This application is based on Japanese Patent Application No. 2013-30337 filed on Feb. 19, 2013, the contents of which are incorporated herein by reference.
1. Technical Field
The present invention relates to a post-processing apparatus that performs various post-processing operations on a center-folded booklet, and an image forming system including the post-processing apparatus.
2. Description of Related Arts
In recent years, post-processing apparatuses for performing various post-processing operations on a printed sheet output from an image forming apparatus, such as a printer or an MFP, have been increasing used. The term “post-processing operations” refers to, for example, an operation of center-folding a sheet (“folding operation”), an operation of binding a plurality of sheets with a staple (“stapling operation”), an operation of cutting an edge of a booklet (“cutting operation”), and an operation of forming a spine of a booklet (“square folding operation”), and the like.
Referring to
If a cutting operation is performed on the booklet B, which is clamped in a state in which the fold F has been displaced, a cut edge E of the booklet B becomes inclined with respect to the thickness direction, so that the appearance of the finished booklet B is not good (see
Regarding this problem, Japanese Unexamined Publication Nos. 2007-118518, 2010-195582, and 2010-241112 describe post-processing apparatuses that clamp a booklet with clamp members after pressing an end of the booklet against contact members of various types. However, even with such post-processing apparatuses, if the booklet is too strongly pressed against the contact member, the end of the booklet may become deformed, so that it is difficult to appropriately correct displacement of a fold. Japanese Unexamined Publication No. 2005-040890 describes a post-processing apparatus that clamps a portion of a booklet near an edge with clamp members. The post-processing apparatus can perform a cutting operation with high precision, but cannot correct displacement of a fold.
The present invention has been achieved to address the problems of existing technologies described above. One of the objects of the present invention is to provide a post-processing apparatus that can correct displacement of a fold in the thickness direction of a booklet that is clamped by clamped members for various post-processing operations, and an image forming system including the post-processing apparatus.
To achieve at least one of the above-mentioned objects, a post-processing apparatus reflecting one aspect of the present invention comprises a support member that supports a center-folded booklet by being inserted into the booklet along a fold of the booklet, a pair of clamp members that are disposed so as to face outer surfaces of the booklet supported by the support member and that clamp the booklet by moving closer to each other, and a post-processing mechanism that performs a post-processing operation on the booklet clamped by the pair of clamp members. The pair of clamp members clamp the booklet while moving relative to the booklet in a perpendicular direction so as to move away from the fold of the booklet, the perpendicular direction being a direction that is perpendicular to both of a clamp direction in which the pair of clamp members clamp the booklet and a direction in which the fold of the booklet supported by the support member extends.
Preferably, the pair of clamp members move relative to the booklet in the perpendicular direction by sliding along a pair of first guide surfaces that are inclined at an angle with respect to the clamp direction.
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description does not limit the scope of the invention and the meanings of the terms described in the claims.
As illustrated in
The sheet transport unit 11 includes a plurality of transport rollers 111, which are arranged horizontally along a straight line, and driving means (not shown) that drives the transport rollers 111. The sheet transport unit 11 transports a printed sheet P, which has been supplied through a sheet supply port O, along a transport path L by driving the transport rollers 111. The folding unit 12 is disposed downstream of the sheet transport unit 11 along the transport path L.
The folding unit 12 is disposed above the transport path L. The folding unit 12 includes a pair of folding rollers 121 that are pressed against each other, a sheet folding knife 122 that is vertically movable, and driving means (not shown) that drives the components of the folding unit 12. The folding unit 12 performs a folding operation on the sheet P, which is transported along the transport path L, in cooperation with the sheet transport unit 11.
Next, the folding rollers 121 rotate in such directions as to pull the sheet P into the nip (in the directions of arrows in
The stacking unit 13 is disposed below the folding unit 12. The stacking unit 13 has an upwardly convex shape corresponding to the shape of an inner surface of the folded sheet P. For example, the stacking unit 13 has a triangular-prism shape extending in a horizontal direction. The transport means successively transports the sheets P, and the sheets P are stacked on an upper surface of the stacking unit 13 in a “saddle-straddling” manner. A set of the sheets P that are stacked in this manner will be referred to as a “booklet B”. The binding unit 14 is a stapler for binding the booklet B placed on the stacking unit 13. Transport means (not shown) transports the booklet B, which is placed on the stacking unit 13, to the booklet transport unit 15.
The booklet transport unit 15 is disposed adjacent to the stacking unit 13. The booklet transport unit 15 includes a transport member 151, a slide member 152, and a slide rail 153 (see
The support unit 16 includes a pair of support members 161 and 162 and driving means (not shown) that drives the components of the support unit 16. The support unit 16 suspends the booklet B placed on the transport member 151 with the pair of support members 161 and 162, and, in this state, moves the support members 161 and 162 vertically upward. Thus, the booklet B is transported vertically upward and transferred to the clamp unit 17. In the present embodiment, the term “suspend” refers to an operation of supporting an inner surface of a folded booklet by inserting a member along the fold of the booklet. The same applies to a second embodiment described below.
Referring back to
(i) First, when the booklet transport unit 15 has transported the booklet B to a position directly below the clamp unit 17, the pair of support members 161 and 162 are inserted into the booklet B from both sides of the fold F. Thus, the booklet B is suspended. (ii) Next, the pair of support members 161 and 162, which are suspending the booklet B, move vertically upward. Thus, the booklet B is transported vertically upward and disposed so that an upper end portion of the booklet B is located between the pair of clamp members 171 and 172 (see
Referring back to
In the present embodiment, the term “clamp direction” refers to a direction in which the clamp members 171 and 172 move closer to each other when the clamp members 171 and 172 clamp the booklet B. The same applies to a second embodiment described below. In the example illustrated in
To be specific, in the present example, the support members 161 and 162 are stopped when the booklet B is clamped, and therefore the booklet B is fixed in place in the perpendicular direction. Then, because the clamp members 171 and 172 respectively slide diagonally downward along the guide surfaces 173a and 174a, the clamp members 171 and 172 clamp the booklet B while moving relative to the booklet B in the perpendicular direction.
The clamp members 171 and 172 according to the present example move relative to the booklet B so as to move away from the fold F of the booklet B in the perpendicular direction. Thus, an upward pressing force is applied to portions of the booklet B at which the support members 161 and 162 contact (the inner surface of) the booklet B, and a downward frictional force is applied to a portion of the booklet B at which the clamp members 171 and 172 contact (the outer surface of) the booklet B. Because such forces in opposite directions can be applied to the inner surface and the outer surface of the booklet B supported by the support unit 16, displacement of the fold F in the thickness direction can be corrected while clamping the booklet B (see
Referring back to
The spine forming unit 19 is disposed above the clamp unit 17. The spine forming unit 19 forms a back surface (spine) of the booklet B by moving a pressure roller (not shown) along the fold of the booklet B clamped by the clamp unit 17. Thus, an operation of square folding the booklet B is finished. During this operation, the back surface of the booklet B does not become deformed and the edge E of the booklet does not become inclined with respect to the thickness direction, because displacement of the fold F of the booklet B has been corrected. In the present example, the square folding operation is performed by moving the pressure roller back and forth in directions perpendicular to the plane of
The output unit 20 is disposed above the clamp unit 17. The output unit 20 includes output rollers 201 for outputting the booklet B and driving means (not shown) for driving the components of the output unit 20. The output unit 20 outputs the post-processed booklet B to the outside of the post-processing apparatus 1 by driving the output rollers 201.
Next, a modification of the clamp unit 17 according to the present embodiment will be described.
As illustrated in
The clamp members 171 and 172 according to the present modification first slide along the first guide surfaces 173a and 174a (see
Because a repulsive force of the booklet B clamped by the clamp members 171 and 172 (that is, a force that returning the booklet B to a state before being clamped) increases as the distance between the clamp members 171 and 172 decreases, a frictional force applied to the outer surface of the booklet B increases as the distance between the clamp members 171 and 172 decreases. With the present modification, the distance over which the clamp members 171 and 172 move in the perpendicular direction is relatively small when the distance between the clamp members 171 and 172 is small, that is, when the clamp members 171 and 172 slide along the second guide surfaces 173b and 174b. Thus, it is possible to reduce scratch marks made by the clamp members 171 and 172 on the outer surface of the booklet B.
As described above, the clamp members 171 and 172 according to the present embodiment clamp the booklet B while moving relative to the booklet B in the perpendicular direction so as to move away from the fold F of the booklet B. Thus, forces in opposite directions can be applied to the inner surface and the outer surface of the booklet B, so that displacement of the fold F in the thickness direction can be corrected while clamping the booklet B for various post-processing operations (see
Next, a second embodiment of the present invention will be described.
As illustrated in
As with the clamp members according to the first embodiment, the clamp members 171 and 172 according to the present embodiment move relative to the booklet B in the perpendicular direction so as to move away from the fold F of the booklet B. Thus, an upward pressing force is applied to portions of the booklet B at which the support members 161 and 162 contact (the inner surface of) the booklet B, and a downward frictional force is applied to a portion of the booklet B at which the clamp members 171 and 172 contact (the outer surface of) the booklet B. As with the clamp members according to the first embodiment, because such forces in opposite directions can be applied to the inner surface and the outer surface of the booklet B, displacement of the fold F in the thickness direction can be corrected while clamping the booklet B for various post-processing operations (see
The present invention is not limited to the embodiments described above and can be modified in various ways within the scope of the invention described in the claims. For example, in the embodiments described above, the pair of support members are inserted into the booklet B from both sides of the booklet B. Alternatively, a single support member may suspend a booklet by being inserted into the booklet from only one side of the booklet. In the embodiments described above, the booklet B is suspended vertically with plate-shaped support members that are disposed so as to extend perpendicular to a horizontal plane. Alternatively, the booklet B may be supported horizontally by using a substantially plate-shaped support member disposed along a horizontal plane (see,
Number | Date | Country | Kind |
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2013-030337 | Feb 2013 | JP | national |
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Number | Date | Country |
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2644547 | Oct 2013 | EP |
07179262 | Jul 1995 | JP |
2005-040890 | Feb 2005 | JP |
2007-118518 | May 2007 | JP |
2010-195582 | Sep 2010 | JP |
2010-241112 | Oct 2010 | JP |
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2013018633 | Jan 2013 | JP |
Entry |
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Japanese Office Action dated Jan. 27, 2015, issued in counterpart Japanese Application No. 2013-030337. |
Number | Date | Country | |
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20140234056 A1 | Aug 2014 | US |