This application is based upon and claims the benefit of priority from the corresponding Japanese Patent Application No. 2018-161569 filed Aug. 30, 2018, the entire contents of which are hereby incorporated by reference.
The present disclosure relates to a sheet post-processing device, which performs a post-processing on sheets such as paper sheets on which images are formed by an image forming apparatus such as a copier, a facsimile machine, or a printer, and relates to the image forming system including the sheet post-processing device.
There is conventionally used a paper sheet post-processing device that is capable of performing a post-processing such as a stapling process, in which a plurality of paper sheets (sheets) with images formed by an image forming apparatus such as a copier or a printer are stacked so that a bundle of the stacked paper sheets is stapled with staples, and a punching process for forming punch holes (punching) with a punching device.
Such a paper sheet post-processing device includes a processing tray on which a predetermined number of paper sheets with images formed thereon are stacked, an aligning member that contacts with an upper surface of the topmost paper sheet on the processing tray and rotates to align the paper sheets in a conveying direction, a holder that supports the aligning member in a rotatable manner and is swingable, and a swinging mechanism that causes the holder to swing. Further, the stapling process, a shift discharge process, and the like are performed on the paper sheet stack on the processing tray.
The holder is configured to be swingable between a contact position at which the aligning member contacts with the upper surface of the topmost paper sheet on the processing tray and a retract position at which the aligning member retracts from the processing tray. In order to avoid excessive pressing of the aligning member toward the paper sheet, the holder is configured to be swingable (i.e. to have a play) by a predetermined angle in a retracting direction when it is disposed the contact position.
A sheet post-processing device according to a first aspect of the present disclosure includes a conveying member, a processing tray, a discharge tray, a processing unit, an aligning member, a holder, a swinging mechanism, and a control unit. The conveying member conveys sheets. The processing tray is disposed on a downstream side of the conveying member in a sheet conveying direction, and has a sheet stacking surface for receiving and stacking the sheets. The discharge tray is disposed on a downstream side of the processing tray in a sheet discharge direction. The processing unit performs a post-processing on the sheets on the processing tray. The aligning member contacts with an upper surface of a topmost sheet of the sheets on the processing tray and aligns the sheets on the processing tray in the sheet discharge direction. The holder supports the aligning member and is swingable. The swinging mechanism causes the holder to swing. The control unit controls the swinging mechanism. The holder is swingable between a contact position at which the aligning member contacts with the upper surface of the topmost sheet of the sheets and a retract position at which the aligning member retracts from the upper surface of the topmost sheet the sheets. The swinging mechanism includes a rotation shaft inserted into a shaft insertion portion of the holder with play in a rotation direction so as to be a swinging center of the holder, and a drive part for driving the rotation shaft to rotate. The control unit controls the rotation shaft to rotate and stop at a predetermined rotation angle position corresponding to a stack height of the sheets stacked on the processing tray, so that the holder is disposed at the contact position. At the contact position, the holder is allowed to swing in a retracting direction with respect to the rotation shaft within a predetermined play range. The play range is set to be larger in proportion to the stack height of the sheet.
A sheet post-processing device according to a second aspect of the present disclosure includes a conveying member, a processing tray, a processing unit, an aligning member, a holder, a swinging mechanism, and a control unit. The conveying member conveys sheets. The processing tray is disposed on a downstream side of the conveying member in a sheet conveying direction, and has a sheet stacking surface for receiving and stacking the sheets. The processing unit performs a post-processing on the sheets on the processing tray. The aligning member contacts with an upper surface of a topmost sheet of the sheets stacked on the processing tray and aligns the sheets on the processing tray in the sheet discharge direction. The holder supports the aligning member. The swinging mechanism causes the holder to swing. The control unit controls the swinging mechanism. The holder is swingable between a contact position at which the aligning member contacts with the upper surface of the topmost sheet of the sheets and a retract position at which the aligning member retracts from the upper surface of the topmost sheet of the sheets. The swinging mechanism includes a rotation shaft inserted into a shaft insertion portion of the holder with play in a rotation direction so as to be a swinging center of the holder, and a drive part for driving the rotation shaft to rotate. The control unit controls the rotation shaft to rotate and stop at a predetermined rotation angle position corresponding to stack height of the sheets stacked on the processing tray, so that the holder is disposed at the contact position. At the contact position, the holder is allowed to swing in the retracting direction with respect to the rotation shaft within a predetermined play range.
Other objects of the present disclosure and specific advantages obtained by the present disclosure will become more apparent from the description of the embodiment given below.
Hereinafter, an embodiment of the present disclosure is described with reference to the drawings.
First, with reference to
As illustrated in
The main body of the image forming apparatus 100 is provided with a sheet feed unit 4 for feeding paper sheets (sheets) P, a sheet conveying path 5, an image forming unit 6 that forms a toner image on the paper sheet P, a fixing device 7 for fixing the toner image on the paper sheet P, and a sheet discharge unit 18 for conveying the paper sheet P after the fixing so as to discharge the same from the main body of the image forming apparatus 100.
In addition, the main body of the image forming apparatus 100 is provided with an in-body discharge space 16, which is formed to open largely to the left and front sides. This in-body discharge space 16 is provided with a relay unit 19, which receives and places the paper sheets P discharged by the sheet discharge unit 18, and enables to convey the paper sheet P to the paper sheet post-processing device 20 when a predetermined post-processing is performed on the paper sheets P.
The sheet discharge unit 18 includes an upper discharge roller pair 18a and a lower discharge roller pair 18b disposed just below the upper discharge roller pair 18a, so that the paper sheet P after being conveyed along the sheet conveying path 5 is guided by a switching claw 17 to an upper conveying path or a lower conveying path.
The paper sheet P guided by the switching claw 17 to the upper conveying path is discharged from the upper discharge roller pair 18a to the left, while the paper sheet P guided by the switching claw 17 to the lower conveying path is discharged by the lower discharge roller pair 18b to the left. Then, the paper sheet P discharged from the lower discharge roller pair 18b is carried into the relay unit 19. The paper sheet P carried into the relay unit 19 passes through inside of the relay unit 19 and is carried into the paper sheet post-processing device 20. The switching claw 17 is configured to switch its guide direction according to a main body control unit 80. Note that the main body control unit 80 is configured to control operation of the image forming apparatus 100 and to be capable of communicating with a post-processing control unit 81 of the paper sheet post-processing device 20, so as to control the post-processing control unit 81. The post-processing control unit 81 is one example of the “control unit” in the present disclosure.
Inside of the paper sheet post-processing device 20, there are disposed a punching device 21 that forms punch holes in the carried-in paper sheets P, a processing tray 30 that places (stacks) a plurality of the carried-in paper sheets P, and a stapler (processing unit) 40 that staples the paper sheets stacked on the processing tray 30 with staples. A side surface of the paper sheet post-processing device 20 is provided with a discharge tray 50 that can move up and down to a position suitable for discharging the paper sheets P. The discharge tray 50 is provided with a pair of align cursors 55 (see
The punching device 21 is disposed in an upper part of the paper sheet post-processing device 20, and forms a plurality of punch holes along one side edge of the paper sheet P parallel to the conveying direction (on the front or back side of the apparatus). A carry-in detection sensor (not shown), which detects a front end of the paper sheet P carried into the paper sheet post-processing device 20 by the sheet carry-in roller pair in the relay unit 19, is disposed on an upstream side of the punching device 21 and at substantially the center part of the same in a direction perpendicular to the sheet conveying direction (in a direction perpendicular to the paper plane of
Further, below the intermediate roller pair 27, there are disposed the processing tray 30 that aligns and places a predetermined number of the paper sheets P conveyed by the intermediate roller pair 27, and the stapler 40 (see
A paper sheet discharge port (sheet discharge port) 22 is disposed on the downstream side (the left side in
The upper discharge roller 29b is supported by a discharge roller holder 31 that is swingable up and down about a rotation shaft 31a, and the lower discharge roller 29a and the upper discharge roller 29b can contact and separate from each other. The discharge roller holder 31 is driven to swing by a holder drive mechanism 36 constituted of a stepping motor and gears, or a motor, gears, a cam, and the like, for example. The holder drive mechanism 36 is controlled by the post-processing control unit 81 (see
The upper discharge roller 29b is disposed by the holder drive mechanism 36 selectively at one of a nip-forming position (the position of
Above the processing tray 30 on the downstream side (the left side of
The processing tray 30 is disposed to be inclined downward toward the rear end of the paper sheet P (an upstream end in the sheet discharge direction) (the right side of
Note that the aligning roller 32 is made of a material such as resin having a relatively small coefficient of friction against the paper sheet P, so as to rotate freely on the paper sheet P after the rear end of the paper sheet P comes into contact with the stop part 30b of the processing tray 30. Detailed structure of the aligning roller 32, the aligning roller holder 33, and their vicinity will be described later.
The stapler 40 (see
Next, with reference to
Then, the paper sheet P is further conveyed to the downstream side by the intermediate roller pair 27 (see
If a post-processing on the processing tray 30 (a staple process (stapling process) by the stapler 40 and a shift discharge process) is not instructed, the paper sheet P after passing through the punching device 21 is discharged onto the discharge tray 50 as it is by the intermediate roller pair 27 and the discharge roller pair 29, as illustrated in
On the other hand, if the post-processing on the processing tray 30 is instructed, the knock member (not shown) is driven so that the paper sheet P is laid along the processing tray 30 at timing when the rear end of the paper sheet P passes the intermediate roller pair 27. In this case, the discharge roller holder 31 is swung upward, and the upper discharge roller 29b is disposed at a position separated from the lower discharge roller 29a (at the separate position). In this state, the aligning roller 32 is rotated forward (in the counterclockwise direction in
Further, if the stapling process is instructed, when reception of one bundle of (a predetermined number of) paper sheets P is finished, the stapler 40 is moved to a cut-out position of the stop part 30b so that the stapling process is performed on the rear end of the paper sheet stack. After the stapling process, the aligning roller 32 is disposed at a retract position retracted upward as described later.
In addition, if the shift discharge process is instructed, when reception of one bundle of (a predetermined number of) paper sheets P is finished, the side end align cursor 35 is disposed at an align position (a reference position) at which the paper sheets P are aligned, or a position (a shift position) shifted from the align position by a predetermined amount in a direction perpendicular to the discharge direction (in the sheet width direction). Then, the discharge roller holder 31 is swung downward and moved to a position (an abutting position) at which the upper discharge roller 29b abuts the lower discharge roller 29a. After that, the lower discharge roller 29a is rotated forward (in the counterclockwise direction in
Next, a structure of the aligning roller 32, the aligning roller holder 33, and their vicinity is described in detail.
As illustrated in
As illustrated in
In addition, as illustrated in
In addition, as illustrated in
The aligning roller holder 33 is disposed so as to be inclined to the upstream side in the sheet discharge direction from a shaft insertion portion 33a described later toward its distal end, and it is swingable between a contact position (the position of
In addition, the aligning roller holder 33 is swung in the retracting direction (the counterclockwise direction in
Specifically, the aligning roller holder 33 has the shaft insertion portion 33a into which the rotation shaft 130 is inserted. The rotation shaft 130 is provided with the engaging pin 130a protruding in the radial direction. The engaging pin 130a penetrates the rotation shaft 130 in the radial direction. The shaft insertion portion 33a is provided with engaging grooves 33d that engage with the engaging pin 130a, and the engaging groove 33d has abutting walls 33b and 33c that face each other with a predetermined spacing in the rotation direction, sandwiching the engaging pin 130a. In other words, the aligning roller holder 33 is supported by the rotation shaft 130 with play in the rotation direction by a predetermined angle range.
When the rotation shaft 130 rotates in the counterclockwise direction in
The rotation shaft 130 is disposed at a predetermined rotation angle position in accordance with the number of the paper sheets P on the processing tray 30.
For instance, if there is no paper sheet P on the processing tray 30, when the rotation shaft 130 is rotated from the home position in the clockwise direction in
In addition, when the number of the paper sheets P on the processing tray 30 increases, the rotation shaft 130 is rotated in the counterclockwise direction in
Note that the engaging pin 130a is disposed with predetermined gaps to the abutting wall 33b and the abutting wall 33c, in the state where the aligning roller 32 contacts with the paper sheet stacking surface 30a of the processing tray 30 (the state of
The post-processing control unit 81 (see
The post-processing control unit 81 changes the rotation angle position of the rotation shaft 130 based on at least the number of the paper sheets P on the processing tray 30. In this example, the post-processing control unit 81 sets the rotation angle position of the rotation shaft 130 between the contact position and the retract position, based on thickness of the paper sheet stack on the processing tray 30 (total thickness of the paper sheets P), i.e. the number of the paper sheets P on the processing tray 30 and information about thickness of one paper sheet P.
Here, when the rear ends of the paper sheets P on the processing tray 30 is aligned, the rear end of the paper sheet P after passing the intermediate roller pair 27 and knocked off by the knock member (not shown) may contact with the aligning roller 32 or the aligning roller holder 33 as illustrated in
Accordingly, in this embodiment, if the number of the paper sheets P on the processing tray 30 is small when the aligning roller 32 contacts with the paper sheet stacking surface 30a or the upper surface of the paper sheet P (e.g. in the case of
Specifically, as illustrated in
On the other hand, if the number of the paper sheets P on the processing tray 30 is large (e.g. in the case of
Note that the gap S is a distance between a predetermined position of the engaging pin 130a and the abutting wall 33c. A value of the gap S may be defined by an angle between the engaging pin 130a and the abutting wall 33c, instead of the distance between the predetermined position of the engaging pin 130a and the abutting wall 33c.
Note that the post-processing control unit 81 gradually rotates the rotation shaft 130, so that the gap S between the engaging pin 130a and the abutting wall 33c (the play of the roller holder 33 in the retracting direction) is gradually increased, as the number of the paper sheets P on the processing tray 30 increases (e.g. every time when the number of paper sheets P is increased by approximately 10 to 20).
As described above, in this embodiment, the post-processing control unit 81 disposes the rotation shaft 130 at a predetermined rotation angle position, so that the play of the roller holder 33 in the retracting direction is smaller in the case where the number of the paper sheets P on the processing tray 30 is small, than in the case where the number of the paper sheets P is large, when the aligning roller 32 contacts with the paper sheet stacking surface 30a or the upper surface of the paper sheet P. In this way, when the number of the paper sheets P on the processing tray 30 is small, it is possible to decrease the angle of swinging when the rear end of the next paper sheet P contacts with the aligning roller 32 or the aligning roller holder 33 so as to push the aligning roller holder 33 upward. Therefore, it is possible to prevent the aligning roller 32 from strongly abutting the upper surface of the paper sheet P when the rear end of the next paper sheet P passes below the aligning roller holder 33 and the aligning roller holder 33 returns toward the contact position. In this way, it is possible to prevent the rear end part of the paper sheet P (a part between the aligning roller 32 and the stop part 30b) from bending due to an increase of the convey force applied to the paper sheet P, and hence it is possible to prevent occurrence of misalignment.
In addition, when the number of the paper sheets P on the processing tray 30 is large, the paper sheet stack is stiff, and hence the aligning roller 32 may excessively press the paper sheets P due to bending or the like of the paper sheet stack. In this embodiment, the play of the roller holder 33 in the retracting direction becomes larger in the case where the number of the paper sheets P on the processing tray 30 is large, than in the case where the number of the paper sheets P is small, and hence it is possible to prevent the aligning roller 32 from excessively pressing the paper sheets P.
In addition, as described above, the post-processing control unit 81 rotates the rotation shaft 130 so that the play of the roller holder 33 in the retracting direction gradually increases, as the number of the paper sheets P on the processing tray 30 increases. In this way, it is possible to set the play of the roller holder 33 in the retracting direction at an appropriate value in accordance with the number of the paper sheets P on the processing tray 30.
In addition, as described above, the shaft insertion portion 33a of the aligning roller holder 33 is provided with the abutting wall 33c, which is disposed to have the gap S to the engaging pin 130a when the aligning roller 32 abuts the upper surface of the topmost paper sheet P on the processing tray 30, and restricts swinging of the aligning roller holder 33 in the retracting direction. In this way, it is possible to easily restrict the swinging amount (angle of swinging) of the roller holder 33 caused by the rear end of the next paper sheet P.
In addition, as described above, the swinging mechanism 150 includes the light shielding member 136 that rotates together with the rotation shaft 130, and the angle detection sensor 140 that detects whether the optical path is open or blocked by the light shielding member 136, and the post-processing control unit 81 rotates the rotation shaft 130 in accordance with the detection result of the angle detection sensor 140. In this way, it is possible to easily dispose the rotation shaft 130 at a predetermined rotation angle position.
In addition, as described above, the post-processing control unit 81 disposes the rotation shaft 130 at a predetermined rotation angle position based on the information obtained by the receiving unit 82. In this way, the play of the roller holder 33 in the retracting direction can be easily set to an appropriate value.
Note that the embodiment disclosed in this specification is an example in every aspect and should not be interpreted as a limitation. The scope of the present disclosure is defined not by the above description of the embodiment but by the claims and should be understood to include all modifications within meaning and scope equivalent to the claims.
For instance, the embodiment described above shows the example in which the aligning roller 32 draws in the paper sheet P in the direction opposite to the conveying direction by the intermediate roller pair 27 (in the right direction in
In addition, the embodiment described above shows the example in which the roller (aligning roller) is used as the aligning member, but the present disclosure is not limited to this. It may be possible to use a paddle, a belt, or the like as the aligning member.
Number | Date | Country | Kind |
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JP2018-161569 | Aug 2018 | JP | national |
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Number | Date | Country | |
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20200071116 A1 | Mar 2020 | US |