JP3765206B2 - Image forming apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image forming apparatus having image memory means for storing digital image data and forming an image on a recording medium based on the image data in the image memory means. More specifically, the present invention relates to an image forming apparatus mounted on an image forming system having a bookbinding function.
[0002]
[Prior art]
Conventionally, in an image forming system having a bookbinding function, sheets after image formation are appropriately stacked, and the stacked sheet bundle is conveyed to a post-processing position such as stapling by a sheet bundle conveying device. A bundle of sheets is bound by stapling or the like. Specifically, as shown in FIG. 21, images of the first page and the last page (N page) are formed on the back of the sheet, and the second page and the last -1 page (N-1 page) are formed on the front. The book is made by sequentially collecting and stacking and folding the center of the sheet in a binding manner.
[0003]
[Problems to be solved by the invention]
However, in the bookbinding technique in the conventional image forming apparatus, the limit of the number of documents that can be bound is determined by the limit that the sheet can be saddle stitched. For example, consider the limit number of documents that can be bound in the case shown in FIG. In this case, if the limit on the number of sheets that can be saddle-stitched is 15, four pages of images are formed on both sides of one sheet, so the maximum number of documents that can be bound is 15 × 4 = 60. Therefore, in order to increase the maximum number of originals that can be bound, it is sufficient to increase the limit at which saddle stitching can be performed on a sheet on which an image is formed. However, in order to raise the limit of the saddle stitching process, an improvement such as mounting a powerful stapling device is required, which causes a problem of increasing costs.
[0004]
Accordingly, the present invention has been made to solve the above-described problems, and an image forming apparatus capable of increasing the maximum number of documents that can be bound without changing the maximum number of sheets that can be saddle stitched. The issue is to provide.
[0005]
[Means for Solving the Problems]
According to the image forming apparatus of the present invention made to solve the above problems, image data of a document is stored in a memory together with a page number, and an image is formed on a recording medium based on the stored image data. In the image forming apparatus, two sets of two page images with consecutive page numbers are arranged on both sides of the recording medium, and the recording medium is saddle-stitched. The images for two pages with consecutive page numbers are arranged in half of the recording medium, and the next page number for the next page number is continuous on the back side of the half of the recording medium. Image layout means for determining an image layout so that the images are arranged in the order of page numbers.
[0006]
In this image forming apparatus, the image layout unit arranges two sets of images of two pages having consecutive page numbers on each side of the recording medium, and the recording medium is saddle-stitched. The images for two pages with consecutive page numbers are arranged in half of the recording medium, and the next page number for the next page number is continuous on the back side of the half of the recording medium. The images are laid out so that the images are arranged in the order of page numbers. Then, according to this layout, image formation is performed on the recording medium. As a result, since 2 × 4 = 8 pages of images are formed on one recording medium, it is possible to increase the maximum number of documents that can be bound without changing the limit of the saddle stitching process.
[0007]
The image forming apparatus according to the present invention includes a document counting unit that counts the number of documents, and a recording member supply number determining unit that determines the number of recording members to be supplied based on a counting result of the document counting unit. The image layout unit corrects the number of documents based on the determined number of sheets supplied by the recording medium supply number determining unit, and a blank image is arranged for the number of pages corresponding to the difference between the corrected number of documents and the counting result of the document counting unit. It is preferable to do.
[0008]
In this image forming apparatus, the number of documents is counted by the document counting means. Further, the number of recording mediums to be supplied is determined by the recording body supply number determining means based on the counting result of the document counting means. Then, the number of documents is corrected by the image layout means based on the determined number of sheets supplied by the recording medium supply number determining means, and blank images are arranged for the number of pages corresponding to the difference between the corrected number of documents and the counting result of the document counting means. Is done. Thus, even when the number of originals is not a multiple of 8, two sets of two page images with consecutive page numbers are arranged on both sides of the recording medium, and the recording medium is placed in the middle. The images are laid out so that the images are arranged in the order of page numbers in the bound state.
[0009]
The image forming apparatus according to the present invention further includes an input unit that inputs information about a page turning direction, and the image layout unit determines an image layout in consideration of input information to the input unit. It is preferable.
[0010]
Here, the information about page turning is information about whether the bookbinding product is right-opening or left-opening. If the original for performing the bookbinding process is a vertically long original, the book that has been right-opened is left-opened when the book is processed upside down, so that information on right-opening and left-opening is unnecessary. However, if the original for performing the bookbinding process is a horizontally long original, the order of image formation (layout) when performing the bookbinding process differs between right-opening and left-opening. For this reason, if there is no input information regarding the right opening and the left opening, only one of the right opening and the left opening bookbinding processing can be performed. Therefore, it is provided with an input means for inputting right-opening or left-opening information, and in the layout processing by the image layout means, the input information to the input means is also taken into consideration, so that even a horizontally long document is bound to be right-opened. Processing and left-open bookbinding processing can be performed.
[0011]
The image forming apparatus according to the present invention further includes an image rotation unit that rotates the image data of the document stored in the memory, and the image layout unit is based on the image data processed by the image rotation unit. It is preferable to determine the layout of the image.
[0012]
This image forming apparatus includes an image rotation unit that rotates image data of a document stored in a memory. Therefore, regardless of the orientation of the original image data stored in the memory, the orientation of the image data is always rotated in an appropriate direction by the image rotating means. Then, based on the image data rotated by the image rotation means, image layout processing by the image layout means is executed. As a result, even when the operator sets the original in the wrong direction, an accurate image layout is performed.
[0013]
In the image forming apparatus according to the present invention, it is also preferable that the image rotation unit determines an image rotation direction based on information input to the input unit.
[0014]
In the image layout in the right-open bookbinding process and the left-open bookbinding process, the rotation direction of the image data of the document is different. For this reason, in this image forming apparatus, the rotation direction of the image data by the image rotation unit is determined based on the input information to the input unit. Thus, appropriate image data rotation processing is performed in both the right-open bookbinding process and the left-open bookbinding process.
[0015]
The image forming apparatus according to the present invention preferably further includes document shape determining means for automatically determining whether the document is a portrait document or a landscape document.
[0016]
As described above, since the document shape determining means for automatically determining whether the document is a portrait document or a landscape document is provided, it is not necessary for the operator to input the document shape. As a result, the bookbinding process can be performed with a simpler operation.
[0017]
Furthermore, in the image forming apparatus according to the present invention, it is preferable that the image rotation unit determines an image rotation direction in consideration of a determination result of the document shape determination unit.
[0018]
In the image layout process in the bookbinding process, the rotation direction of the image data of the document differs depending on whether the document is a portrait document or a landscape document. Therefore, in this image forming apparatus, the rotation direction of the image data by the image rotation unit is determined in consideration of the determination result of the document shape determination unit. As a result, appropriate image data rotation processing is performed for both a vertically long document and a horizontally long document.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments embodying an image forming apparatus of the present invention will be described below in detail with reference to the drawings. The present embodiment is a copier equipped with an image forming apparatus according to the present invention. The copying machine is equipped with a post-processing device (hereinafter referred to as “finisher”).
[0020]
The copying machine 10 according to the present embodiment reproduces an image of a document on a sheet. As shown in FIG. 1, a scanning system 810 and an automatic document feeder 850 that read an image of the document, or obtained by reading. An image processing unit 820 that handles the image data, an optical system 860 and an image forming system 870 for creating an image based on the image data and outputting the image on a sheet, a sheet conveying system 880 for supplying the sheet, and the like. The paper transport system 880 is provided with a front / back reversing unit 881 that reverses the front and back of the paper after image formation for duplex printing. In addition, a discharge port 10 b is provided for discharging the sheet after image formation toward the finisher 1.
[0021]
As shown in FIG. 2, the image processing unit 820 includes an image memory 821 for storing image data, a sheet supply number determination unit 825 for determining the number of sheets to be supplied from the sheet conveyance system 880, and a copy document as a portrait document (portrait document). ) Or a landscape original (landscape original), a character recognizing unit 822, an image rotating unit 823 for rotating the direction of the original image, and an image layout unit 824 for determining the layout of image formation on the recording medium. Yes.
[0022]
In addition, an operation panel OP for inputting an entire operation instruction including the finisher 1 is provided in the upper part of the copier 10. As shown in FIG. 3, the operation panel OP is provided with a start button op1 for instructing the start of copying, a numeric keypad op2 for inputting numerical values such as the number of copies, and a touch panel op3 for performing detailed settings such as copy density and magnification. . Further, a select key op4 and its display lamps op4a to op4f for designating how to bind the sheets after copying (form of bookbinding processing), a select key op5 for designating how to fold the sheet after copying and its display lamps Op5a to op5c, a select key op6 for performing stapling instructions and punching instructions, and display lamps op6a, op6b, and the like are provided. The bookbinding process according to the present invention is executed by selecting the 2-in-1 saddle stitching mode with the select key op4 (the display lamp op4f is turned on).
[0023]
As shown in FIG. 1, the finisher 1 attached to the copier 10 is broadly divided into a receiving port 60 for receiving paper from the copier 10, and is creased or folded as necessary according to the paper received from the receiving port 60. A paper folding unit 2 that performs the above processing, a stacking unit 11 that stacks and aligns the sheets that have passed through the paper folding unit 2, and a sorting unit 4 that stores sheets bundled in the stacking unit 11 or sheets that have passed through the paper folding unit 2. And have.
[0024]
A conveyance path 63 is provided between the receiving port 60 and the stacking unit 11 to guide sheets to the stacking unit 11 when a staple process or a bookbinding process is selected. Further, a conveyance path 65 that leads the sheet directly to the sorting unit 4 when such processing is not selected is provided to branch from the conveyance path 63. A conveyance path 66 is provided between the stacking unit 11 and the sorting unit 4 to guide the sheet bundle stacked in the stacking unit 11 to the sorting unit 4. A stapling machine 3 that performs stapling is provided between the conveyance path 66 and the stacking unit 11. Further, between the stapling machine 3 and the stacking unit 11, a sheet bundle transporting unit 5 that transports the sheet bundle stacked in the stacking unit 11 is provided. The sheet bundle conveying unit 5 is also for conveying a sheet bundle to a predetermined staple position in order to perform staple processing such as leading edge binding, trailing edge binding, and saddle stitching by the stapler 3.
[0025]
Subsequently, the operation will be described. In the copying machine 10, the originals are conveyed one by one by the automatic document conveying device 850 and are read by the scanning system 810. Then, the obtained image data is subjected to image processing such as shading correction and other image quality corrections and, if necessary, electric scaling processing by the image processing unit 820. Then, a toner image is created by the optical system 860 and the image forming system 870 in accordance with the image data after image processing. The toner image is transferred onto the paper supplied from the paper transport system 880. When the toner image is fixed on the paper, the original image is reproduced on the paper. The sheet is appropriately printed on both sides through the front / back reversing unit 881 and then discharged from the discharge port 10b, enters the receiving port 60 of the finisher 1, and performs paper folding processing, stapling processing, bookbinding processing, etc. according to the mode selected by the operator. Is given.
[0026]
Here, the operation when performing saddle stitch binding, which is a feature of the present invention, will be described. In this embodiment, a case where 16 A4 size originals are bound is described as an example.
[0027]
First, a case where a portrait original is bound is described. The operator sets a document on the automatic document feeder 850 as shown in FIG. 4 and selects 2-in-1 saddle stitching with the select key op4 of the operation panel OP. Next, a message is displayed on the touch panel op3 asking for a selection as to which bookbinding process is to be performed, left open or right open. When the operator completes the setting and presses the start button op1, the documents set on the automatic document feeder 850 are sequentially read one by one by the scanning system 810, and image memory 821 provided in the image processing unit 820 as image data. Is remembered. From the image data stored in the image memory 821, the character recognition unit 822 recognizes that the copy original is a portrait original. Further, based on the result of counting the number of documents by the automatic document feeder 850, the sheet supply number determination unit 825 determines the number of sheets necessary for the bookbinding process.
[0028]
The operator may input that the copy original is a portrait original or the number of originals. Based on these pieces of information, the image layout unit 824 determines the order of image formation (layout) for bookbinding processing, and image formation is performed as described below.
[0029]
First, the case of binding leftward as shown in FIG. 5 will be described. FIG. 5 shows an image formed on both sides of A3 size sheets P1 and P2, and after binding sheets P1 and P2 with saddle stitching, the book is folded and folded. That is, a total of four sets of originals, that is, eight sets of original images, are formed on one sheet of paper (two in 1) with two originals with pages adjacent to each other. Further, “n” in FIG. 5 represents the final page of bookbinding, and n = 16 in the present embodiment.
[0030]
In this embodiment, when an image is formed on eight A4 size originals on one A3 size paper, that is, when the bookbinding size (paper size in a folded state) is set to the same A4 size as the original. However, it is also possible to allow the operator to arbitrarily select the bookbinding size. For example, it is possible to perform processing such as forming an image of an A4 size original on an A4 size paper, or forming an image of a B5 size original on a B4 size original.
[0031]
First, four pages of document images are formed on the paper P1. That is, as shown in FIG. 6B, the original images of the n-1 (15) th page and the n (16) page are rotated 90 degrees counterclockwise by the image rotating unit 823, and n-1 (15) An image is formed on the left half of the sheet in a state where the original of the page is in 2 in 1 so that it is on the lower side in the figure. Subsequently, the original images of the first and second pages are rotated 90 degrees counterclockwise and 2 in 1 (the first page is the lower side in the figure) is formed on the right half of the paper P1. . Thus, the first image formation on the paper P1 is completed, and four pages of original images are formed on one side thereof.
[0032]
Then, after the paper P1 on which four pages of original images are formed on one side passes through the front / back reversing portion 881, the original images of the first and second pages are formed as shown in FIG. The document images of the third page and the fourth page are formed on the back surface. Subsequently, the original images of the n-3 (13) th page and the n-2 (14) th page are formed on the back surface on which the original images of the n-1 (15) th page and the n (16) th page are formed. It is formed. As a result, eight pages of original images are formed on both sides of the paper P1.
[0033]
Thereafter, the sheet P1 having images formed on both sides is discharged from the discharge port 10b and enters the receiving port 60 of the finisher 1. Then, the paper P1 is carried into the paper folding section 2, where an opening crease is made at the center of the paper. The sheet P1 with the open crease is temporarily accumulated in the accumulation unit 11 through the conveyance path 63.
[0034]
Also on the paper P2, as shown in FIG. 7, the original images of the 7th and 8th pages are formed on the back side of the original images of the 5th and 6th pages, and n-5 (11) pages. The original images of the n-7 (9) th page and the n-6 (10) th page are formed on the back surfaces of the original image of the first and n-4 (12) pages. Thereafter, the paper P2 is processed in the same manner as the paper P1, and is stacked on the stacking unit 11.
[0035]
Then, the sheets P1 and P2 stacked on the stacking unit 11 are conveyed to a position where saddle stitching by the stapling machine 3 is performed by the sheet bundle conveying unit 5 in an overlapped state. Next, stapling is performed at the center of the sheet by the stapling machine 3 and saddle stitching is performed. Thereafter, the saddle-stitched sheets P1 and P2 enter the conveyance path 66 by the conveyance roller pair 661 and are conveyed to the sorting unit 4.
[0036]
As described above, when the number of originals is a multiple of 8, image formation can be performed without a blank page. However, if the number of documents is not a multiple of 8, a blank page is generated. In such a case, image layout processing is performed according to the procedure described below.
[0037]
When the document is set on the automatic document feeder 850, it is sequentially read one by one by the scanning system 810 and stored in the image memory 821 as image data. Further, the number n of documents set by the automatic document feeder 850 is counted. The operator may input the number of documents from the operation panel OP. Next, the sheet supply number determination unit 825 calculates the number of sheets Pk to be supplied from the sheet conveyance system 880. The calculation of the number of sheets Pk is, for example, Pk = 1 if the number of originals n is n = 1 to 8, and Pk = 2 if n = 9 to 16. Further, as described above, the character recognizing unit 823 and the image rotating unit 823 execute the necessary image rotation processing.
[0038]
Then, layout processing by the image layout unit 824 is executed. First, the number of images (number of pages) m to be formed on a sheet supplied from the sheet conveying system 880 from the sheet supply number Pk is calculated by the following equation.
m = Pk × 8
As a result, it is recognized that the number of documents to be subjected to image layout is m. That is, the number of documents is corrected from n to m. A blank image is laid out on mn pages of m originals.
[0039]
For example, if the number of documents is n = 20, Pk = 3 and m = 24 are calculated. Accordingly, blank images are arranged on the four pages from the 21st page to the 24th page. That is, as shown in FIG. 8, images of 23 and 24 pages that are blank images and 1 and 2 pages of the original are formed on the surface of the paper P1. Also, on the back side of the paper P1, images of 21 and 22 pages, which are blank images, and pages 3 and 4 of the original are formed.
[0040]
As shown in FIG. 9, images of pages 19 and 20 of the original and pages 5 and 6 of the original are formed on the surface of the paper P2. On the back surface of the paper P2, images of pages 17 and 18 and pages 7 and 8 of the document are formed. As shown in FIG. 10, images of pages 15 and 16 of the document and pages 9 and 10 of the document are formed on the surface of the sheet P3. On the back side of the paper P2, images of pages 13 and 14 and pages 11 and 12 of the document are formed.
[0041]
As described above, even when the number of documents is not a multiple of 8, images are appropriately laid out on the sheets P1 to P3 supplied from the sheet conveyance system 880. Then, the image forming system 870 performs image formation on the sheets P1 to P3 according to this image layout. Thereafter, the sheets P <b> 1 to P <b> 3 stacked on the stacking unit 11 are conveyed to a position where saddle stitching by the stapling machine 3 is performed by the sheet bundle conveying unit 5 in an overlapped state. Next, stapling is performed at the center of the sheet by the stapling machine 3 and saddle stitching is performed. Then, the saddle-stitched sheets P <b> 1 to P <b> 3 enter the conveyance path 66 by the conveyance roller pair 661 and are conveyed to the sorting unit 4.
[0042]
Next, a case where bookbinding is performed in a right-open manner as shown in FIG. 11 will be described. In the following description, the case where the number of documents n = 16 is illustrated for the sake of simplicity. In addition, an example of forming an image of an A4 size original on one A3 size paper, that is, a case where the bookbinding size (paper size in a folded state) is set to the same A4 size as the original is illustrated. If n = 16 (except when n is a multiple of 8), the same processing as described above is executed.
[0043]
First, the original images of the first and second pages are formed on the paper P1. That is, as shown in FIG. 12B, the read original image is rotated 90 degrees clockwise by the image rotating unit 823, and the 2-page 1 original is placed on the lower side in the figure so that the original of the second page is the lower side in the figure. An image is formed on the left half. Subsequently, the original image of the (n−1) (15) th page and the n (16) th page is rotated 90 degrees clockwise by 2 in 1 on the right half of the sheet P1 (the nth page is the lower side in the figure). Formed).
[0044]
Then, the sheet P1 on which four pages of document images are formed on one side passes through the front / back reversing unit 881, and then, as shown in FIG. 12A, the n-1 (15) th page and the n (16) ) On the back side where the original image of the page is formed, the original images of the n-3 (13) th page and the n-2 (14) page are formed. Subsequently, the original images of the third and fourth pages are formed on the back surface on which the original images of the first and second pages are formed. As a result, eight pages of original images are formed on both sides of the paper P1.
[0045]
Thereafter, the sheet P1 having images formed on both sides is discharged from the discharge port 10b and enters the receiving port 60 of the finisher 1. Then, the paper P1 is carried into the paper folding section 2, where an opening crease is made at the center of the paper. The sheet P1 with the open crease is temporarily accumulated in the accumulation unit 11 through the conveyance path 63.
[0046]
Further, as shown in FIG. 13, the image formation pattern of the paper P2 is such that the original images of the seventh and eighth pages are formed on the back side of the original images of the fifth and sixth pages, and n-5 (11). The original images of the n-7 (9) th page and the n-6 (10) th page are formed on the back side of the original image of the page and the n-4 (12) page. Thereafter, the paper P2 is processed in the same manner as the paper P1, and is stacked on the stacking unit 11.
[0047]
Then, the sheets P1 and P2 stacked on the stacking unit 11 are conveyed to a position where saddle stitching by the stapling machine 3 is performed by the sheet bundle conveying unit 5 in an overlapped state. Next, stapling is performed at the center of the sheet by the stapling machine 3 and saddle stitching is performed. Thereafter, the saddle-stitched sheets P1 and P2 enter the conveyance path 66 by the conveyance roller pair 661 and are conveyed to the sorting unit 4.
[0048]
Next, a case where a landscape document is bound is described. The operator sets a document on the automatic document feeder 850 as shown in FIG. 14, and selects 2-in-1 saddle stitching with the select key op4 of the operation panel OP. Next, a message is displayed on the touch panel op3 asking for a selection as to which bookbinding process is to be performed, left open or right open. When the operator completes the setting and presses the start button op1, the documents set on the automatic document feeder 850 are sequentially read one by one by the scanning system 810, and image memory 821 provided in the image processing unit 820 as image data. Is remembered. From the image data stored in the image memory 821, the character recognition unit 822 recognizes that the copy original is a landscape original. Further, the sheet supply number determination unit 825 determines the number of sheets necessary for the bookbinding process.
[0049]
The operator may input that the copy original is a landscape original. Based on these pieces of information, the image layout unit 824 determines the order of image formation (layout) for bookbinding processing, and image formation is performed as described below.
[0050]
First, the case of binding leftward as shown in FIG. 15 will be described. Four pages of original images are first formed on the paper P1. That is, as shown in FIG. 16B, the original images of the (n-1) th page and the n (16) th page are rotated 90 degrees clockwise by the image rotating unit 823, and n (16) An image is formed on the left half of the sheet in a state where the original of the page is in 2 in 1 so that the original on the lower side in the figure. Subsequently, the original images of the first and second pages are rotated 90 degrees clockwise and 2 in 1 (the second page is the lower side in the figure) is formed on the right half of the paper P1. Thus, four pages of document images are formed on one side of the paper P1.
[0051]
Then, after the paper P1 on which four pages of original images are formed on one side passes through the front / back reversing portion 881, the original images of the first and second pages are formed as shown in FIG. The document images of the third page and the fourth page are formed on the back surface. Subsequently, the original images of the n-3 (13) th page and the n-2 (14) th page are formed on the back surface on which the original images of the n-1 (15) th page and the n (16) th page are formed. It is formed. As a result, eight pages of original images are formed on both sides of the paper P1.
[0052]
Thereafter, the sheet P1 having images formed on both sides is discharged from the discharge port 10b and enters the receiving port 60 of the finisher 1. Then, the paper P1 is carried into the paper folding section 2, where an opening crease is made at the center of the paper. The sheet P1 with the open crease is temporarily accumulated in the accumulation unit 11 through the conveyance path 63.
[0053]
Further, as shown in FIG. 17, the image formation pattern on the paper P2 is such that the original images of the seventh and eighth pages are formed on the back side of the original images of the fifth and sixth pages, and n-5 (11). The original images of the n-7 (9) th page and the n-6 (10) th page are formed on the back side of the original image of the page and the n-4 (12) page. Thereafter, the paper P2 is processed in the same manner as the paper P1, and is stacked on the stacking unit 11.
[0054]
Then, the sheets P1 and P2 stacked on the stacking unit 11 are conveyed to a position where saddle stitching by the stapling machine 3 is performed by the sheet bundle conveying unit 5 in an overlapped state. Next, stapling is performed at the center of the sheet by the stapling machine 3 and saddle stitching is performed. Thereafter, the saddle-stitched sheets P1 and P2 enter the conveyance path 66 by the conveyance roller pair 661 and are conveyed to the sorting unit 4.
[0055]
Next, description will be made regarding the case of binding rightward as shown in FIG. On the paper P1, first and second page original images are formed. That is, as shown in FIG. 19B, the read original image is rotated 90 degrees clockwise by the image rotation unit 823, and the original of the second page is 2 in 1 so that the original is on the lower side in the figure. An image is formed on the left half. Subsequently, in the right half of the paper P1, the original images of the (n-1) th (15) th page and the (n16) th page are rotated 90 degrees clockwise and 2 in 1 (the nth page is the lower side in the figure). Is formed).
[0056]
Then, the sheet P1 on which four pages of document images are formed on one side passes through the front / back reversing unit 881, and then, as shown in FIG. 19A, the n-1 (15) th page and the n (16) ) On the back side where the original image of the page is formed, the original images of the n-3 (13) th page and the n-2 (14) page are formed. Subsequently, the original images of the third and fourth pages are formed on the back surface on which the original images of the first and second pages are formed. As a result, eight pages of original images are formed on both sides of the paper P1.
[0057]
Thereafter, the sheet P1 having images formed on both sides is discharged from the discharge port 10b and enters the receiving port 60 of the finisher 1. Then, the paper P1 is carried into the paper folding section 2, where an opening crease is made at the center of the paper. The sheet P1 with the open crease is temporarily accumulated in the accumulation unit 11 through the conveyance path 63.
[0058]
Further, as shown in FIG. 20, the image formation pattern of the paper P2 is such that the original images of the seventh and eighth pages are formed on the back side of the original images of the fifth and sixth pages, and n-5 (11). The original images of the n-7 (9) th page and the n-6 (10) th page are formed on the back side of the original image of the page and the n-4 (12) page. Thereafter, the paper P2 is processed in the same manner as the paper P1, and is stacked on the stacking unit 11.
[0059]
Then, the sheets P1 and P2 stacked on the stacking unit 11 are conveyed to a position where saddle stitching by the stapling machine 3 is performed by the sheet bundle conveying unit 5 in an overlapped state. Next, stapling is performed at the center of the sheet by the stapling machine 3 and saddle stitching is performed. Thereafter, the saddle-stitched sheets P1 and P2 enter the conveyance path 66 by the conveyance roller pair 661 and are conveyed to the sorting unit 4.
[0060]
As described above in detail, according to the copier according to the present embodiment, the image forming position (layout) of the original image is changed by the right-open bookbinding process or the left-open bookbinding process. A document image for eight pages is formed on the sheet. Accordingly, it is possible to increase the limit number of documents that can be bound without changing the limit number of saddle stitching processes. That is, if the limit number of saddle stitching processes is m, bookbinding can be performed up to m × 8 sheets.
[0061]
It should be noted that the above-described embodiment is merely an example and does not limit the present invention in any way, and various improvements and modifications can be made without departing from the scope of the invention. For example, in the above embodiment, an image for 8 pages is formed on one recording medium, but by increasing the number of images (pages) to be formed on one recording medium, a document that can be further bound is processed. The limit number can be increased.
[0062]
【The invention's effect】
As described above, according to the image forming apparatus of the present invention, it is possible to increase the limit number of documents that can be bound without changing the limit number of saddle stitching processes.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a copier and a finisher according to an embodiment.
FIG. 2 is a schematic configuration diagram of an image processing unit in FIG. 1;
FIG. 3 is an explanatory diagram showing an operation panel of a copier.
FIG. 4 is an explanatory diagram for explaining a state in which a portrait document is set on an automatic document feeder.
FIG. 5 is an explanatory diagram showing a bookbinding process of a portrait document that is left-opened.
6 is an explanatory diagram for explaining the image layout of the paper P1 in the bookbinding product shown in FIG. 5, in which (A) shows a case where the image on the paper P1 is viewed from the direction of arrow A in FIG. FIG. 5B shows a case where the image on the paper P1 is viewed from the direction of arrow B in FIG.
7 is an explanatory diagram for explaining an image layout of the paper P2 in the bookbinding product shown in FIG. 5, in which (A) shows a case where the image on the paper P2 is viewed from the direction of arrow A in FIG. (B) shows the case where the image on the paper P2 is viewed from the direction of arrow B in FIG.
FIG. 8 is an explanatory diagram for explaining an image layout of a sheet P1 in a case where 20 originals are bound.
FIG. 9 is an explanatory diagram for explaining the image layout of the paper P2 in the same manner.
FIG. 10 is also an explanatory diagram for explaining an image layout of a sheet P3.
FIG. 11 is an explanatory diagram illustrating a portrait document that has been bound to the right and opened.
12 is an explanatory diagram for explaining the image layout of the paper P1 in the bookbinding product shown in FIG. 11, and (A) shows a case where the image on the paper P1 is viewed from the direction of arrow A in FIG. (B) shows the case where the image on the paper P1 is viewed from the direction of arrow B in FIG.
13 is an explanatory diagram for explaining an image layout of the paper P2 in the bookbinding product shown in FIG. 11, and (A) shows a case where an image on the paper P2 is viewed from the direction of arrow A in FIG. (B) shows a case where the image on the paper P2 is viewed from the direction of arrow B in FIG.
FIG. 14 is an explanatory diagram for explaining a setting state of a landscape document on an automatic document feeder.
FIG. 15 is an explanatory diagram showing a landscape original that has been bound and left-opened.
16 is an explanatory diagram for explaining the image layout of the paper P1 in the bookbinding product shown in FIG. 15, (A) shows a case where the image on the paper P1 is viewed from the direction of arrow A in FIG. (B) shows the case where the image on the paper P1 is viewed from the direction of arrow B in FIG.
17 is an explanatory diagram for explaining the image layout of the paper P2 in the bookbinding product shown in FIG. 15, (A) shows a case where the image on the paper P2 is viewed from the direction of arrow A in FIG. (B) shows the case where the image on the paper P2 is viewed from the direction of arrow B in FIG.
FIG. 18 is an explanatory diagram showing a landscape original that has been bound and opened to the right.
FIG. 19 is an explanatory diagram for explaining the image layout of the paper P1 in the bookbinding product shown in FIG. 18. FIG. 19A shows a case where the image on the paper P1 is viewed from the direction of arrow A in FIG. (B) shows a case where an image on the paper P1 is viewed from the direction of arrow B in FIG.
20 is an explanatory diagram for explaining an image layout of the paper P2 in the bookbinding product shown in FIG. 18, (A) shows a case where the image on the paper P2 is viewed from the direction of arrow A in FIG. (B) shows a case where the image on the paper P2 is viewed from the direction of arrow B in FIG.
FIG. 21 is an explanatory diagram showing a bookbinding process performed by a conventional technique.
[Explanation of symbols]
1 Finisher
2 Paper folding section
3 Staple machine
10 Automatic document feeder
820 Image processing unit
821 Image memory
822 Character recognition part
823 Image rotation unit
824 Image layout section
825 Paper supply number determination unit
860 optical system
870 imaging system
880 Paper transport system
OP Operation panel

Claims (7)

In an image forming apparatus that stores image data of a document together with page numbers in a memory, and forms an image on a recording body based on the stored image data.
Two sets of images with two consecutive page numbers are arranged on both sides of the recording medium, and two pages of consecutive page numbers are recorded with the recording medium being saddle stitched. And an image layout means for determining an image layout so that images of two pages having consecutive next page numbers are arranged in order of page numbers on the back side of the half of the recording body. Image forming apparatus. The image forming apparatus according to claim 1,
Document counting means for counting the number of documents,
Recording body supply number determining means for determining the number of recording bodies to be supplied based on the counting result of the document counting means;
The image layout unit corrects the number of documents based on the determined number of sheets supplied by the recording medium supply number determination unit, and a blank image is arranged for the number of pages corresponding to the difference between the corrected number of documents and the counting result of the document counting unit. An image forming apparatus. The image forming apparatus according to claim 1 or 2,
Having an input means for inputting information about the page turning direction;
The image forming apparatus, wherein the image layout unit determines an image layout in consideration of input information to the input unit. The image forming apparatus according to claim 1 or 2,
Image rotation means for rotating the image data of the document stored in the memory;
The image forming apparatus, wherein the image layout unit determines an image layout based on the image data processed by the image rotation unit. The image forming apparatus according to claim 4.
Having an input means for inputting information about the page turning direction;
The image forming apparatus, wherein the image rotation unit determines an image rotation direction based on information input to the input unit. The image forming apparatus according to claim 4 or 5, wherein:
An image forming apparatus comprising: a document shape determining unit that automatically determines whether a document is a portrait document or a landscape document. The image forming apparatus according to claim 5.
The image forming apparatus, wherein the image rotation unit determines an image rotation direction in consideration of a determination result of the document shape determination unit.

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