressing device according to the thus described “folded sheet pressing mode”. The folded sheet bundle BS that has been pressed is discharged and accumulated in the second sheet discharge tray 22 under control of a center-folded sheet discharge controller 124 that controls the folding roller 45 serving also as a bundle conveying roller and the bundle discharge roller 49.
The folded sheet pressing control related especially to the present invention has been described based on the description of the respective mechanisms and using operation state explanatory views of
The present invention in its preferred embodiments provides the following effects.
(1) There is provided, according to the above embodiment, a sheet processing device B that presses a folded sheet bundle, the sheet processing device B including a pair of pressing rollers 70 as a pressing member that press a fold of the folded sheet bundle in a thickness direction of the fold, a pressing roller unit 56 as a moving member that moves the pressing roller pair 70 along the fold of the folded sheet bundle, and a cam member 80 as an interval regulating member that regulates an interval between the pressing roller pair 70, wherein when the pressing roller unit 56 is moved along the fold of the folded sheet bundle to press the fold in the fold thickness direction, the cam member 80 reduces stepwise the interval between the pressing roller pair 70 in accordance with a moving direction of the pressing roller unit 56.
With this configuration, in the first pressing operation performed in the thickness direction of the fold, the pressing roller pair 70 is moved in a sheet width direction with a predetermined interval provided therebetween to create a fold, and in the next pressing operation, the pressing roller pair 70 is moved in the sheet width direction with the interval therebetween reduced to create a new fold, whereby the fold of the folded sheet bundle is directed inward. Thus, the sheet bundle itself is directed to its binding direction, thereby preventing the folded sheet bundle from being opened after the pressing, which allows more sheet bundles to be accumulated.
(2) In the sheet processing device of (1), the pressing roller pair 70 is a pair of rotatable rollers having a support shaft in a direction crossing the fold direction.
With this configuration, the pressing roller pair 70 can be rotated in the moving direction, so that it can override the fold from a sheet end portion and press the fold without catch to thereby perform smooth sheet pressing operation.
(3) In the sheet processing device of (1), the pair of pressing rollers 70 are biased against each other by the upper and lower springs 90 and 91 in a direction facing each other and are position-regulated by the cam member 80 against the biasing force.
With this configuration, when pressing folded sheet bundle formed by rigid sheets, the pressing roller pair 70 can set the fold by being moved upward with downward movement thereof regulated by the cam member 80, whereby the fold can be set at different positions.
(4) In the sheet processing device of (3), the cam member 80 is rotated in accordance with the moving direction of the pressing roller unit 56 to reduce stepwise the interval between the pair of pressing rollers 70.
With this configuration, the interval can be set by the cam member 80, thereby facilitating position setting and thereby making it easy to set a position of the pressing roller pair 70.
(5) In the sheet processing device of (4), the cam member 80 can be rotated about a cam drive shaft 81 serving as a center axis of the cam member 80 and has a shape point-symmetrical with respect to the center axis so as to equally move the pressing roller pair 70.
With this configuration, the cam member 80 has a symmetrical shape, so that the pair of pressing rollers 70 equally approach each other in the sheet thickness direction. Thus, the fold lines created by the pair of pressing rollers 70 are formed at positions substantially equally distant from the sheet fold position, whereby a folded booklet having a good appearance can be created.
(6) In the sheet processing device of (5), in the final step of the movement of the pressing roller unit 56 along the fold of the folded sheet bundle, the position regulation for the pressing roller pair 70 by the cam member 80 is released to cause the folded sheet bundle to be pressed by the pressing roller pair 70 biased by the upper and lower springs 90 and 91.
With this configuration, when the pair of pressing rollers are moved in the final step, they are not position-regulated by the cam member 80, so that the pressing roller unit 56 is moved along the fold while pressing the folded sheet bundle with spring force of the upper and lower springs 90 and 91, thereby reliably pressing the fold of the folded sheet bundle.
(7) In the sheet processing device of (2), one-way movement of the pressing roller unit 56 along the fold of the folded sheet bundle is continued from when the pressing roller pair 70 overrides one end portion of the folded sheet bundle in the fold direction until when the pressing roller pair 70 passes through the other end portion of the folded sheet bundle.
With this configuration, the pressing roller unit 56 can create the folds sequentially while being moved by a distance longer than the width of the folded sheet bundle, whereby a folded booklet having improved pressing effect can be created.
(8) There is provided, according to the above embodiment, a sheet processing device that presses a folded sheet bundle, the sheet processing device including a stacker section 35 that accumulates sheets as a sheet bundle, a folding roller 45 that folds the accumulated sheet bundle, a pair of pressing rollers 70 that press a fold of the sheet bundle folded by the folding roller 45 in a thickness direction of the fold, a pressing roller unit 56 that moves the pressing roller pair 70 along the fold of the folded sheet bundle, a drive belt 65 and a drive motor 69 that reciprocate the pressing roller unit 56 by a distance longer than a width of the folded sheet bundle in the fold direction, upper and lower springs 90 and 91 that bias the pair of pressing rollers 70 in their approaching direction, and a movably configured cam member 80 that regulates, against the biasing force of the upper and lower springs 90 and 91, an interval between the pair of the pressing rollers 70 at a plurality of levels, wherein the folded sheet bundle is pressed in a thickness direction of the fold with the cam member 80 moved in accordance with a moving direction of the pressing roller unit 56 driven by the drive belt 65 and the drive motor 69 so as to reduce the interval between the pair of pressing rollers 70.
With this configuration, in the first pressing operation performed in the thickness direction of the fold, the pressing roller pair 70 is moved in a sheet width direction with a predetermined interval provided therebetween to create a fold, and in the next pressing operation, the pressing roller pair 70 is moved in the sheet width direction with the interval therebetween reduced to create a new fold, whereby the fold of the folded sheet bundle is directed inward. Thus, the sheet bundle itself is directed to its binding direction, thereby preventing the folded sheet bundle from being opened after the pressing, which enhances the aligning property of the sheet bundle and allows more sheet bundles to be accumulated.
(9) There is provided, according to the embodiment, an image forming device A including an image forming means for forming an image on a sheet and a sheet processing device that applies predetermined sheet processing to the image-formed sheet from the image forming means, wherein the sheet processing device is the sheet processing device B described in (1) to (8).
With this configuration, there can be provided the image forming device A having the sheet processing device B capable of providing working effects described in the above respective paragraphs.
(10) There is provided, according to the embodiment, a sheet pressing method of a sheet pressing device including a pair of pressing rollers 70 that press a fold of a folded sheet bundle in a thickness direction of the fold, a pressing roller unit 56 that moves the pressing roller pair 70 along the fold of the folded sheet bundle, and a cam member 80 that regulates an interval between the pressing roller pair 70, wherein, in a first movement of the pressing roller unit 56 along the fold of the folded sheet bundle, the folded sheet bundle is pressed in the thickness direction of the fold with the interval between the pair of pressing rollers 70 set to a comparatively large first interval, and in the next movement of the pressing roller unit 56, the folded sheet bundle is pressed in the thickness direction of the fold with the interval between the pair of pressing rollers 70 set to an interval smaller than the first interval.
With this configuration, the interval between the pair of pressing rollers 70 is reduced stepwise at every movement of the pressing roller unit 56 along the fold of the folded sheet bundle, so that the sheet bundle itself is directed to its binding direction, thereby preventing the folded sheet bundle from being opened after the pressing, which allows more sheet bundles to be accumulated.
In the description of the effects of the embodiments, reference numerals are given to constituent elements recited in the claims so as to clarify a correspondence relationship between the description of “Detailed Description” and the description of “What is Claimed is”.
Further, it should be appreciated that the present invention is not limited to the present embodiment, and various modifications may be made thereto. Further, all technical matters included in the technical ideas set forth in the claims should be covered by the present invention. While the invention has been described based on a preferred embodiment, those skilled in the art can realize various substitutions, corrections, modifications, or improvements may be made from the content disclosed in the specification by a person skilled in the art, which are included in the scope defined by the appended claims.
This application is based upon and claims the benefit of priority from prior Japanese Patent Application No. 2014-133797, filed Jun. 30, 2014, the entire contents of which are incorporated herein by reference.
Number | Date | Country | Kind |
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2014-133797 | Jun 2014 | JP | national |
Number | Name | Date | Kind |
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8201815 | Sasahara | Jun 2012 | B2 |
20060263174 | Oikawa | Nov 2006 | A1 |
Number | Date | Country |
---|---|---|
4217640 | Feb 2009 | JP |
2014-076903 | May 2014 | JP |
Number | Date | Country | |
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20150375957 A1 | Dec 2015 | US |