The present application claims priority to and incorporates by reference the entire contents of Japanese Patent Application No. 2012-055978 filed in Japan on Mar. 13, 2012 and Japanese Patent Application No. 2012-257470 filed in Japan on Nov. 26, 2012.
1. Field of the Invention
The present invention relates generally to sheet processing apparatuses and image forming systems and, more particularly, to a sheet processing apparatus that performs predetermined processing, such as aligning and stapling, on a sheet member (e.g., sheet-like recording media in general, including recording sheets, transfer paper, and an OHP sheet) conveyed therein, and an image forming system including the sheet processing apparatus and an image forming apparatus.
2. Description of the Related Art
Known techniques of this sort are disclosed in Japanese Patent Application Laid-open No. 2007-153552, Japanese Patent Application Laid-open No. 2007-153605, and Japanese Patent Application Laid-open No. H11-180628. Of these, Japanese Patent Application Laid-open No. 2007-153552 discloses a sheet processing apparatus that includes, with the aim of offering a simple structure having one drive source and a wider range of choice of stapling positions, a stapling unit that staples sheet members conveyed therein, a unit that moves the stapling unit in a direction orthogonal to a sheet member conveying direction, and a single drive source that drives the unit for moving the stapling unit. The sheet processing apparatus disclosed in Japanese Patent Application Laid-open No. 2007-153552 further includes another unit that, during the process in which the moving unit moves the stapling unit, causes part of the stapling unit to abut against a protrusion formed at a predetermined position to thereby rotate the stapling unit.
Japanese Patent Application Laid-open No. 2007-153605 discloses a sheet processing apparatus that aims at achieving reduction in the size of the apparatus and space-saving, and guaranteeing high stapling quality. The sheet processing apparatus includes a first support member that abuts against an end portion of the sheet member upstream in a sheet member conveying direction during aligning of a sheet member, a second support member that supports other portions of the sheet member, and a sheet stapling unit that staples the sheet member. In the sheet processing apparatus disclosed in Japanese Patent Application Laid-open No. 2007-153605, the sheet stapling unit has a stapling direction that extends in parallel with a surface of the first support member in abutment with the end portion of the sheet member. The sheet processing apparatus further includes a rotating unit that moves the sheet stapling unit in a direction orthogonal to the sheet member conveying direction using a single drive source to thereby rotate the sheet stapling unit through a predetermined range. During the process in which the rotating unit moves the sheet stapling unit, the sheet stapling unit is rotated with part thereof made to abut against a protrusion formed at a predetermined position.
Japanese Patent Application Laid-open No. H11-180628 discloses a sheet post-processing apparatus that, with the aim of facilitating and expediting assembly adjustment and service procedures by simply constructing stapling process components of the sheet post-processing apparatus, performs a stapling process for sheets on which images have been formed conveyed from an image forming apparatus before discharging the sheets into a discharge tray using a discharging unit. The sheet post-processing apparatus disclosed in Japanese Patent Application Laid-open No. H11-180628 further includes a pair of staplers that perform a stapling process for the sheets of various sizes on which images have been formed, the staplers being configured to be driven for translation and rotation by a single drive source. For sheets of various small sizes, the staplers are translated for a stapling process in a width direction orthogonal to a sheet conveying direction and, for sheets of various large sizes, the staplers are translated and rotated for a stapling process. In addition, each of the staplers is rotated by a cam plate fixed to a sheet post-processing apparatus main unit and a cam follower fixedly mounted on the stapler.
The technique disclosed in Japanese Patent Application Laid-open No. 2007-153552 holds a stapler at an angular position for oblique stapling through hooking onto a claw. Hooking a heavy stapler onto the claw as described above poses a problem in that repeated hooking and unhooking operations cause sag, or in the worst case, break the claw. The technique also poses a problem in that the claw is unable to hold the weight of the stapler, if an aligning (stapler tray) angle is acute.
The technique disclosed in Japanese Patent Application Laid-open No. 2007-153605 holds a stapler at an angular position for oblique stapling with a spring. To hold the stapler at an angular position only with a spring, the spring needs to offer a high load capacity to sustain the weight of the stapler. This increases motor load required for changing posture through abutment, resulting in a problem of an additional need to increase motor current. If the aligning angle is acute, the spring load needs to be further increased, which increases motor load with a resultant further increase in current.
The technique disclosed in Japanese Patent Application Laid-open No. H11-180628 holds the stapler at an angular position for oblique stapling with a guide rail. The guide rail limits a range over which oblique stapling can be performed, defying stapling at a central position. This poses a problem of not being able to respond to users' needs.
There is therefore a need to enable reliable oblique stapling without involving increased motor current, enable stapling at a wide range from the center to end portions and enable oblique stapling of various sheet sizes.
It is an object of the present invention to at least partially solve the problems in the conventional technology.
A sheet processing apparatus includes: a stapling unit that staples a sheet member; a moving unit that linearly moves the stapling unit; a rotating unit that rotates the stapling unit by abutment of an abutting member against an abutted member when the stapling unit is moved; a holding unit that holds the stapling unit rotated; and a restricting member that restricts rotation of the stapling unit by abutting against the abutting member.
A sheet processing apparatus includes: a stapling unit that staples a sheet member; a moving unit on which the stapling unit is mounted via a rotatable first rotating member; a driving unit that linearly moves the moving unit; a rotatable second rotating member that is disposed in the moving unit, changes an orientation of the stapling unit in cooperation with the first rotating member, and includes an abutting member; a holding unit that holds the orientation of the stapling unit at a plurality of positions; an abutted member that changes the orientation of the stapling unit held by the holding unit via the second rotating member; and a restricting member disposed in parallel with a direction in which the stapling unit moves, the restricting member restricting the orientation of the stapling unit held by the holding unit.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
An arrangement according to one aspect of the present invention includes a plate-like restricting member disposed in a direction in parallel with a direction in which a stapler moves toward a position at which oblique stapling is performed. The restricting member functions to restrict an orientation of the stapler. The restricting member includes a plurality of restricting members disposed along the stapler moving direction. The stapler abuts against an abutted member and to be thereby rotated. This arrangement has a gap between the restricting member and the abutted member so that the stapler can smoothly move to a rear side or a front side of the restricting member after having been rotated upon abutment with the abutted member. An embodiment of the present invention will be described below with reference to the accompanying drawings.
The return roller 5 is disposed to face a sheet member placement surface of the staple tray 4T. The return roller 5 includes a roll 5a that conveys a sheet member and an arm 5b that supports the roll 5a and is rotatably supported by a pivot 5c. The jogger 6 includes a vertical portion that acts on an end face of the sheet member and a stacking portion on which the sheet member is stacked. In addition, the jogger 6 is formed in pairs to include a front jogger that aligns a front side of the sheet member and a rear jogger that aligns a rear side of the sheet member. The reference fence 7 aligns an end portion (rear end portion) of the sheet member in a sheet member discharging direction. The sheet member discharged onto the staple tray 4T or the jogger 6 is conveyed by the return roller 5 in a direction opposite to the discharging direction, so that a rear end portion of the sheet member is abutted against the reference fence 7, which constitutes an aligning operation.
The stapler 8 is disposed near the reference fence 7 and performs a stapling operation on a position in the sheet member aligned by the reference fence 7 near the rear end portion of the sheet member. The ejecting claw 9a is disposed so as to rise from an ejecting belt 9b. The ejecting belt 9b is an endless belt regulated across a drive pulley 9c and a driven pulley 9d. The ejecting claw 9a is disposed at a central portion in a width direction of the ejecting belt 9b. A bundle of sheet members advanced by the reference fence 7 up to a position at which the ejecting claw 9a can engage is pushed and ejected out onto the discharge tray 4 by the ejecting claw 9a as the ejecting belt 9b is driven.
An entrance sensor 33 disposed before the entrance rollers 3 detects that the sheet member discharged from the image forming apparatus 1 is conveyed into the sheet post-processing apparatus 2. Driving of the entrance rollers 3 is started with this detection signal used as a trigger. It is noted that the driving of the entrance rollers 3 may be started by a signal indicative of a sheet member being conveyed from the main unit of the image forming apparatus 1. The entrance sensor 33 is also used for jam detection when a sheet is stuck. The sheet member conveyed by the entrance rollers 3 is further conveyed by the pairs of 1st and 2nd carriage rollers 3a, 3b and thereafter discharged onto the discharge tray 4 or the staple tray 4T to be described later.
A stapler unit according to the embodiment of the present invention is characterized by:
The two characteristics will be described in more detail below. Referring to
The sector gear 19 is fixed to the stapler 8. The gear 17 includes an abutting portion 18 for changing the direction of the stapler 8. The abutting portion 18 is formed to have a size and to be disposed such that, when positioned as illustrated in
To set an angle of the stapler 8 with the gear 17, the gear 17 has a hole (slot) 40 formed therein and includes a cylindrical or spherical holding member 41 disposed in the hole 40. Referring to
The abutting portion 18 that forms part of the gear 17 and is disposed at one place has an abutting part formed into a curved surface so as to make rotation smooth upon abutment against an abutted member 24. The sector gear (first rotating member) 19 is rotatable about the shaft 38 of the slider 16 and has a rotary plane extending in parallel with the stapling reference surface of the stapler 8 as with the gear 17. The sector gear 19 functions similarly by having a hole at the position of the shaft 38 and inserting a cylindrical shaft formed integrally with, and to protrude from, the sector gear 19 into the hole. The sector gear 19 has a gear portion 19a in mesh with the gear portion 17a of the gear 17, so that rotation of the sector gear 19 transmits a rotational drive force to the gear 17, thereby rotating the gear 17. The 2nd shaft 38 is positioned with a predetermined positional relationship with a staple position (stapling position) of the stapler Thus, the staple position defines the position of the 2nd shaft 38.
Though the bracket 27 integrated with the sector gear 19 does not pose any structural problem, the bracket 27, which is subject to repeated removal from, and reinstallation to, the stapler bracket 28, is required to offer repeatability strength. In the embodiment of the present invention, it is advantageous in terms of cost to use resin for the gear portion 19a and metal for the bracket 27. To satisfy mechanical strength and cost, however, only resin or metal may be used to build an integrated unit. This similarly applies to the stapler bracket 28 and the stapler bracket 28 integrated with the stapler 8 does not pose any structural problem, either. Being required to offer strength, the stapler bracket 28 is formed of metal (with a plastic gear).
The stapler 8 is rotated integrally with the sector gear 19 about the 2nd shaft 38 on the slider 16 up to front and rear oblique stapling positions. The stapler 8 is not provided with any drive mechanism for rotation and is rotated through abutment of the abutting portion 18. The gear 17 and the sector gear 19 that are rotatable are thus disposed beneath the stapler 8. The stapler unit 8 fastened to the sector gear 19 is rotated through 45° each to the rear and to the front, a total of 90°. In the examples illustrated in
Referring back to
The abutting portion 18 abuts against the abutted member 24 to rotate the gear 17. The abutted member 24 is formed into a guide rail shape. As is known from
1st and 2nd plate-like members 25a, 25b as a characteristic part of the present invention are fixed between the front mounting surface 2a and the rear mounting surface 2b in a direction in parallel with the moving direction of the stapler 8. In addition, gaps are provided among the 1st and 2nd plate-like members 25a, 25b and the 1st to 3rd protrusions 24a, 24b, 24c: specifically, referring to
For alignment with reference to the center, the stapler 8 moves a distance corresponding to a predetermined number of pulses in accordance with the sheet size+a predetermined number of pulses for each sheet, or moves in a direction of a home position (HP: front of the apparatus) a distance corresponding to a predetermined number of pulses. The stapler 8 then waits at that position until a predetermined number of sheets are stacked and, when the predetermined number of sheet members are stacked, the stapler 8 performs a stapling process before a discharge by the ejecting claw 9a.
Positions of the 1st to 3rd protrusions 24a, 24b, 24c of the abutted member 24 are set such that, when the stapler 8 returns from the position illustrated in
For rear parallel stapling, operation to be started with the stapler 8 at the HP is as follows. Specifically, when the slider 16 moves in a direction of an arrow D (leftward) in
When the abutting portion 18 rotates to thereby leave the side wall 24b1 of the 2nd protrusion 24b (to be positioned outside the 2nd protrusion 24b), the gear 17 stops rotating, so that the stapler 8 is placed in an angle of parallel stapling (
During stapler movement, when a rear oblique stapling mode signal is received (the mode signal is transmitted to the sheet post-processing apparatus upon a copy start), the slider 16 moves from the position illustrated in
Referring to
The stapler 8 stops rotating when the abutting portion 18 leaves the side wall 24b2 of the 2nd protrusion 24b of the abutted member 24 onto the outside thereof. The stapler 8 is then placed at an angle of parallel stapling as illustrated in
Referring to
When the abutting portion 18 leaves the 3rd protrusion 24c, the stapler 8 is placed in a position 45° rotated in a direction opposite to that in a HP standby position. The stapler 8 thereafter moves in the HP direction a distance corresponding to a predetermined number of pulses to a position set according to the sheet size. During this process, the sheet member is conveyed in a condition of being centrally aligned and each sheet member conveyed onto the staple tray 4T is aligned by the jogger 6. It is noted that, in
Rear oblique stapling is performed when the abutting portion 18 is positioned on the inside of the 3rd protrusion 24c or the 2nd plate-like member 25b. This prevents the holding member 41 from overcoming the spring force to thereby slip off from the hole 40c resulting in the stapler 8 angle being changed, even when the staple tray 4T is angled at 30° as in the embodiment of the present invention.
For front oblique stapling, a stapler drive unit rotates for a predetermined number of pulses upon receipt of a front oblique stapling mode signal. At this time, the stapler 8 at the HP, while keeping the oblique position, moves a distance corresponding to the number of pulses toward the rear and stops (
The front oblique stapling is also performed, as illustrated in
For front parallel stapling, the stapler drive unit moves the stapler, upon receipt of a front parallel stapling mode signal, until the stapler is placed into the parallel stapling angle position (number of pulses) (the condition as illustrated in
Control of the sheet post-processing apparatus 2 illustrated in
Referring to
These steps are repeated up to a last sheet of a set (Step S104). After the last sheet of the set is jogged (Step S105), the stapler 8 performs a stapling operation (Step S106). The steps from Step 5103 to Step 5106 are repeated up to a last set (Step S107). When processing for the last set is then completed, the stapler 8 is moved back to the HP (Step S108) and the processing is completed.
An arrangement may also be made to cause the CPU of the image forming apparatus 1 to perform these steps.
The embodiment of the present invention achieves effects such as:
A correspondence between each element of the claims and each component of the embodiment will now be described. The stapling unit in the claims corresponds to the stapler 8 in the embodiment. The first rotating member in the claims corresponds to the sector gear 19 in the embodiment. The moving unit in the claims corresponds to the slider 16 in the embodiment. The driving unit in the claims corresponds to the motor 23 with pulleys and the timing belt 21 in the embodiment. The abutting member in the claims corresponds to the abutting portion 18 in the embodiment. The second rotating member in the claims corresponds to the gear 17 in the embodiment. The holding unit in the claims corresponds to the hole 40 and the holding member 41 in the embodiment. The abutted member in the claims corresponds to what is collectively denoted 24 (protrusions 24a, 24b, 24c) in the embodiment. The restricting member in the claims corresponds to the 1st and 2nd plate-like members 25a, 25b in the embodiment. The gap in the claims corresponds to the 1st to 4th gaps 25a1, 25a2, 25b1, 25b2 in the embodiment. The first holding position in the claims corresponds to the parallel stapling position in the embodiment, and the second and third holding positions in the claims correspond to the oblique stapling positions in the embodiment. The image forming system in the claim corresponds to the system including the image forming apparatus 1 and the sheet post-processing apparatus 2.
The embodiment enables reliable oblique stapling without involving increased motor current, enables stapling at a wide range from the center to end portions and enables oblique stapling of various sheet sizes.
Although the invention has been described with respect to specific embodiments for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
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2012-055978 | Mar 2012 | JP | national |
2012-257470 | Nov 2012 | JP | national |
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