JP6022653B2 - Image processing device - Google Patents

Description

  The present invention relates to an image forming apparatus that reads a document set in a document feeding unit, such as an ADF (Auto Sheet Feeder), and outputs the read document image data, and in particular, a document of a document set in a document feeding unit. The present invention relates to an image processing apparatus having a function of determining a set direction.

  Since the document bundle set in the document feeding section does not always have the same top direction, the document setting direction of each page is automatically determined based on the read document image data. A technique has been proposed in which the original image data of each page is rotated as necessary based on the result, and the upper side of the original image data is automatically aligned upward (see, for example, Patent Documents 1 and 2). .

  The document set orientation determination process is generally performed on the basis of the layout of directional characters and page notation, etc., and only a photo or illustration document or a white document is included in the document bundle. In such a case, the orientation of the original may not be determined or may be erroneously determined, and a photo or illustration-only original may have an upper side different from other pages. For example, as shown in FIG. 7, if the third page is a document with only photos and illustrations, and the orientation of the original cannot be determined or is erroneously determined, it is rotated in any direction by the rotation process. The possibility of being rotated in the correct direction is about ¼.

  Therefore, when the document setting direction cannot be determined, a technique for determining the document setting direction with reference to the back side (see, for example, Patent Document 3), only the document setting direction of the first page is determined, and A technique for performing the same rotation processing on document image data of all pages based on a determination result has been proposed (see, for example, Patent Document 4).

Japanese Patent Laid-Open No. 06-103410 JP-A-11-120321 Japanese Patent Laid-Open No. 06-225053 Japanese Patent Laid-Open No. 2003-110829

However, as in Patent Document 3, when the orientation of the original is determined with reference to the back side, it is effective for an original set with the front and back wrong or an original printed on both sides. There is a problem that a single-sided document with only an illustration cannot be handled, and the amount of work for determining the orientation of the document increases.
Further, as in Patent Document 4, when the same rotation processing is performed on the original image data of all pages based on the determination result of the first page, the work amount of the original orientation determination processing can be reduced. In the original bundle, when the orientation of the image of some pages is different from the images of other pages, there is a problem that only the page has an upper side different from the other pages. For example, as shown in FIG. 8, when the document setting direction of the fourth page is the upper side and is different from the upper left side of the first page in the document setting direction, the document image data of the fourth page is the first That is, it is rotated 90 ° to the right of the page No. 4, and the original image data of the fourth page is different on the upper side.

  In view of the above problems, an object of the present invention is to solve the problems of the prior art, reduce the work amount of the document orientation determination process, and can correctly align the upper side of a document whose document set orientation cannot be determined. It is to provide a processing apparatus.

An image processing apparatus according to the present invention is an image processing apparatus including a document feeding unit that sequentially transports a set document and a document reading unit that reads a document image of a document conveyed by the document feeding unit. From the setting of the first document setting direction of the document set on the document feeding means , either the upper side is set to the back side or the upper side is set to the left side, the second document setting direction setting is set . Based on the document set direction accepting means for accepting each of the upper side set to the back, the upper side set to the left, the upper side set to the lower side, and the upper side set to the right side, and the original image data read by the original reading unit The original set on the original feeding means is only in two directions, the first original setting direction and the second original setting direction received by the original setting direction receiving means. A document setting direction determining unit that determines the document setting direction of the document, and an image processing unit that performs rotation processing of document image data read by the document reading unit. The image processing unit includes the document setting direction determining unit. It characterized the TURMERIC line rotation processing of the original image data based on the determination result by.
Further, in the image processing apparatus of the present invention, the image processing means rotates based on the first original set orientation received by the original set orientation accepting means when the judgment by the original set orientation judging means is impossible. Processing may be performed.
Further, in the image processing apparatus of the present invention, the document setting direction determining means performs OCR processing on the document image data rotated in the first document setting direction and the second document setting direction, respectively. The literacy rate is calculated for each direction, and if the literacy rate is less than a predetermined value in any direction, it is determined that the determination is impossible, and the literacy rate is determined in any one or more directions. If the value is greater than or equal to the value, the direction with the highest literacy rate may be determined as the document set direction.
Further, in the image processing apparatus of the present invention, the document set orientation accepting unit may accept any one of the three document orientation settings other than the first document set orientation as the second document set orientation setting. good.

  According to the present invention, since the document set orientation is determined in advance in only two directions, the amount of work for the document orientation determination process per page can be reduced, and the document set orientation cannot be determined. However, there is an effect that the upper side can be correctly aligned by matching the orientation of the original on most pages.

1 is an external perspective view showing a configuration of an embodiment of an image forming apparatus according to the present invention. 1 is a schematic cross-sectional view showing an internal configuration of an embodiment of an image forming apparatus according to the present invention. FIG. 3 is a block diagram showing a schematic configuration of the copying machine shown in FIGS. 1 and 2. 5 is a flowchart for explaining a document setting direction correcting operation in the embodiment of the image forming apparatus according to the present invention. It is a figure which shows the example of a setting screen displayed on the liquid crystal display part of the operation part shown in FIG. FIG. 5 is an explanatory diagram for explaining a document setting direction correcting operation in the embodiment of the image forming apparatus according to the present invention. FIG. 10 is an explanatory diagram for explaining a conventional document setting direction correcting operation. FIG. 10 is an explanatory diagram for explaining a conventional document setting direction correcting operation.

Next, embodiments of the present invention will be specifically described with reference to the drawings.
An image forming apparatus 1 according to the present embodiment is an apparatus for forming an image such as a copying machine, a scanner, or a multifunction machine. Referring to FIG. 1, a document reading unit 2, a document feeding unit 3, and a main body unit 4. And an operation unit 5. The document reading unit 2 is disposed on the top of the main body unit 4, and the document feeding unit 3 is disposed on the top of the document reading unit 2.

  On the front side of the image forming apparatus 1, an operation unit 5 for setting and operating instructions of the image forming apparatus 1 is disposed. The operation unit 5 is provided with a liquid crystal display unit 51 and operation buttons 52. The user operates the operation unit 5 to input an instruction, thereby performing various settings of the image forming apparatus 1 and executing various functions such as image formation. The liquid crystal display unit 51 displays the state of the image forming apparatus 1, displays the image forming status and the number of copies, and can be used as a touch panel to perform various settings such as functions such as double-sided printing and black-and-white reversal, magnification setting, and density setting. It has become. The operation button 52 includes a start button for instructing the user to start image formation, a stop / clear button for use when stopping image formation, and various settings of the image forming apparatus 1 that are used for default settings. A reset button, a numeric keypad and the like are provided.

  Referring to FIG. 2, the document reading unit 2 includes a scanner 21, a platen glass 22, and a document reading slit 23. The scanner 21 includes a light source 24 using an LED (Light Emitting Diode) and a light receiving unit 25 including a CCD (Charge Coupled Device) line sensor, a CMOS (Complementary Metal Oxide Semiconductor) line sensor, and the like. The unit 3 is configured to be movable in the conveyance direction of the document MS. The document reading slit 23 is a slit formed in a direction orthogonal to the transport direction of the document MS by the document feeding unit 3.

  The document feeding unit 3 includes a document placement unit 31, a document discharge unit 32, and a document transport mechanism 33. The document MS set on the document placement unit 31 is sequentially fed out one by one by the document transport mechanism 33, transported to a position facing the document reading slit 23, and then discharged to the document discharge unit 32. The document feeding unit 3 and the document reading unit 2 are connected to each other by a hinge mechanism on the back side of the image forming apparatus 1, and the document feeding unit 3 functions as a platen cover that opens and closes the upper surface of the platen glass 22. . By opening the document feeder 3 upward, the upper surface of the platen glass 22 is opened, and the document MS can be set on the platen glass 22.

  When reading of the document MS is instructed by the operation button 52 of the operation unit 5 in a state where the document MS is not set on the document placement unit 31 or in an opened state where the document feeding unit 3 (platen cover) is opened. A document MS set on the platen glass 22 is read. When reading the document MS placed on the platen glass 22, the scanner 21 is moved to a position facing the platen glass 22, and the document MS set on the platen glass 22 is moved in the sub-scanning direction orthogonal to the main scanning direction. The image data is acquired by scanning while scanning from the reference line in the sub-scanning direction, and the acquired image data is output to the main body unit 4.

  When reading of the document MS is instructed by the operation button 52 of the operation unit 5 in a state where the document MS is set on the document placement unit 31, the document MS conveyed by the document feeding unit 3 is read. The document MS is set on the document placement unit 31 with the front surface (surface from which a document image is read) facing up. Then, the document MS set on the document placement unit 31 is conveyed from the left side by the document feeding unit 3, and the surface of the document MS is guided to a position facing the document reading slit 23. Further, when reading the document MS conveyed by the document feeding unit 3, the scanner 21 is moved to a position facing the document reading slit 23 and is synchronized with the conveying operation by the document feeding unit 3 via the document reading slit 23. Then, the original MS is read to acquire image data, and the acquired image data is output to the main body unit 4.

  The main body 4 includes a recording unit 6, and includes a paper feed unit 41, a paper feed roller 42, a paper transport path 43, a transport roller 44, and a discharge roller 45. The paper feed unit 41 is a paper feed cassette that stores a plurality of recording papers P. The paper feed roller 42 feeds the recording paper P from the paper feed unit 41 to the paper transport path 43 one by one. The recording paper P fed to the paper transport path 43 by the paper feed roller 42 is transported to the recording unit 6 by the transport roller 44. The recording paper P on which recording has been performed by the recording unit 6 is discharged by a discharge roller 45 into a discharge space 46 formed between the document reading unit 2 and the main body unit 4. As described above, the paper feed roller 42, the transport roller 44, and the discharge roller 45 function as a transport unit for the recording paper P.

  The recording unit 6 includes a photosensitive drum 61, a charging unit 62, an exposure unit 63, an image forming unit 64, a transfer unit 65, a fixing unit 66, and a cleaning unit 67. The exposure unit 63 is an optical unit including a laser device, a mirror, and the like. The exposure unit 63 outputs a laser beam based on image data to the photosensitive drum 61 uniformly charged by the charging unit 62 and exposes the photosensitive drum 61. An electrostatic latent image is formed on the surface of the drum 61. The image forming unit 64 is a developing unit that develops the electrostatic latent image formed on the photosensitive drum 61 using toner, and forms a toner image based on the electrostatic latent image on the photosensitive drum 61. The transfer unit 65 transfers the toner image formed on the photosensitive drum 61 by the image forming unit 64 to the recording paper P. The fixing unit 66 heats the recording paper on which the toner image is transferred by the transfer unit 65 to fix the toner image on the recording paper P. The toner remaining on the photosensitive drum 61 is removed by the cleaning unit 67.

  FIG. 3 is a block diagram illustrating a schematic configuration of the image forming apparatus 1. The document reading unit 2, document feeding unit 3, transport unit (feed roller 42, transport roller 44, discharge roller 45), operation unit 5, and recording unit 6 are connected to the control unit 7. Operation controlled. In addition, an image processing unit 8, a storage unit 9, a communication unit 10, and a fax unit 11 are connected to the control unit 7.

  The control unit 7 is an information processing unit such as a microcomputer including a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. The ROM stores a control program for controlling the operation of the image forming apparatus 1. The control unit 7 reads out a control program stored in the ROM and develops the control program in the RAM, thereby controlling the entire apparatus according to predetermined instruction information input from the operation unit 5.

  The image processing unit 8 is a unit that performs predetermined image processing on the image data. For example, image improvement processing such as rotation processing, enlargement / reduction processing, gradation adjustment, and density adjustment is performed.

  The storage unit 9 is a storage unit such as a semiconductor memory or an HDD (Hard Disk Drive). The storage unit 9 stores image data acquired by reading the document MS by the document reading unit 2, and stores various management information. ing.

  The communication unit 10 has a function of transmitting / receiving various data to / from a peripheral device 13 such as a personal computer and another image forming apparatus 1a via a network 12 such as a LAN. The communication unit 10 is configured to be connectable to the Internet 15 via the network 12 and the router 14. The communication unit 10 has a function of transmitting / receiving various data to / from various communication devices connected to the Internet 15.

  The fax unit 11 has a modem, generates a facsimile signal from an image file read and filed by the document reading unit 2, and transmits the generated facsimile signal via a network such as the telephone line network 16 or the like. And a facsimile reception function for receiving a facsimile signal via the telephone line network 16 and generating an image file from the received facsimile signal. The image file received and generated by the facsimile reception function is stored in the storage unit 9 or recorded on the recording paper P by the recording unit 6.

  Next, the original set orientation correcting operation in the image forming apparatus 1 of the present embodiment will be described in detail with reference to FIGS. The image forming apparatus 1 according to the present embodiment has a document setting direction correcting function that automatically aligns the upper side upward when reading a plurality of documents MS on which the document MS is set on the document placement unit 31. Yes.

  When the user sets the document MS on the document placement unit 31 of the document feeding unit 3 and instructs the operation unit 5 to read the document image, the control unit 7 displays the transmission destination setting screen 80 shown in FIG. The information is displayed on the liquid crystal display unit 51 and the setting of the transmission destination is accepted. The transmission destination setting screen 80 is provided with a function list key 80a. When the function list key 80a is operated, the control unit 7 causes the liquid crystal display unit 51 to display a function list screen 81 shown in FIG. The function list screen 81 is a screen for accepting selection of a function to be set, and is provided with a document setting direction key 81a.

When the document setting direction key 81a is operated, the control unit 7 causes the liquid crystal display unit 51 to display a document setting direction setting screen 82 shown in FIGS. On the document setting direction setting screen 82, the first document setting direction which is the most document setting direction is set to one of two orthogonal document setting directions. A setting key 82a and a left setting key 82b for setting the upper side to the left are provided, and the control unit 7 functions as a document setting direction receiving unit 71 and receives a setting for the first document setting direction (step 101). ). In the document setting direction setting screen 82, as a second document setting direction which is a part of the document setting direction, a partial back setting key 82c for setting the upper side to the back and a setting for setting the upper side to the left are set. A partial left setting key 82d, a partial downward setting key 82e for setting the upper side downward, and a partial right setting key 82f for setting the upper side rightward are provided. The partial back setting key 82c, the partial left setting key 82d, the partial downward setting key 82e, and the partial right setting key 82f can be selected from three directions other than the first original setting direction. The control unit 7 functions as the document setting direction receiving unit 71 and receives the setting for the second document setting direction (step 102). FIG. 5C shows a state in which the first document setting direction is selected with the upper side facing back by the back direction setting key 82a. Further, in FIG. 5D, the first document setting direction is selected with the left-side setting key 82b to set the upper side to the left side, and the second document setting direction is set to the back side with the back-side setting key 82c. The state selected for the orientation is shown. Further, in FIG. 5E, the OK key is operated on the document setting direction setting screen 82, the first document setting direction is set to the left side on the upper side, and the second document setting direction is set to the back side on the upper side. The state set to the orientation is shown.
Next, the control unit 7 monitors the operation of the start button (step 103). When the start button is operated, the document feeding unit 3 first feeds and conveys the first document MS (step 104). Then, the original MS is read by the original reading unit 2 to acquire original image data, and the acquired original image data is stored in the RAM functioning as the image memory 72 (step 105).

  Next, the control unit 7 functions as the document setting direction determination unit 73 and executes document setting direction determination processing based on the document image data stored in the image memory 72 (step 106). The determination process of step 106 by the document setting direction determination unit 73 is performed only for the first document setting direction for which the setting has been received in step 101 and the second document setting direction for which the setting has been received in step 102. The document setting direction determination unit 73 performs OCR processing on the document image data rotated in the first document setting direction and the second document setting direction, respectively, and calculates the literacy rate in each direction. Then, if the literacy rate is less than a predetermined value in any orientation, it is determined that the determination is impossible, and if the literacy rate is more than a predetermined value in any one or more orientations, The direction with the highest literacy rate is determined as the original set direction. As described above, when the OCR process is performed only in the two directions of the first document setting direction and the second document setting direction and the document setting direction is determined, the amount of determination processing is reduced, which is preferable. It is.

  Next, the document setting direction determination unit 73 determines whether or not the document setting direction has been successfully determined (step 107). If the determination of the document setting direction is successful in step 107, the document setting direction determination unit 73 further determines whether or not the determination result is the first document setting direction (step 108). If the determination result in step 108 is the first document setting direction, the document setting direction determination unit 73 instructs the image processing unit 8 to perform a rotation process based on the first document setting direction. Then, the image processing unit 8 executes a rotation process based on the first document set direction (step 109), and stores the processed document image data in the storage unit 9 (step 110). For example, when the determination result of the document setting direction determination processing is determined to be the upper left side that is the first document setting direction, such as the first page shown in FIG. The original image data is rotated 90 ° right by the rotation process. If the determination result is not the first document setting direction in step 108, the determination result is the second document setting direction. Therefore, the document setting direction determination unit 73 performs a rotation process based on the second document setting direction on the image processing. Instruct the unit 8. Then, the image processing unit 8 executes a rotation process based on the second document set direction (step 111), and stores the processed document image data in the storage unit 9 (step 110). When the determination result of the document setting direction determination processing is determined to be the upper side in the second document setting direction, as in the case of page 4 shown in FIG. In step 110, the original image data is stored in the storage unit 9 without being rotated.

  On the other hand, if the document setting direction determination unit 73 cannot determine the document setting direction in step 107, the document setting direction determination unit 73 performs a rotation process based on the first document setting direction. To instruct. Then, the image processing unit 8 executes a rotation process based on the first document setting direction (step 112), and stores the processed document image data in the storage unit 9 (step 110). As in the case of page 3 shown in FIG. 6, when it is impossible to determine the orientation of the original document, the rotation processing in step 109 is performed as in the case where it is determined that the upper side is the first original orientation. Rotate the image data 90 degrees to the right.

  Next, the control unit 7 determines whether or not there is a next document MS, that is, whether or not the document MS is placed on the document placing unit 31 of the document feeding unit 3 (step 113). If there is another document MS, the process returns to step 104 and the document feeder 3 feeds and conveys the next document MS.

  If there is no next document MS in step 113, the control unit 7 functions as the file creation unit 74 and creates an image file from the document image data of all pages stored in the storage unit 9 in step 110 (step 114). ). The control unit 7 functions as the transmission unit 75, transmits the image file created in step 121 to the transmission destination received on the transmission destination setting screen 80 shown in FIG. 5A (step 115), and performs processing. Terminate.

As described above, in the present embodiment, the document feeding unit 3 that sequentially transports the set document MS, and the document reading unit 2 that reads the document image of the document MS conveyed by the document feeding unit 3. The document forming direction accepting unit 71 that accepts the setting of the first document setting direction and the setting of the second document setting direction of the document MS set on the document feeding unit 3, respectively. And the document feeding unit in only two directions, ie, the first document setting direction and the second document setting direction received by the document setting direction receiving unit 71 based on the document image data read by the document reading unit 2 A document setting direction determining unit 73 that determines the document setting direction of the document MS set to 3 and image processing for performing rotation processing of document image data read by the document reading unit 2 8, the image processing unit 8 performs rotation processing of the document image data based on the determination result by the document setting direction determination unit 73, and if the determination by the document setting direction determination unit 73 is impossible, The rotation processing is performed based on the first document setting direction received by the setting direction receiving unit 71.
With this configuration, since the document set orientation is determined in advance in two directions, the amount of document orientation determination processing per page can be reduced, and a document whose document set orientation cannot be determined can be reduced. By aligning the orientation of most pages with the original, the top side can be aligned correctly. In other words, when looking at a general document stack consisting of a plurality of pages, the upper side of many pages (photo pages) is often in the same direction, and the upper side of some pages is often oriented differently from other pages. . Therefore, the user can confirm in advance two possible directions, and can limit the determination of the document orientation to two directions.

Further, in the present embodiment, the document setting direction accepting unit 71 accepts the setting of the document setting direction in either of two orthogonal directions (the upper side back and the upper side left) as the first document setting direction setting, As setting of the second document setting direction, the setting of the document setting direction in any of the three directions other than the first document setting direction (three directions among the upper side rear, upper side left, upper side lower and upper side right) is accepted. It is configured.
With this configuration, the first document setting direction and the second document setting direction can be set without a user's hesitation.

  Note that the present invention is not limited to the above-described embodiments, and it is obvious that the embodiments can be appropriately changed within the scope of the technical idea of the present invention. In addition, the number, position, shape, and the like of the constituent members are not limited to the above-described embodiment, and can be set to a suitable number, position, shape, and the like in practicing the present invention. In each figure, the same numerals are given to the same component.

DESCRIPTION OF SYMBOLS 1 Image forming apparatus 1a Image forming apparatus 2 Original reading part 3 Original feeding part 4 Main body part 5 Operation part 6 Recording part 7 Control part 8 Image processing part 9 Storage part 10 Communication part 11 Fax part 12 Network 13 Peripheral equipment 14 Router 15 Internet 16 Telephone network 21 Scanner 22 Platen glass 23 Document reading slit 24 Light source 25 Light receiving unit 31 Document placement unit 32 Document discharge unit 33 Document transport mechanism 41 Paper feed unit 42 Paper feed roller 43 Paper transport path 44 Transport roller 45 Discharge roller 46 Discharge space 51 Liquid crystal display unit 52 Operation button 61 Photosensitive drum 62 Charging unit 63 Exposure unit 64 Image forming unit 65 Transfer unit 66 Fixing unit 67 Cleaning unit 71 Document set orientation receiving unit 72 Image memory 73 Document set orientation determining unit 74 File Create part 75 Send 80 Destination setting screen 80a Function list key 81 Function list screen 81a Document setting direction key 82 Document setting direction setting screen 82a Back setting key 82b Left setting key 82c Partial back setting key 82d Partial left setting key 82e Partial downward Setting key 82f Partially right setting key

Claims (4)

An image processing apparatus comprising: a document feeding unit that sequentially transports a set document; and a document reading unit that reads a document image of a document transported by the document feeding unit.
From the setting of the first document setting direction of the document set on the document feeding means , the upper side is set to the back side or the upper side is set to the left side, the second document setting direction setting is set to the upper side. A document set orientation accepting unit that accepts from the following: set to the back, set the top to the left, set the top to the bottom, and set the top to the right
Based on the document image data read by the document reading unit, the document feeding unit only receives the two directions of the first document set direction and the second document set direction received by the document set direction receiving unit. A document setting direction determining means for determining a document setting direction of a set document;
Image processing means for performing rotation processing of the document image data read by the document reading means,
Wherein the image processing means, the image processing device comprising a TURMERIC line rotation processing of the original image data based on a determination result of the document setting direction judging means. 2. The image processing unit according to claim 1, wherein when the determination by the document set direction determination unit is impossible, the image processing unit performs a rotation process based on the first document set direction received by the document set direction reception unit. The image processing apparatus according to 1. The document setting direction determining means performs OCR processing on the document image data rotated in the first document setting direction and the second document setting direction, respectively, calculates the literacy rate in each direction, and When the literacy rate is less than a predetermined value in any orientation, it is determined that the determination is impossible, and when the literacy rate is greater than or equal to a predetermined value in any one or more orientations, 3. The image processing apparatus according to claim 1, wherein a direction with a high literacy rate is determined as a document setting direction. 4. The document setting direction accepting unit receives a setting of any one of three document directions other than the first document setting direction as the setting of the second document setting direction. An image processing apparatus according to claim 1.

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