This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2016-066617 filed Mar. 29, 2016.
The present invention relates to a binding processing apparatus and an image forming system.
According to an aspect of the invention, a binding processing apparatus includes a pair of pressing members each including a concave-convex portion configured to form a concave part and a convex part in a recording material bundle. The concave-convex portion includes protrusion portions. A side surface of each protrusion portion is inclined so that the protrusion portion is widened from an apex of the protrusion portion. The side surfaces of the protrusion portions of a first pressing member that is one of the pressing members and the side surfaces of the protrusion portions of a second pressing member that is the other of the pressing members intersect with each other during pressing when viewed in a column direction of the protrusion portions.
Exemplary embodiments of the present invention will be described in detailed based on the following figures, wherein:
Hereinafter, exemplary embodiments of the invention will be described in detail with reference to the accompanying drawings.
The image forming system 1 illustrated in
The image forming device 2 includes a sheet supply unit 5 that supplies a sheet S on which an image is to be formed, and an image forming unit 6 that forms an image on the sheet S supplied from the sheet supply unit 5.
Further, the image forming device 2 includes a sheet reversing device 7 that reverses the surface of the sheet S on which an image has been formed by the image forming unit 6, and a discharge roll 9 that discharges the sheet S formed with the image thereon.
Further, the image forming device 2 includes a user interface 90 that receives information about the binding processing from a user.
The sheet processing device 3 includes a conveyer 10 that conveys the sheet S output from the image forming device 2 further to a downstream side, and a post-processing device 30.
Further, the sheet processing device 3 includes a controller 80 that controls the entire image forming system 1.
The conveyer 10 includes entrance rolls 11, which are a pair of rolls, and a puncher 12. The entrance rolls 11 receive the sheet S output through the discharge rolls 9 of the image forming device 2. The puncher 12 punches the sheet S received by the entrance rolls 11 as needed.
Further, the conveyer 10 includes first conveyance rolls 13 that are a pair of rolls configured to convey the sheet S further to the downstream side of the puncher 12, and second conveyance rolls 14 that are a pair of rolls configured to convey the sheet S toward the post-processing device 30.
The post-processing device 30 includes reception rolls 31 that are a pair of rolls configured to receive the sheet S conveyed from the conveyer 10.
Further, the post-processing device 30 includes a compiling stack unit 35 and exit rolls 34 that are a pair of rolls. The compiling stack unit 35 is provided at the downstream side of the reception rolls 31 and collects and accommodates plural sheet S thereon. The exit rolls 34 discharge the sheets S toward the compiling stack unit 35.
Further, the post-processing device 30 includes a paddle 37 that is rotated to cause the sheets S to be pressed and pushed toward an end guide 35b (to be described later) of the compiling stack unit 35, a tamper 38 configured to align the ends of the sheets S, and ejection rolls 39. The ejection rolls 39 press the sheets S accumulated on the compiling stack unit 35 and are rotated thereby conveying a sheet bundle as an example of a bound recording material bundle.
Further, the post-processing device 30 is equipped with a needle-free binding processing apparatus 50 that binds the end of the sheet bundle accumulated on the compiling stack unit 35. In the present exemplary embodiment, the needle-free binding processing apparatus 50 is disposed at one end side of the compiling stack unit 35 in the longitudinal direction thereof (at the side provided with the end guide 35b to be described later).
Further, the post-processing device 30 includes a housing 30A that accommodates therein the above-described respective members. The housing 30A includes an opening 69. The opening 69 is provided to discharge the sheet bundle bound by the needle-free binding processing apparatus 50 to the outside of the post-processing device 30 by the ejection roll 39.
Further, the post-processing device 30 includes a stack unit 70 that superimposes thereon the sheet bundle discharged from the opening 69 of the housing 30A such that the user may easily take the sheet bundle.
As illustrated in
Further, the compiling stack unit 35 is provided with the end guide 35b. The end guide 35b aligns the distal ends of the sheets S moving along the bottom unit 35a in the moving direction (the sheets S moving in the direction S2 in
The paddle 37 is disposed above the compiling stack unit 35 and at the downstream side in the direction S1 in
When the paddle 37 is rotated clockwise in
The tamper 38 is provided at each of one end side of the compiling stack unit 35 in the width direction thereof (in the direction intersecting with the moving direction S2 in
The ejection rolls 39 are provided with a first ejection roll 39a and a second ejection roll 39b.
The first ejection roll 39a and the second ejection roll 39b are arranged to be opposite to each other via the bottom unit 35a of the compiling stack unit 35.
The first ejection roll 39a is provided on the front surface of the compiling stack unit 35 (the surface on which the sheets S are stacked).
The second ejection roll 39b is provided on the rear surface of the compiling stack unit 35 (the surface opposite to the surface on which the sheets S are stacked).
The first ejection roll 39a and the second ejection roll 39b are driven by, for example, a motor (not illustrated) in a state of being in contact with the sheets S to be rotated in the direction of the arrow R2 of
As illustrated in
The upper pressing member 51 is provided to be movable forward and backward (see the arrows D1 and D2 in
The upper pressing member 51 is provided with an upper base portion 53 and an upper concave-convex portion 54 that protrudes from the upper base portion 53. The upper concave-convex portion 54 is provided to extend along one direction (in the direction of the arrow 3A in
Further, the upper concave-convex portion 54 is provided with plural upper convex portions 54a and plural of upper concave portions 54b.
The plural upper convex portions 54a are arranged side by side in the longitudinal direction of the upper concave-convex portion 54.
Further, the upper convex portions 54a protrude downwardly from the surface 53a of the upper base portion 53. The upper convex portions 54a are formed along the short length direction of the upper concave-convex portion 54 (the direction intersecting with the longitudinal direction of the upper concave-convex portion 54).
Each of the upper concave portions 54b is formed between two adjacent upper convex portions 54a in the longitudinal direction of the upper concave-convex portion 54. In addition, the upper convex portions 54a and the upper concave portions 54b are alternately arranged in the longitudinal direction of the upper concave-convex portion 54.
The lower pressing member 52 is provided with a lower base portion 57 and a lower concave-convex portion 58 that protrudes from the lower base portion 57. The lower concave-convex portion 58 is provided to extend along the longitudinal direction of the upper concave-convex portion 54.
Further, the lower concave-convex portion 58 is provided with plural lower convex portions 58a and plural lower concave portions 58b.
The upper convex portions 54a and the lower convex portions 58a are exemplary protrusion portions. The upper concave portions 54b and the lower concave portions 58b are exemplary valley portions.
The plural lower convex portions 58a are arranged side by side in the longitudinal direction of the lower concave-convex portion 58.
Further, the lower convex portions 58a protrude upwardly from the surface 57a of the lower base portion 57. The lower convex portions 58a are formed along the short length direction of the lower concave-convex portion 58 (the direction intersecting with the longitudinal direction of the lower concave-convex portion 58).
Each of the lower concave portions 58b is formed between two adjacent lower convex portions 58a in the longitudinal direction of the lower concave-convex portion 58. In addition, the lower convex portions 58a and the lower concave portions 58b are alternately arranged in the longitudinal direction of the lower concave-convex portion 58.
When the upper concave-convex portion 54 of the upper pressing member 51 meshes with the lower concave-convex portion 58 of the lower pressing member 52 via the sheet bundle B (see
Accordingly, the respective sheets S of the sheet bundle B (mutually adjacent sheets S within the sheet bundle B) are pressed and bound to each other.
In addition, as illustrated in
Further, the upper convex portion 54a is provided with an upper left side wall 54d at one end side in the longitudinal direction thereof.
The upper left side wall 54d is connected to the upper apex 54c of the upper convex portion 54a at the lower end side thereof in
The upper left side wall 54d is inclined to approach the central portion side of the upper convex portion 54a in the longitudinal direction thereof as the distance from the surface 53a of the upper base portion 53 increases. In other words, the lateral surface of one end side of the upper convex portion 54a in the longitudinal direction thereof is inclined such that the upper convex portion 54a is widened toward the surface 53a of the upper base portion 53 from the upper apex 54c.
Further, the upper convex portion 54a is provided with an upper right side wall 54e at the other end side of the upper convex portion 54a in the longitudinal direction thereof.
The upper right side wall 54e is connected to the upper apex 54c at the lower end side thereof in
The upper right side wall 54e is inclined to approach the central portion side of the upper convex portion 54a in the longitudinal direction thereof as the distance from the surface 53a of the upper base portion 53 increases. In other words, the lateral surface of the other end side of the upper convex portion 54a in the longitudinal direction thereof is inclined such that the upper convex portion 54a is widened toward the surface 53a of the upper base portion 53 from the upper apex 54c.
Further, the upper pressing member 51 is provided with a left upper apex side intersection 54f at one end side of the upper convex portion 54a in the longitudinal direction thereof. The left upper apex side intersection 54f is located at a position where a straight line L1 extending along the longitudinal direction of the upper convex portion 54a, as a straight line passing through the upper apex 54c and the upper left side wall 54d intersect with each other.
Further, the upper pressing member 51 is provided with a right upper apex side intersection 54g at the other end side of the upper convex portion 54a in the longitudinal direction thereof. The right upper apex side intersection 54g is located at a position where the straight line L1 and the upper right side wall 54e intersect with each other.
Further, the upper pressing member 51 is provided with a left upper base portion side intersection 54h at one end side of the upper convex portion 54a in the longitudinal direction thereof. The left upper base portion side intersection 54h is located at a position where the upper left side wall 54d and the surface 53a of the upper base portion 53 intersect with each other.
Further, the upper pressing member 51 is provided with a right upper base portion side intersection 54i at the other end side of the upper convex portion 54a in the longitudinal direction thereof. The right upper base portion side intersection 54i is located at a position where the upper right side wall 54e and the surface 53a of the upper base portion 53 intersect with each other.
Next, the lower pressing member 52 will be described.
A lower convex portion 58a of the lower pressing member 52 is provided with a lower apex 58c at the upper end side thereof in
Further, the lower convex portion 58a is provided with a lower left side wall 58d at one end side of the lower convex portion 58a in the longitudinal direction thereof.
The lower left side wall 58d is connected to the lower apex 58c of the lower convex portion 58a at the upper end side thereof in
The lower left side wall 58d is inclined to approach the central portion side of the lower convex portion 58a in the longitudinal direction thereof as the distance from the surface 57a of the lower base portion 57 increases. In other words, the lateral surface of one end side of the lower convex portion 58a in the longitudinal direction thereof is inclined such that the lower convex portion 58a is widened toward the surface 57a of the lower base portion 57 from the lower apex 58c.
Further, the lower convex portion 58a is provided with a lower right side wall 58e at the other end side of the lower convex portion 58a in the longitudinal direction thereof.
The lower right side wall 58e is connected to the lower apex 58c at the upper end side thereof in
The lower right side wall 58e is inclined to approach the central portion side of the lower convex portion 58a in the longitudinal direction thereof as the distance from the surface 57a of the lower base portion 57 increases. In other words, the lateral surface of the other end side of the lower convex portion 58a in the longitudinal direction thereof is inclined such that the lower convex portion 58a is widened toward the surface 57a of the lower base portion 57 from the lower apex 58c.
Further, the lower pressing member 52 is provided with a left lower apex side intersection 58f at one end side of the lower convex portion 58a in the longitudinal direction thereof. The left lower apex side intersection 58f is located at a position where a straight line L2 extending along the longitudinal direction of the lower convex portion 58a, as a straight line passing through the lower apex 58c, and the lower left side wall 58d intersect with each other.
Further, the lower pressing member 52 is provided with a right lower apex side intersection 58g at the other end side of the lower convex portion 58a in the longitudinal direction thereof. The right lower apex side intersection 58g is located at a position where the straight line L2 and the lower right side wall 58e intersect with each other.
Further, the lower pressing member 52 is provided with a left lower base portion side intersection 58h at one end side of the lower convex portion 58a in the longitudinal direction thereof. The left lower base portion side intersection 58h is located at a position where the lower left side wall 58d and the surface 57a of the lower base portion 57 intersect with each other.
Further, the lower pressing member 52 is provided with a right lower base portion side intersection 58i at the other end side of the lower convex portion 58a in the longitudinal direction thereof. The right lower base portion side intersection 58i is located at a position where the lower right side wall 58e and the surface 57a of the lower base portion 57 intersect with each other.
In the present exemplary embodiment, the position of the left upper apex side intersection 54f is aligned with the position of the left lower apex side intersection 58f in the longitudinal direction of the upper convex portion 54a.
In addition, the position of the right upper apex side intersection 54g is aligned with the position of the right lower apex side intersection 58g in the longitudinal direction of the upper convex portion 54a.
In the present exemplary embodiment, the position of the left upper base portion side intersection 54h is aligned with the position of the left lower base portion side intersection 58h in the longitudinal direction of the upper convex portion 54a.
In addition, the position of the right upper base portion side intersection 54i is aligned with the position of the right lower base portion side intersection 58i in the longitudinal direction of the upper convex portion 54a.
In the present exemplary embodiment, the left upper apex side intersection 54f is located closer to the central portion side of the upper convex portion 54a in the longitudinal direction thereof than the left lower base portion side intersection 58h.
In addition, the right upper apex side intersection 54g is located closer to the central portion side of the upper convex portion 54a in the longitudinal direction thereof than the right lower base portion side intersection 58i.
The left lower apex side intersection 58f is located closer to the central portion side of the lower convex portion 58a in the longitudinal direction thereof than the left upper base portion side intersection 54h.
In addition, the right lower apex side intersection 58g is located closer to the central portion side of the lower convex portion 58a in the longitudinal direction thereof than the right upper base portion side intersection 54i.
As illustrated in
Thereafter, as illustrated in
When the upper apex 54c arrives at a lower side of the lower apex 58c, the upper left side wall 54d and the lower left side wall 58d intersect with each other when seen from the front side of the paper surface of
As the upper left side wall 54d and the lower left side wall 58d intersect with each other, an area A1 pressing the sheet bundle B is generated in the upper left side wall 54d. Further, an area A2 pressing the sheet bundle B is generated in the lower left side wall 58d.
As the upper right side wall 54e and the lower right side wall 58e intersect with each other, an area A3 pressing the sheet bundle B is generated in the upper right side wall 54e. Further, an area A4 pressing the sheet bundle B is generated in the lower right side wall 58e.
As a result, the portion of the sheet bundle B pressed by the upper convex portion 54a is widened in the longitudinal direction of the upper convex portion 54a. Here, in the present exemplary embodiment, since a portion of the upper left side wall 54d and a portion of the upper right side wall 54e, in addition to the upper apex 54c, are also adapted to press the sheet bundle B, the portion of the sheet bundle B pressed by the upper convex portion 54a is widened in the longitudinal direction of the upper convex portion 54a.
Likewise, the portion of the sheet bundle B pressed by the lower convex portion 58a is widened in the longitudinal direction of the lower convex portion 58a. Additionally, since a portion of the lower left side wall 58d and a portion of the lower right side wall 58e, in addition to the lower apex 58c, are also adapted to press the sheet bundle B, as in the upper convex portion 54a, the portion of the sheet bundle B pressed by the lower convex portion 58a is widened in the longitudinal direction of the lower convex portion 58a.
Subsequently, as illustrated in
Accordingly, the range of the area A1 of the upper left side wall 54d, which presses the sheet bundle B, is further widened. The range of the area A2 of the lower left side wall 58d, which presses the sheet bundle B, is also further widened. The range of the area A3 of the upper right side wall 54e, which presses the sheet bundle B, is also widened. The range of the area A4 of the lower right side wall 58e, which presses the sheet bundle B, is also widened.
As a result, the portion of the sheet bundle B pressed by the upper convex portion 54a is further widened in the longitudinal direction of the upper convex portion 54a. In addition, the portion of the sheet bundle B pressed by the lower convex portion 58a is further widened in the longitudinal direction of the lower convex portion 58a.
Then, in the present exemplary embodiment, when the upper pressing member 51 reaches a predetermined position, the binding processing of the sheet bundle B is ended.
In the present exemplary embodiment, when the binding processing is started, the upper apex 54c of the upper convex portion 54a first presses the sheet bundle B. Further, the lower apex 58c of the lower convex portion 58a presses the sheet bundle B.
Here, in the present exemplary embodiment, when the upper apex 54c presses the sheet bundle B, a load may be easily concentrated in the portion of the sheet bundle B pressed by the left upper apex side intersection 54f and the portion of the sheet bundle B pressed by the right upper apex side intersection 54g.
In addition, when the lower apex 58c presses the sheet bundle B, a load may be easily concentrated in the portion of the sheet bundle B pressed by the left lower apex side intersection 58f and the portion of the sheet bundle B pressed by the right lower apex side intersection 58g.
Then, when the upper pressing member 51 further moves downwardly in the state in which the load is concentrated in this way, a damage to the sheet bundle B may occur at the portions of the sheet bundle B pressed by the left upper apex side intersection 54f, the right upper apex side intersection 54g, the left lower apex side intersection 58f, and the right lower apex side intersection 58g.
In contrast, in the present exemplary embodiment, as described above, the portions of the sheet bundle B pressed by the upper pressing member 51 and the lower pressing member 52 are gradually widened in the direction that the upper convex portion 54a extends and in the direction that the lower convex portion 58a extends, according to the further movement of the upper pressing member 51.
As a result, the load acting on the sheet bundle B is distributed so that a damage to the sheet bundle B is difficult to occur.
In addition, in the exemplary embodiment, as illustrated in
Accordingly, the load acting on the specific portions of the sheet bundle B is mitigated.
Here, for example, when the side walls of the upper convex portion 54a and the side walls of the lower convex portion 58a do not intersect with each other at the time of the binding, a load easily intensively acts on the specific portions of the sheet bundle B.
In the configuration illustrated in
In this configuration, a load easily intensively acts on the portion of the sheet bundle B (not illustrated) pressed by the left upper apex side intersection 54f, and for example, a sheet damage easily occurs at the portion.
In the configuration illustrated in
In other words, in the configuration illustrated in
In contrast, in the configuration in which the upper left side wall 54d and the lower left side wall 58d intersect with each other as in the present exemplary embodiment, the area of the wall portion located at each of the opposite sides of the left upper apex side intersection 54f is reduced, as illustrated by the reference numeral 6A in
In this case, the escape space of the portion of the sheet bundle B pressed by the left upper apex side intersection 54f is easily provided so that the load acting on the pressed portion is mitigated. Further, in this case, a sheet damage is also difficult to occur.
Here, in the present exemplary embodiment, the intersection relationship between the side walls (the upper left side wall 54d and the upper right side wall 54e) of the upper convex portion 54a and the side walls (the lower left side wall 58d and the lower right side wall 58e) of the lower convex portion 58a is continued until the binding is ended as illustrated in
Accordingly, the occasion that a load intensively acts on the specific portions of the sheet bundle B is difficult to occur, compared to the configuration in which the intersection relationship of the side walls is terminated during the binding.
In the present exemplary embodiment, as illustrated in
In this case, the load acting on the sheet bundle B is distributed to the left upper apex side intersection 54f and the left lower apex side intersection 58f. When the position of the left upper apex side intersection 54f and the position of the left lower apex side intersection 58f are not aligned with each other (when the positions are not aligned with each other in the longitudinal direction of the upper convex portion 54a), the contact pressure between one of the apex side intersections and the sheet bundle B may become larger than the contact pressure between the other apex side intersection and the sheet bundle B. In this case, a sheet damage or the like may occur at the side where the contact pressure is relatively high.
In contrast, when the positions of the two apex side intersections are aligned with each other as in the present exemplary embodiment, the load is distributed to the apex side intersections so that a damage to the sheet bundle B is difficult to occur.
In addition, the other end side of the upper convex portion 54a in the longitudinal direction thereof is also the same as described above, and the position of the right upper apex side intersection 54g and the position of the right lower apex side intersection 58g are aligned with each other.
As illustrated in
Further, as illustrated in
Thus, in this exemplary configuration as well, a load intensively acting on a portion of the sheet bundle B is suppressed as described above.
In this exemplary configuration, with respect to an upper opening angle a of the upper recess 54b and a lower apex angle b of the lower convex portion 58a, the following relationship is established: the upper opening angle a>the lower apex angle b.
Here, the upper opening angle a is an angle formed by a side surface of the upper convex portion 54a and a side surface of another adjacent upper convex portion 54a.
Further, the lower apex angle b is an angle formed by one side surface of the lower convex portion 58a and the other side surface thereof.
In this exemplary configuration, an acting load per unit area as a load acting on the sheet bundle B increases, compared to a case where the upper opening angle a and the lower apex angle b are equal to each other.
In this case, a reduction of the load required for the binding of the sheet bundle B can be implemented.
The foregoing description of the exemplary embodiments of the present invention has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
Number | Date | Country | Kind |
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2016-066617 | Mar 2016 | JP | national |
Number | Name | Date | Kind |
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8845258 | Mori | Sep 2014 | B2 |
8983362 | Nakamura | Mar 2015 | B2 |
9102492 | Saito | Aug 2015 | B2 |
9254621 | Takahashi | Feb 2016 | B2 |
9315356 | Yoshida | Apr 2016 | B2 |
20120148372 | Mori | Jun 2012 | A1 |
20150076759 | Kosuge | Mar 2015 | A1 |
Number | Date | Country |
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104444548 | Mar 2015 | CN |
2010208854 | Sep 2010 | JP |
5080691 | Nov 2012 | JP |
2014121865 | Jul 2014 | JP |
2015-024891 | Feb 2015 | JP |
2011018897 | Feb 2011 | WO |
Entry |
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Communication dated Dec. 27, 2016, from the Japanese Patent Office in counterpart Japanese application No. 2016-066617. |
Communication dated Oct. 11, 2016, from the Japanese Patent Office in counterpart application No. 2016-066617. |
Communication dated May 23, 2018 from the State Intellectual Property Office of the P.R.C. in counterpart application No. 201610810901.6. |
Communication dated Nov. 1, 2018, issued by the State Intellectual Property Office of the P.R.C. in corresponding application No. 201610810901.6. |
Number | Date | Country | |
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20170285549 A1 | Oct 2017 | US |