JP4006193B2 - Image input / output device, image input / output device control method, image input / output system, and storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image input / output device connected to an external device via a communication medium, an image input / output device control method, an image input / output system, and a storage medium.
[0002]
[Prior art]
Conventionally, an image forming system (hereinafter referred to as “remote copy system”) in which an image input device (for example, a scanner) and an image output device (for example, a printer) are connected via a controller unit via a transmission medium such as a network, In order to enhance this, an image forming system (hereinafter referred to as “duplicate copy system”) that transmits images from a single image input device to a plurality of image output devices has been proposed.
[0003]
As one of operation modes using the image input device and the image output device, there is known auto cassette selection for selecting an optimum sheet size when performing image formation. This is an operation mode in which the size of an image input by the image input device is detected, and a cassette in which optimum paper is set is automatically selected from cassettes of the image output device. By selecting the optimum paper size using auto cassette selection, the user can easily set the paper size.
[0004]
In such an image forming system, when image formation is performed using auto paper selection, cassette information of a plurality of image output devices is determined on the image input device side, and auto cassette selection is performed.
[0005]
[Problems to be solved by the invention]
However, in the remote copy system and the multiple copy system, when the image input device performs automatic cassette selection of a remote image output device at the time of image input, the image input device side collects cassette information of a plurality of image output devices at once. Therefore, there is a problem that when the cassette is changed in each image output apparatus, the operation of changing the cassette information by the user or the apparatus on the image input apparatus side becomes complicated.
[0006]
In addition, when an error occurs such as when the continuous operation is started and no paper is set in the cassette selected by the automatic paper selection of the selected remote location, the user changes the cassette at the remote location. As a result, it is necessary to return to the image input apparatus side to interrupt the restart instruction and the image transmission. For example, there is a problem that the user's error handling becomes complicated and the overall productivity is lowered.
[0007]
The present invention is intended to solve the above-described problems, and since the cassette is managed and selected by a remote apparatus, the image input / output apparatus can be operated easily by the user and does not reduce the overall productivity. An object of the present invention is to provide an image input / output device control method, an image input / output system, and a storage medium.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, an image input / output device of the present invention is an image input / output device having output means for outputting image data and connected to another image input / output device via a communication medium. The output means includes plural Management means for managing cassette information of the paper cassette; Image data generated based on a document read by the other image input / output device, receiving means for receiving information indicating the size of the document from the other image input / output device, and the other image input / output device. According to the automatic cassette selection mode specified in the output device, Cassette information managed by the management means And information indicating the size of the document received by the receiving means; Based on Received by the receiving means Image data By the output means A paper cassette for output Automatically First selecting means for selecting, The output means uses the paper set in the paper cassette selected by the first selection means and the receiving means Received image data Out Help Ruko And features.
[0009]
The image input / output apparatus control method according to the present invention also includes an output for outputting image data means Via the communication medium other A method for controlling an image input / output device connected to an image input / output device, comprising: means Prepare for plural Management to manage cassette information of paper cassette Step When, A receiving step for receiving, from the other image input / output device, image data generated on the basis of the original read by the other image input / output device, and information indicating the size of the original; According to the automatic cassette selection mode specified in the output device, Management In steps Managed cassette information And information indicating the size of the document received in the receiving step; Based on Received in the receiving step Image data By the output means A paper cassette for output Automatically A first selection step to select and , Using the paper set in the paper cassette selected in the first selection step, Output the received image data means By Output step to output It is characterized by doing.
[0010]
The image input / output system of the present invention is An image input capable of executing a copy mode in which image data generated based on a document read by the first image input / output device is transmitted to the second image input / output device and printed by the second image input / output device. In the output system, the first image input / output device is generated based on a reading unit that reads a document, a specifying unit that specifies an automatic cassette selection mode in executing the copy mode, and a read document. Transmitting means for transmitting image data and information indicating the size of the read document to the second image input / output device, wherein the second image input / output device is transmitted by the transmission means. And receiving means for receiving the image data and information indicating the size, and the automatic cassette selection mode being designated by the designation means. Selecting means for automatically selecting a paper cassette in which paper suitable for the information indicating the size received by the receiving means is set from a plurality of paper cassettes provided in the second image input / output device; And printing means for printing the image data received by the receiving means using the paper in the paper cassette selected by the selecting means. It is characterized by that.
The image input / output system of the present invention can execute an automatic cassette selection mode in which a paper cassette in which paper suitable for the size of the read original is set is automatically selected from a plurality of paper cassettes. An image input / output system in which a first image input / output device and a second image input / output device are connected, wherein image data generated based on a document read by the first image input / output device is In the image input / output system capable of executing a copy mode of printing in the first image input / output device and transmitting to the second image input / output device and printing in the second input / output device, the first image input / output device The output device includes designation means for designating the automatic cassette selection mode when executing the copy mode, and the automatic cassette selection mode by the designation means. A plurality of paper cassettes provided in the first image input / output device includes a paper cassette in which paper suitable for the size of the document read by the first image input / output device is set. First selection means for automatically selecting from the inside, and image data generated based on the read original and information indicating the size of the read original are transmitted to the second image input / output device. Transmission means for printing, and printing means for printing image data generated based on the read original using the paper in the paper cassette selected by the first selection means, and the second The image input / output apparatus includes: a receiving unit that receives image data and information indicating a size transmitted by the transmitting unit; and the automatic cassette selection mode is specified by the specifying unit. Accordingly, a paper cassette in which paper suitable for the information indicating the size received by the receiving means is set is automatically selected from a plurality of paper cassettes provided in the second image input / output device. And a second printing unit for printing the image data received by the receiving unit using the paper in the paper cassette selected by the second selecting unit. .
[0011]
The storage medium of the present invention is An output unit that outputs image data, and stores a program readable by the computer for causing the computer to execute a control method for the image input / output device connected to another image input / output device via a communication medium A storage medium, The control method includes a management step for managing cassette information of a plurality of paper cassettes provided in the output unit, image data generated based on a document read by the other image input / output device, and a size of the document. Receiving information from the other image input / output device, and the cassette information and the reception managed in the management step according to the automatic cassette selection mode being designated in the other image input / output device. A first selection step of automatically selecting a paper cassette for outputting the image data received in the reception step by the output means based on the information indicating the size of the document received in the step; Image data received in the receiving step using the paper set in the paper cassette selected in the selecting step Yes and an output step of outputting by the output means It is characterized by doing.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram illustrating a configuration of an image forming system according to an embodiment.
[0013]
The image input / output apparatus 200 includes a scanner 2070 as an image input device, a printer 2095 as an image output device, a controller unit 2000, and an operation unit 2012 as a user interface. The scanner 2070, printer 2095, and operation unit 2012 are each connected to the controller unit 2000. The controller unit 2000 is connected to a LAN 2011 that is a network transmission unit.
[0014]
In addition, other image input / output devices 220 and 230 having the same device configuration as the image input / output device 200 are connected to the LAN 2011. The image input / output devices 220 and 230 have scanners 2270 and 2370, printers 2295 and 2395, and operation units 2212 and 2312, respectively, which are connected to the controller units 2200 and 2300, respectively. The offline finisher 240 performs post-processing of the print sheet offline. The server computer 250 has a large capacity storage. The personal computer 260 is intended for an individual user.
[0015]
Here, for example, a case where an image is read (image input) by the scanner 2070 of the image input / output device 200 and printing (image output) is performed by the printer 2095 is referred to as “local copy”. The same applies to the image input / output devices 220 and 230. Further, for example, a case where an image is read (image input) by the scanner 2070 of the image input / output device 200 and printing (image output) is performed by the printer 2295 of the image input / output device 220 or the printer 2395 of the image input / output device 230 is “ This is called “remote copy”. Further, for example, a case where an image is read (image input) by the scanner 2070 of the image input / output device 200 and printing (image output) is performed by the printer 2295 of the image input / output device 220 and the printer 2395 of the image input / output device 230 is “ This is called “cascade copy”.
[0016]
Thereafter, the scanner 2070 of the image input / output device 200 reads an image (image input), transmits the image data to the printer of the other image input / output device, and the image data transmitted from the scanner of the other image input / output device. The case where the printer 2095 of the image input / output device 200 performs printing (image output) based on FIG.
[0017]
FIG. 2 is a block diagram showing an internal configuration of the controller unit 2000 of the image input / output device 200. The controller unit 2000 is connected to a scanner 2070 that is an image input device via a bus 2071, and is connected to a printer 2095 that is an image output device via a bus 2096. On the other hand, by connecting to a LAN 2011 or a public line (WAN) 2051, input / output control of image information and device information is performed.
[0018]
A CPU 2001 is a controller that controls the entire system. A RAM 2002 is a system work memory for the operation of the CPU 2001, and is also an image memory for temporarily storing image data. A ROM 2003 is a boot ROM, and a ROM 2003 stores a system boot program. An HDD 2004 is a hard disk drive that stores system software and image data.
[0019]
An operation unit I / F 2006 is an interface unit with the operation unit (UI) 2012 and outputs image data to be displayed on the operation unit 2012 to the operation unit 2012. Also, it plays a role of transmitting information input by the system user from the operation unit 2012 to the CPU 2001. A network unit 2010 is connected to the LAN 2011 and inputs / outputs information. The MODEM 2050 is connected to the public line 2051 and inputs / outputs information. Each of the above devices is arranged on the system bus 2007.
[0020]
An ImageBus I / F 2005 is a bus bridge that connects a system bus 2007 and an image bus 2008 that transfers image data at high speed and converts a data structure. An image bus 2008 is a bus defined by the PCI bus or IEEE1394.
[0021]
In each device placed on the image bus 2008, a raster image processor (RIP) 2060 expands the PDL code into a bitmap image. The device I / F unit 2020 connects the scanner 2070 or the printer 2095 to the controller unit 2000, and performs synchronous / asynchronous conversion of image data. A scanner image processing unit 2080 corrects, processes, and edits input image data. A printer image processing unit 2090 performs correction, resolution conversion, and the like suitable for the printer 2095 on the print output image data. The image rotation unit 2030 rotates image data. The image compression unit 2040 performs JPEG compression / decompression processing on multi-valued image data, and JBIG, MMR, and MH compression / decompression processing on binary image data. The HDD 2004 stores information such as an image output speed and an installation position related to nodes connected to the network (LAN 1000) for each address.
[0022]
FIG. 3 is an external view showing the configuration of the image input / output device 200 viewed from the outside. A scanner 2070, which is an image input device, illuminates an image on paper as a document and scans a CCD line sensor (not shown), thereby converting reflected light from the document into an electrical signal as raster image data. It transmits to the controller unit 2000 via 2071. When the original paper is set on the tray 2073 of the original feeder 2072 and the user gives a reading start instruction from the operation unit 2012 and the CPU 2001 of the controller unit 2000 gives an instruction to the scanner 2070 via the bus 2071, the original feeder 2072. Feeds original paper one by one, and the scanner 2070 performs an original image reading operation.
[0023]
The printer 2095 as an image output device records raster image data received from the controller unit 2000 via the bus 2096 as an image on a sheet. Examples of the recording method include various methods such as an electrophotographic method using a photosensitive drum or a photosensitive belt, and an ink jet method in which an ink is ejected from a micro nozzle array to directly print an image on a sheet. It may be a method.
[0024]
The printing operation is started by an instruction from the CPU 2001 of the controller unit 2000 via the bus 2096. The printer 2095 has a plurality of paper feed stages so that paper of different sizes or directions can be selected, and includes paper cassettes 2101, 2102, and 2103 corresponding to exceptionally high levels. A paper discharge tray 2111 is a part that receives the printed paper. The recording medium stored in the paper cassettes 2101, 1022, 2103 is not limited to printing paper, but may be an OHP sheet or the like.
[0025]
FIG. 4 is a diagram showing the configuration of the scanner image processing unit 2080. The image bus I / F controller 2081 is connected to the image bus 2008, controls the bus access sequence, and generates control and timing of each device in the scanner image processing unit 2008. The filter processing unit 2082 performs a convolution operation with a spatial filter. For example, the editing unit 2083 recognizes a closed region surrounded by a marker pen from the input image data, and performs image processing such as shading, shading, and negative / positive inversion on the image data in the closed region.
[0026]
When changing the resolution of the read image, the scaling processing unit 2084 performs interpolation operation to enlarge and reduce the raster image in the main scanning direction, and the image reading line sensor (not shown) in the sub-scanning direction. Scaling is performed by changing the scanning speed.
[0027]
The table 2085 is used for table conversion for converting image data, which is read luminance data, into density data. The binarization unit 2086 binarizes the multi-value grayscale image by error diffusion processing or screen processing. The processed image data is transferred to the image bus 2008 via the image bus I / F controller 2081 again.
[0028]
FIG. 5 is a diagram illustrating the configuration of the printer image processing unit 2090. An image bus I / F controller 2091 is connected to the image bus 2008, controls its bus access sequence, controls each device in the printer image processing unit 2090, and generates timing.
[0029]
A resolution conversion unit 2092 converts image data sent via the network 2011 or the public line 2051 into a resolution suitable for the printer 2095. The smoothing processing unit 2093 performs processing to smooth out jaggies of the image data after resolution conversion (roughness of an image appearing at a black and white border such as an oblique line).
[0030]
FIG. 6 is a block diagram illustrating a configuration of the image compression unit 2040. The image bus I / F controller 2041 is connected to the image bus 2008, controls the bus access sequence, and performs timing control for exchanging data with the input buffer 2042 and the output buffer 2045, and mode setting for the image compression unit 2043. Control such as.
[0031]
The CPU 2001 makes settings for image compression control to the image bus I / F controller 2041 via the image bus 2008. With this setting, the image bus I / F controller 2041 performs settings necessary for image compression (for example, MMR compression, JBIG expansion, etc.) for the image compression unit 2043. After performing the necessary settings, the CPU 2001 permits image data transfer to the image bus I / F controller 2041 again. In accordance with this permission, the image bus I / F controller 2041 starts transferring image data from each device on the RAM 2002 or the image bus 2008. The received image data is temporarily stored in the input buffer 2042, and the input buffer 2042 transfers the image data at a constant speed in response to an image data request from the image compression unit 2043. At this time, the input buffer 2042 determines whether or not image data can be transferred between the image bus I / F controller 2041 and the image compression unit 2043, reads the image data from the image bus 2008, and compresses the image data. When it is impossible to write image data to the unit 2043, control is performed so as not to transfer data (hereinafter, such control is referred to as handshaking).
[0032]
The image compression unit 2043 temporarily stores the received image data in the RAM 2044. This is because data for several lines is required depending on the type of image compression processing when image compression is performed, and image data for several lines is prepared in order to perform compression for the first line. This is because image compression cannot be performed without it.
[0033]
The image data subjected to the image compression is immediately sent to the output buffer 2045. The output buffer 2045 performs handshaking with the image bus I / F controller 2041 and the image compression unit 2043, and transfers image data to the image bus I / F controller 2041. The image bus I / F controller 2041 transfers the transferred and compressed (or expanded) image data to each device on the RAM 2002 or the image bus 2008.
[0034]
Such a series of processing is repeated until there is no processing request from the CPU 2001 (when processing of the necessary number of pages is completed) or until a stop request is issued from the image compression unit 2043 (when an error occurs during compression and expansion). It is.
[0035]
FIG. 7 is a diagram illustrating a configuration of the image rotation unit 2030. The image bus I / F controller 2031 is connected to the image bus 2008, controls the bus sequence, sets a mode or the like in the image rotation unit 2032, and timing control for transferring image data to the image rotation unit 2032 I do.
[0036]
The CPU 2001 performs settings for image rotation control in the image bus I / F controller 2031 via the image bus 2008. With this setting, the image bus I / F controller 2031 performs settings necessary for image rotation (for example, image size, rotation direction, angle, and the like) for the image rotation unit 2032.
[0037]
After performing the necessary settings, the CPU 2001 again permits image data transfer to the image bus I / F controller 2031. In accordance with this permission, the image bus I / F controller 2031 starts transfer of image data from each device on the RAM 2002 or the image bus 2008. In this embodiment, the image data is represented by 32 bits, the image size to be rotated is 32 × 32 bits, and image data is transferred in units of 32 bits when the image data is transferred onto the image bus 2008. Further, it is assumed that the image to be handled is a binary image.
[0038]
As described above, in order to obtain a 32 × 32-bit image, it is necessary to perform data transfer of the above unit 32 times, and it is necessary to transfer image data from discontinuous addresses. FIG. 8 is a diagram showing addresses of transfer source image data. The image data transferred by the discontinuous addressing is written in the RAM 2033 so that it is rotated at a desired angle at the time of reading. For example, if the rotation is 90 degrees counterclockwise, the 32-bit image data transferred first is written in the Y direction as shown in FIG. The image is rotated by reading in the X direction at the time of reading. FIG. 9 is a diagram showing the writing and reading directions of image data.
[0039]
After the 32 × 32-bit image rotation (writing to the RAM 2033) is completed, the image rotation unit 2032 reads the image data from the RAM 2033 by the above-described reading method, and transfers the image data to the image bus I / F controller 2031.
[0040]
The image bus I / F controller 2031 that has received the rotated image data transfers the data to each device on the RAM 2002 or the image bus 2008 by continuous addressing. Such a series of processing is repeated until there is no processing request from the CPU 2001 (when processing of the necessary number of pages is completed).
[0041]
FIG. 10 is a diagram illustrating a configuration of the device I / F unit 2020. The image bus I / F controller 2021 is connected to the image bus 2008, controls the bus access sequence, controls each device in the device I / F unit 2020, and generates timing. Also, control signals to the external scanner 2070 and printer 2095 are generated.
[0042]
The scan buffer 2022 temporarily stores the image data sent from the scanner 2070 and outputs the image data in synchronization with the image bus 2008. The serial-parallel / parallel-serial conversion unit 2023 arranges the image data stored in the scan buffer 2022 in order or decomposes and converts the image data into a data width of image data that can be transferred to the image bus 2008. The parallel-serial / serial-parallel conversion unit 2024 decomposes the image data transferred from the image bus 2008 or arranges the image data in order, and converts the image data into a data width that can be stored in the print buffer 2025. A print buffer 2025 temporarily stores image data sent from the image bus 2008 and outputs the image data in synchronization with the printer 2095.
[0043]
At the time of image scanning, the image data sent from the scanner 2070 is stored in the scan buffer 2022 in synchronization with the timing signal sent from the scanner 2070.
[0044]
When the image bus 2008 is a PCI bus, when image data is 32 bits or more in the scan buffer 2022, the image data is sent from the scan buffer 2022 to the serial-parallel / parallel-serial conversion unit 2023 in a first-in first-out manner. The serial-parallel / parallel-serial conversion unit 2023 converts the image data into 32-bit image data, and transfers the converted image data onto the image bus 2008 through the image bus I / F controller 2021.
[0045]
When the image bus 2008 is IEEE1394, the image data in the scan buffer 2022 is sent in first-in first-out, sent from the scan buffer 2022 to the serial-parallel / parallel-serial conversion unit 2023, and converted into serial image data by the serial-parallel / parallel-serial conversion unit 2023. The converted image data is transferred onto the image bus 2008 via the image bus I / F controller 2021.
[0046]
On the other hand, when the image bus 2008 is a PCI bus at the time of image printing, 32-bit image data sent from the image bus is received by the image bus I / F controller 2021, and sent to the parallel-serial / serial-parallel conversion unit 2024. The image data is divided into image data having the number of input data bits of the printer 2095 and stored in the print buffer 2025.
[0047]
When the image bus 2008 is IEEE1394, the serial image data sent from the image bus 2008 is received by the image bus I / F controller 2021, sent to the parallel serial / serial / parallel conversion unit 2024, and input data bits of the printer 2095. The image data is converted into a number of image data and stored in the print buffer 2025. Then, in synchronization with the timing signal sent from the printer 2095, the image data in the print buffer 2025 is sent to the printer 2095 on a first-in first-out basis.
[0048]
FIG. 11 is an external view showing a configuration of the operation unit 2012. The LCD display unit 2013 has a configuration in which a touch panel sheet 2019 is pasted on the LCD. The system operation screen and soft keys are displayed, and when the displayed keys are pressed, the position information is transmitted to the CPU 2001 of the controller unit 2000. A start key 2014 is used when starting a document image reading operation. A green and red two-color LED 2018 is provided at the center of the start key 2014, and indicates whether or not the start key 2014 can be used depending on the color. A stop key 2015 serves to stop an operation in operation. The ID key 2016 is used when inputting the user ID of the user. A reset key 2017 is used when initializing settings from the operation unit 2012.
[0049]
FIG. 12 is a block diagram illustrating an internal configuration of the operation unit 2012 and the operation unit I / F 2006. As described above, the CPU 2001 comprehensively controls access to various devices connected to the system bus 2007 based on a control program stored in the program ROM 2003, and as shown in FIG. Input information is read from the scanner 2070 via the I / F 2020, and an image signal as output information is output to the printer 2095 via the device I / F 2020.
[0050]
The CPU 2001 receives user input signals input from the touch panel 2019 and the hard keys 2014 to 2017 via the input port 20061 of the operation unit I / F 2006, and acquires operation details. Then, based on the acquired operation content and the above-described control program in the ROM 2003, display screen data is generated, and the display screen is displayed on the LCD display unit 2013 via the output port 20062 of the operation unit I / F 2006 that controls the screen output device. Is output.
[0051]
Next, the operation of the image input / output device 200 will be described using a screen displayed on the LCD display unit 2013. FIG. 13 is a diagram showing an initial screen displayed on the LCD display unit 2013. This screen is also a standard screen that returns after setting each image forming function.
[0052]
In the figure, reference numeral 3101 denotes a soft key for setting equal-magnification output without using a scaling function in image formation. Reference numeral 3102 denotes a soft key for setting a scaling function. Reference numeral 3103 denotes a soft key for setting the output paper size. Reference numeral 3104 denotes a soft key for setting an image output device. Reference numeral 3106 denotes a soft key for setting double-sided output. Reference numeral 3107 denotes a soft key for setting output paper sorting. Reference numeral 3108 denotes a soft key group for setting the image output density. Reference numeral 3109 denotes a soft key for setting other application functions. Reference numeral 3110 denotes a soft key for easily setting a read image to be distributed to a plurality of image output apparatuses (hereinafter referred to as “cascade copy”). Note that a remote copy mode in which a read image is printed on another image output apparatus can be set by a soft key (not shown). When each of these soft keys is pressed, a display screen for further detailed setting is displayed.
[0053]
The image input / output device 200 can perform remote copy and cascade copy to be output to the image output devices (printers 2295 and 2395) of the remote image input / output devices 220 and 230 connected via the LAN 2011. It is set to perform image output (local copy) to the device itself. A display for confirming the setting status of the operation mode is displayed in the display area 3105 in response to setting of various operation modes such as whether to perform local copy, remote copy, or cascade copy.
[0054]
FIG. 14 is a diagram showing a setting screen displayed when the soft key 3110 shown in FIG. 13 is pressed. This setting screen is a setting screen for simply performing cascade copy settings.
[0055]
In the figure, reference numeral 3201 denotes a soft key group for designating the output medium (paper) size. In the initial state, the upper left A4 key is selected in reverse. The soft key group 3201 performs a toggle operation in which one of a plurality of keys is always inverted and selected. Reference numeral 3202 denotes a soft key for narrowing down the number of image output apparatuses to two when performing cascade copy. Reference numeral 3203 denotes a soft key for narrowing down the number of image output apparatuses to three when performing cascade copy. Reference numeral 3204 denotes a display screen that displays a list of combinations of image output apparatuses from which images are output. When one of the soft keys 3202 and 3203 is pressed, a list of image output device combinations that can be output in the paper size selected by the soft key group 3201 is displayed on the display screen 3204. FIG. 14 shows three combinations of image output apparatuses selected when the soft key 3202 is pressed. The information regarding the paper size that can be formed is stored in the memory of the own device or the memory of the management server on the network for each image output device of the plurality of image output devices including the own device and other image output devices. Based on the information stored and managed, the combination information is displayed as a list on the display screen 3204.
[0056]
The image output devices displayed as a list on the display screen 3204 are searched from a plurality of image output devices registered in advance. Here, the registration method of the image output apparatus will not be described in detail. A combination of image output devices displayed in a list on the display screen 3204 can be selected by highlighting one combination in the list by touch input, and the selected image can be selected by pressing a setting confirmation key 3205. The cascade copy setting using the combination of output devices is completed.
[0057]
In the display screen 3204, the reverse display selection can be canceled by pressing the combination of the image output devices selected in reverse display again. In addition, when one combination is highlighted and selected, when the other combination is pressed and selected, the former reversed display selection is canceled and the latter is reversed and selected.
[0058]
FIG. 15 is a diagram showing a standard screen displayed when cascade copy setting is performed on the setting screen shown in FIG. 14 and the setting confirmation key 3205 is pressed. In the figure, reference numeral 3301 denotes an icon indicating that cascade copy is set. Reference numeral 3302 denotes a character string indicating that cascade copy is set. Thus, the setting contents are indicated by the icon 3301 and the character string 3302.
[0059]
FIG. 16 is a diagram showing a software configuration of processing executed by the controller unit 2000. A program for executing each application shown in FIG. 16 is stored in the ROM 2003 in advance. This program is read from the ROM 2003 when the image forming apparatus is activated, and is executed by the CPU 2001. During the operation of the image forming apparatus, each application shown in FIG.
[0060]
In the figure, reference numeral 4010 denotes a UI control unit that controls the operation unit 2012. A copy application unit 4020 receives an instruction from the UI control unit 4010 and causes the device control unit to execute a copy job. Reference numeral 4030 denotes a common interface unit for absorbing the device-dependent portion of the device control portion. A job manager 4040 organizes job information received from the common interface unit 4030 and transmits the job information to a lower-layer document processing unit.
[0061]
In the case of local copy, the scan manager 4050 and the print manager 4090 are activated. In the case of a remote copy transmission job, the scan manager 4050 and the store manager 4100 operate. If the received job is a remote copy job, the file read manager 4060 and the print manager 4090 operate. For PDL printing such as LIPS and PostScript, a PDL manager 4070 and a print manager 4090 operate. Requests for synchronization and image processing between the document managers are made via the sync manager 4080. Image manager 4110 performs image processing and image file storage during scanning and printing.
[0062]
First, local copy software processing will be described. In response to a user instruction, the UI control unit 4010 transmits a copy setting together with a copy instruction to the copy application unit 4020. The copy application unit 4020 transmits information from the UI control unit 4010 to the job manager 4040 that performs device control via the common interface unit 4030. The job manager 4040 transmits job information to the scan manager 4050 and the print manager 4090.
[0063]
The scan manager 4050 makes a scan request to the scanner 2070 via the device I / F 2020. At the same time, an image processing request is issued to the image manager 4110 via the sync manager 4080. The image manager 4110 performs setting of the scanner image processing unit 2080 in accordance with an instruction from the scan manager 4050. When the setting is completed, a scan preparation completion is notified via the sync manager 4080. Thereafter, the scan manager 4050 instructs the scanner 2070 to scan. The completion of the scan image transfer is transmitted to the image manager 4110 by an interrupt signal from hardware (not shown).
[0064]
Upon receiving the scan completion from the image manager 4110, the sync manager 4080 notifies the scan manager 4050 and the print manager 4090 of the scan completion. At the same time, the sync manager 4080 instructs the image manager 4110 to file the image data stored in the RAM 2002 in the HDD 2004.
[0065]
The image manager 4110 uses the image compression unit 2040 to store a TIFF JBIG or TIFF MMR file in the HDD 2004 according to an instruction. When the storage in the HDD 2004 is completed and a scan completion signal is received from the scanner 2070, the image manager 4110 notifies the scan manager 4050 of the completion of file formation via the sync manager 4080. The scan manager 4050 returns an end notification to the job manager 4040, and the job manager 4040 that has received the notification returns it to the copy application unit 4020 via the common interface unit 4030.
[0066]
The print manager 4090 outputs a print request to the printer 2095 via the device I / F 2020 when the image data enters the RAM 2002. A print image processing request is sent to the sync manager 4080. Upon receiving a request from the print manager 4090, the sync manager 4080 requests the image manager 4110 for image processing settings. The image manager 4110 sets the printer image processing unit 2090 and notifies the print manager 4090 of completion of print preparation via the sync manager 4080. The print manager 4090 issues a print instruction to the printer 2095. The completion of print image transfer is transmitted to the image manager 4110 by an interrupt signal from hardware (not shown).
[0067]
The sync manager 4080 that has received the print completion from the image manager 4110 notifies the print manager 4090 of the print completion. When the print manager 4090 receives the completion of paper discharge from the printer 2095, it returns an end notification to the job manager 4040, and the job manager 4040 returns it to the copy application unit 4020 via the common interface unit 4030. When the copy application unit 4020 completes scanning and printing, it notifies the UI control unit 4010 of the job end.
[0068]
Next, software processing of a remote copy scan job (transmission job) will be described. The store manager 4100 receives a request from the job manager 4040 in place of the print manager 4090. When the store manager 4100 receives the storage completion notification from the sync manager 4080 when the scan image is stored in the HDD 2004, the store manager 4100 notifies the copy application unit 4020 via the common interface unit 4030.
[0069]
Upon receiving this notification, the copy application unit 4020 requests the network application unit 4120 to transmit the file stored in the HDD 2004. Upon receiving the request, the network application unit 4120 transmits the file. The network application unit 4120 receives setting information regarding copying from the copy application unit 4020 at the start of the job, and notifies the remote side (receiving side) of the setting information.
[0070]
Next, software processing of a remote copy print job (reception job) will be described. The network application unit 4120 stores image data from the transmission side in the HDD 2004 and issues a job to the copy application unit 4020.
[0071]
The copy application unit 4020 submits a print job to the job manager 4040 via the common interface unit 4030. Unlike local copy, the file read manager 4060 receives a request from the job manager 4040 instead of the scan manager 4050. A request for expanding the received image from the HDD 2004 to the RAM 2002 is made to the image manager 4110 via the sync manager 4080.
[0072]
The image manager 4110 decompresses the TIFF JBIG or TIFF MMR file using the image compression unit 2040 and expands the image in the RAM 2002. When the development is completed, the image manager 4110 notifies the file read manager 4060 and the print manager 4090 of the completion of development via the sync manager 4080.
[0073]
When image data enters the RAM 2002, the print manager 4090 selects a paper feed tray instructed by the job manager or a paper feed tray having the paper size, and issues a print request to the printer 2095 via the device I / F 2020. Output. In the case of automatic paper, the paper feed stage is determined from the image size and a print request is output. A print image processing request is sent to the sync manager 4080.
[0074]
When the sync manager 4080 receives a print image processing request from the print manager 4090, the sync manager 4080 requests the image manager 4110 to perform image processing settings. At this time, if rotation is necessary, a rotation instruction is also requested separately. When there is a rotation instruction, the image manager 4110 rotates the image using the image rotation unit 2030.
[0075]
The image manager 4110 sets the printer image processing unit 2090 and notifies the print manager 4090 of completion of print preparation via the sync manager 4080. The print manager 4090 issues a print instruction to the printer 2095. The completion of print image transfer is transmitted to the image manager 4110 by an interrupt signal from hardware (not shown).
[0076]
The sync manager 4080 that has received the print completion notification from the image manager 4110 notifies the file read manager 4060 and the print manager 4090 of the completion of printing. The file read manager 4060 returns an end notification to the job manager 4040. The print manager 4090 receives a discharge completion notification from the printer 2095 and returns an end notification to the job manager 4040. The job manager 4040 returns an end notification to the copy application unit 4020 via the common interface unit 4030. When the printing is completed, the copy application unit 4020 notifies the UI control unit 4010 that the job has been completed.
[0077]
It should be noted that in the multiple copy in which images are output to a plurality of remote devices, a plurality of remote copy transmission jobs and reception jobs described above exist for one input image.
[0078]
Next, transmission of information accompanying the image (image accompanying information) is shown. In this embodiment, since image data is transmitted to the remote side by a TIFF MMR or TIFF JBIG file in page units, the image accompanying information is transmitted using the empty area of the TIFF header of the file. In the case of a double-sided document, the image-accompanying information is set so that each side of the document is one page.
[0079]
FIG. 17 is a diagram showing a configuration of a TIFF header portion used in the present embodiment. Each tag shown here is written in the TIFF header portion in accordance with the instruction contents of the scan manager 4050 when the image manager 4110 stores a file in the HDD 2004.
[0080]
The notation of the tag name and the size is in accordance with the standard “TIFF Revision 6.0 Final June 3, 1992” of Aldus, USA. Hereinafter, only tags that are not described in this standard and newly added to transmit image-accompanying information to the remote device will be described.
[0081]
Tags MarginTop, MarginBtm, MarginLft, MarginRit are tags that define the amount of margin (margin) attached to the top, bottom, left, and right of the image, respectively, by the number of pixels. FIG. 18 is a diagram showing the position of the margin added in the scanned image. FIG. 18A shows a document image, and FIG. 18B shows a scanned image.
[0082]
That is, the image rotation unit 2030 cannot perform image rotation unless both the main scanning and sub-scanning pixel numbers are in units of 32 pixels due to hardware restrictions. Therefore, when scanning an image into the RAM 2002, it is necessary to capture the original image area with a margin for setting the image size in units of 32 pixels. Usually, margins are added on the right side (MarginRit) and the lower side (MarginBtm) of the image.
[0083]
In FIG. 17, a tag ImageKind is a tag indicating the type (classification) of a document designated by the user from the operation unit 2012. Three types of characters (text), characters / photos (text / photo), and photos (photo) are designated in units of pages from the operation unit 2012.
[0084]
The tag MediaCode is a tag that stores the size of the document. For example, in the case of A4, the document size is expressed using the lower 8 bits, such as 0x0001 and A3, 0x0002. In the case of A4R even with the same size, the original direction is expressed as 0x0101.
[0085]
The tag Side is a tag for identifying the front side and the back side of the document. A tag WithoutZoomW and a tag WithoutZoomL are tags that indicate the image size before correction in terms of the number of pixels after removing the blank portion when the image size is corrected by fine zoom adjustment. That is, in the zoom fine adjustment, the user can finely adjust the zoom in increments of 0.1% from -1.0% to + 1.0%. It is set as follows as WithoutZoomW and tag WithoutZoommL.
[0086]
WithoutZoomW = ImageWidth MarginRit (1)
WithoutZoommL = ImageLength MarginBtm (2)
Next, processing on the remote side that has received a TIFF header portion in which image accompanying information is mounted as such a tag will be described. First, the usage of tag Margin will be shown. In the remote copy of the present embodiment, it is possible to adjust the print position of the image on the paper based on the tag Margin.
[0087]
On the remote side, in accordance with an instruction from the print manager 4090, the image manager 4110 determines the image position in consideration of the margin amount (margin). Image position adjustment can be easily realized by changing the image output timing to the printer 2095 according to the setting of the printer image processing unit 2090.
[0088]
FIG. 19 is a diagram illustrating a printing process when “no paper” is selected during A4 image printing and B4 paper is selected. In FIG. 19A, reference numeral 7010 denotes an A4 paper size area, and 7020 denotes an image area including a margin. Here, there is no problem when an A4 size image is printed on one side on A4 paper, but when “paper out” occurs and the user selects B4 paper, the image is printed according to the request of the print manager 4090. Rotate 90 degrees (this is because if the image is not rotated, the image protrudes from the paper and is lost). At this time, as shown in FIG. 19B, the image 7030 is shifted to the left by the margin Btm with respect to the B4 paper region 7040 to correct the image position.
[0089]
In the same case, when the upper side is bound by double-sided printing of an A4 document, the back side is rotated 180 degrees. At this time, it moves to MaginBtm and moves to the left by MarginRit.
[0090]
Such image position control is the same as that for local copying, and image output with the same quality as that of local copying is realized in remote copying and cascade copying.
[0091]
Next, usage of the tag ImageKind will be shown. In the remote copy in this embodiment, the image quality of an image to be printed can be adjusted based on the tag ImageKind.
[0092]
In local copying, the document type (classification) is used as image processing information. Specifically, the document type is used to determine whether smoothing is executed / not executed or the degree (intensity) of smoothing so as to make the jaggedness inconspicuous.
[0093]
When smoothing is performed by remote copy, the image manager 4110 determines an image processing method in consideration of the document type in accordance with an instruction from the print manager 4090 on the remote side. That is, the strength of smoothing for removing a character is switched for each document type. Smoothing can be easily realized by setting the printer image processing unit 2090. In the character mode, turn on (execute) smoothing so that the characters are not noticeable. In the case of the text / photo mode and the photo mode, since the density of the photo portion may be changed by the smoothing, the smoothing is turned off (not executed). As a result, an image quality equivalent to that of a local copy can be obtained.
[0094]
Next, usage of the tag Side will be described. In the remote copy in the present embodiment, it is possible to adjust the print position of the image on the paper based on the tag Side. When the operation unit 2012 designates printing from a double-sided document to one side as shown in FIG. 20 and the binding margin is set to the front side or the back side, as shown in FIG. When printing, the binding margin of the front side is printed, and when the back side of the document is printed, the binding margin is created with the binding margin amount of the back side. Therefore, on the remote side, in order to create such a binding margin, information indicating the front and back of the page is required. FIG. 20 is a diagram showing a screen displayed on the operation unit 2012 when printing from a double-sided document to one side is designated. FIG. 21 is a diagram illustrating a screen displayed on the operation unit 2012 when the left binding is set.
[0095]
On the remote side that has received the tag Side from the TIFF header part, the print manager 4090 makes a front / back determination and sets the remote copy mode as a network application part 4120, a copy application part 4020, a common interface part 4030, a job manager 4040, In accordance with the commands transmitted in the order of the print manager 4090, the shift amount for the binding margin is transmitted to the image manager 4110. The image position setting in the image manager 4110 can be easily realized by changing the image output timing to the printer 2095 by the setting in the printer image processing unit 2090.
[0096]
FIG. 22 is a diagram illustrating a printing result when the A4 document image table 8301 and the A4 document image back 8302 are copied in the remote copy mode. In FIG. 22A, reference numeral 8310 denotes a front image, and 8320 denotes a front A4 paper position. By shifting the image upward by 10 mm with respect to the paper, a margin for the document surface can be formed.
[0097]
In FIG. 22B, 8330 is an image on the back surface, and 8340 is an A4 sheet position on the back surface. By shifting the image upward by 12 mm with respect to the paper, a binding margin for the back side of the document can be made. In this way, the binding margin setting equivalent to the local copy is performed in the remote copy.
[0098]
Next, how to use the tag WithoutZoomW and the tag WithoutZoomL is shown. In the remote copy in the present embodiment, it is possible to perform paper feed stage selection, paper selection, and rotation control based on the tag WithoutZoomW and the tag WithoutZoomL.
[0099]
In the image input / output device 200 of the present embodiment, image scaling is performed during scanning. Scaling in the main scanning direction is performed by setting the scanner image processing unit 2080, and scaling in the sub-scanning direction is realized by changing the scanning speed of the scanner 2070. When zoom fine adjustment is set from the operation unit 2012, the scan manager 4050 performs magnification by transmitting magnification information to the scanner 2070 and the image manager 4110.
[0100]
Therefore, the image size varies depending on the magnification at the time of scanning. If the image size is slightly larger than the paper size due to the zoom fine adjustment, the user may select a paper size that the user does not want at the time of automatic paper selection. For example, the image size of A4 is 7015 pixels × 4960 pixels when the magnification is 100%. When this is 101%, it becomes 7086 pixels x 5010 pixels, which does not fit in the predefined A4 paper size (7015 pixels x 4960 pixels), so there is no B4 (6071 pixels x 8598 pixels) and B4 In this case, a large size paper such as A3 (7015 pixels × 9920 pixels) is selected. In a conventional copying machine (local copy), when zoom fine adjustment is performed, the paper size is selected based on the image size after the adjustment.
[0101]
In this embodiment, when automatic paper selection is set in the operation unit 2012 for remote copy, and when selecting a paper size with a remote printer, the image size after zoom fine adjustment is ignored, and before zoom fine adjustment. Paper selection is performed using a tag WithoutZoomW and a tag WithoutZoomL indicating the image size. As a result, even if the image size becomes slightly larger due to the zoom fine adjustment, the paper size corresponding to the image size before the zoom fine adjustment is selected, and it is avoided that the image is output to an unnecessarily large paper. it can. Thus, paper selection equivalent to local copying is performed in remote copying and cascade copying.
[0102]
Further, when A4 size paper is selected by paper selection, but the selected paper feed stage is out of paper, selection of other paper feed stages, paper selection and rotation control (for example, B4 paper selection shown in FIG. 19). Control). Also in this case, the paper feed stage selection and the rotation control may be performed based on the tag WithoutZoomW and the tag WithoutZoomL.
[0103]
In the above-described embodiment, the image-accompanying information is transmitted as a tag mounted on the TIFF header. However, the information may be transferred between the network applications as information different from the image and transferred. Also, the transmission of the image accompanying information in the remote copy has been described, but the same can be said for the case of the multiple copy.
[0104]
Next, remote copy processing in the image forming system having the above configuration will be described. FIG. 23 is a flowchart showing a remote copy processing procedure. Here, the image input / output device 200 is the local side, and the image input / output device 220 is the remote side.
[0105]
First, in the image input / output device 200 on the local side, the UI control unit 4010 notifies the copy application unit 4020 of the copy setting information in response to the remote copy setting and start instruction to the operation unit 2012 (step S2301). The copy application unit 4020 generates a copy job based on the received copy setting information (step S2302).
[0106]
The copy application unit 4020 inputs the generated copy job to the job manager 4040 via the common interface unit 4030, and notifies the job manager 4040 of copy setting information (step S2303).
[0107]
The job manager 4040 notifies the lower layer document processing unit (scan manager 4050, sync manager 4080, image manager 4110, etc.) of copy setting information of the input job. The document processing unit processes the copy job based on the control by the job manager 4040 and the notified copy setting information. At this time, as in the case of the local copy described above, an original image is input from the scanner 2070, and the input image data is temporarily stored in the RAM 2002 (step S2304).
[0108]
The scan image stored in the RAM 2002 is converted into a TIFF file and stored in the HDD 2004 (step S2305). At this time, in the header portion of the TIFF file, the copy setting information (such as binding margin information shown in FIG. 21) that has been received in advance and the information obtained by the processing of the document processing unit (such as information on the front and back of the document) are displayed. It is added as accompanying information.
[0109]
When the scan image is stored in the HDD 2004, the copy application unit 4020 requests the network application unit 4120 to transmit the file stored in the HDD 2004. Upon receiving the request, the network application unit 4120 transmits the TIFF file to which the image accompanying information is added to the remote side (the image input / output device 220) (step S2306).
[0110]
In this way, the image data processed by the local image input / output device 200 is transmitted to the remote image input / output device 220, and the image input / output device 220 starts processing.
[0111]
In the image input / output device 220, the network application unit 4120 receives the image data converted into a TIFF file from the image input / output device 200 (step S2307). The received image data is stored in the HDD 2004 and a job is issued to the copy application unit 4020 (step S2308).
[0112]
The copy application unit 4020 inputs a print job to the job manager 4040 via the common interface unit 4030 (step S2309). The job manager 4040 instructs the document processing unit (file read manager 4060, sync manager 4080, image manager 4110, print manager 4090, etc.) to execute the job. Based on the instruction and control from the job manager 4040, the document processing unit expands the received TIFF file image stored in the HDD 2004 and expands it in the RAM 2002 (step S2310).
[0113]
When this expansion is completed, the job manager 4040 instructs the document processing unit to perform processing based on the image accompanying information added to the header portion of the TIFF file. As described above, the print manager 4090, the sync manager 408, and the image manager 4110 perform paper feed stage selection, image position setting, margin setting, image processing setting, and the like based on the image accompanying information, and the received image is printed by the printer 2295. Out is performed (step S2311).
[0114]
When the paper discharge from the printer 2295 is completed, the copy application unit 4020 notifies the UI control unit 4010 of the job end (step S2312). Thereafter, the process is terminated.
[0115]
Similar to the case of remote copying in such an image forming system, processing can be performed in the same way in the case of duplicate copying. That is, the image input / output device 220 and the image input / output device 230 may be remote, and the processes in and after step S2306 may be performed on these two input / output devices.
[0116]
Next, operations of paper cassette management and autocassette selection in the remote side image input / output device, which is the main part of the image forming system of this embodiment, will be described. Conventionally, when performing image output, automatic cassette selection for selecting an optimum sheet size has been performed in an image input / output device on the local side. Then, a print output instruction using the selected paper cassette is transmitted to the remote image output apparatus. In other words, the auto-cassette selection is not performed autonomously in the remote image input / output device, and is controlled by the local image input / output device.
[0117]
Here, the conventional auto cassette selection is briefly shown. The auto cassette selection is an operation mode in which the size of an image input by the image input device is detected, and a paper cassette in which optimum paper is set is automatically selected from cassettes included in the image output device. By selecting the optimum paper size using auto cassette selection, the user can easily set the paper size.
[0118]
Also in this embodiment, the scanner of each image input / output device is provided with a sensor for detecting the document size. Document size information obtained by this sensor is notified from the scanner to the controller unit and managed.
[0119]
The paper cassette management in this embodiment is specifically shown. In the image input / output device 200 of this embodiment, as shown in FIG. 3, a plurality of paper cassettes 2101 to 2103 are provided in the printer 2095. Cassette information relating to these paper cassettes is transmitted to and received from the controller unit 2000 via the bus 2096.
[0120]
Cassette information acquired from the printer 2095 by the CPU 2001 is held in the RAM 2002. The cassette information includes size information held by each paper cassette, presence / absence of paper in each paper cassette, and the like. Each paper cassette is provided with a sensor for detecting the presence or absence of paper. At the time of print output, the CPU 2001 checks the detection result of the sensor sent from the printer 2095 every time one image is output. When the no-paper information is detected, the print output is temporarily stopped and a predetermined error process is started.
[0121]
The auto cassette selection in this embodiment is specifically shown. Conventionally, in the remote copy mode and the multiple copy mode, the local image input / output device acquires the cassette information on the remote side in advance. Then, based on the acquired cassette information, auto cassette selection is performed by selecting a remote-side paper cassette optimal for image output on the local side.
[0122]
In the present embodiment, the paper cassette is selected on the remote side without selecting the remote side paper cassette on the local side. That is, the remote image input / output device detects the size of the received image, and automatically selects a paper cassette in which the optimum paper is set from the paper feeding cassette.
[0123]
Here, the local image input / output device transmits the image data in the TIFF file format to the remote image input / output device. As shown in FIG. 17, a tag ImageWidth and a tag ImageLength indicating the size of the image are added to the header of the TIFF file.
[0124]
The remote image input / output device analyzes the header of the received TIFF file and determines the image size from the values of the tag ImageWidth and the tag ImageLength. Then, the determined image size is compared with the paper size information stored in the RAM 2002, and a paper cassette storing a paper having a size most suitable for print output is selected. The received image data may be temporarily stored, and the image size may be determined by counting the number of pixels of the image after the reception is completed.
[0125]
Next, a case where the auto cassette selection process of the present embodiment is applied to remote copying in the image forming system will be described. Here, the image input / output device 200 is the local side, and the image input / output device 220 is the remote side. That is, a case where auto cassette selection is performed when an image read by the scanner 2070 is output to the printers 2095 and 2295 is shown.
[0126]
Here, the printers 2095 and 2295 are monochrome printers capable of duplex printing, and the printer 2395 is a monochrome printer capable of duplex printing. The operation unit 2012 of the controller unit 2000 is provided with a start key for starting reading.
[0127]
FIG. 24 is a flowchart showing an image output processing procedure by the controller unit 2000 of the image input / output device 200 on the local side. This processing program is stored in the ROM 2003 in the controller unit 2000 and is executed by the CPU 2001.
[0128]
First, it is determined whether or not the start key is pressed (step S2401), and the process waits until the start key is pressed. When the start key is pressed, the document is fed (step S2402), the image of the document is read by the scanner 2070, and at the same time, the image is transferred to the local black and white printer 2095. The image is transmitted to the monochrome printer 2295 via the LAN 2011 (step S2403).
[0129]
In order to print the read image with the monochrome printer 2095 on the local side, auto cassette selection is performed with the monochrome printer 2095 (step S2404), and print output is performed with the paper of the selected cassette (step S2405). Then, it is determined whether or not all pages have been completed (step S2406). If all the pages have not been finished, the process returns to step S2402 to process all the originals. On the other hand, if all pages have been completed in step S2406, the process returns to step S2401 to determine the start key.
[0130]
FIG. 25 and FIG. 26 are flowcharts showing an image output processing procedure in the image sending / outputting device 220 on the remote side. This processing program is stored in a storage medium (ROM 2003 or HDD 2004) of the image input / output device 220 and is executed by the CPU 2001. The black and white printer 2295 includes a plurality of cassettes in which sheets of different sizes are stored, and information about these cassettes (cassette information) is stored in a storage medium such as a RAM in advance.
[0131]
First, a case where the printer 2295 performs normal output processing without an error, such as when there is no optimum paper size by auto cassette selection, will be described.
[0132]
First, it is determined whether or not an image is received via the LAN 2011 (step S2501). If no image is received, the system waits until an image is received. If an image is received, one page of image is received via the LAN 2011 (step S2502).
[0133]
Then, it is determined whether or not an error flag relating to a paper selection error is ON (step S2503). Here, the error flag is a flag that is turned on after it is determined in step S2505 that a paper selection error has occurred, and is in an OFF state until it is determined that a paper selection error has occurred. Therefore, the error flag is OFF.
[0134]
When an image for one page is received, auto cassette selection is performed, and a cassette to be fed is selected (step S2504). It is determined whether or not a paper selection error has occurred (step S2505). If there is no optimum sheet size by this auto cassette selection, that is, if an error occurs, the process proceeds to error processing in step S2601 and subsequent steps in FIG. As error processing, first, a warning display indicating that there is no optimal size for the printer is performed. In this case, the cassette that is determined to be appropriate next time may be selected, or the user may be prompted to replace the cassette. Further, when replacement of the cassette is prompted, it may be detected by a sensor or the like that the user has replaced the cassette, and the optimum paper size may be selected again.
[0135]
On the other hand, if it is determined in step S2505 that no error has occurred, paper is fed from the selected cassette and printed on the fed paper (step S2506). Then, it is determined whether or not all pages have been completed (step S2507). If all pages have not been completed, the process returns to step S2502 to receive the next page. On the other hand, if all the pages have been completed, the process returns to step S2501 to determine whether or not an image has been received.
[0136]
Next, FIG. 25 and FIG. 26 are used to show a case where an error such as the absence of an optimum size occurs when the remote-side auto cassette is selected. Since the process from the reception of the first page image to the auto cassette selection is the process of steps S2501 to S2504, as in the normal printing process in which no error occurs, the error process after step S2505 is performed here. Indicates.
[0137]
If a paper selection error occurs as a result of the determination in step S2505, a print stop warning is displayed on the display screen of the operation unit 2212 in the image input / output device 220, and the error flag described above is turned ON (step S2601). Then, it is determined whether or not all the images for one page sent from the local side have been received (step S2602). If all the images have been received, the process proceeds to error cancellation processing, and all the images have been received. If not, the process returns to step S2502, and an image of the page that has not been received yet is received. As described above, when all the images of the page have not been received, the process returns to step S2502, and the reception of the page image is continued.
[0138]
Then, it is determined whether or not the error flag is ON (step S2503). If it is an error, the error flag is ON as shown in step S2601, so step 2503 (YES) and step S2601. In step S2602, it is determined whether or not all the images for one page have been received.
[0139]
Therefore, until the image input / output device 220 receives all the images for one page, the above determination and image reception are performed. When all the images for the page are received, the error cancellation by the user in the error processing is determined. (Step S2603). In this case, as described above, the error can be canceled by the user going to the installation location of the image input / output device 220 on the remote side and selecting a cassette that is determined to be appropriate next, or the user replacing the cassette, etc. It is done by the treatment of.
[0140]
If the error is not canceled in step S2603, it is determined whether or not all the page images have been received (step S2604). If received, the process returns to step S2603. If not received, step S2502 is performed. Returning to the process, the image of the next page is received, and the user waits for execution of error cancellation.
[0141]
When the user cancels the error in the image input / output device 220 on the remote side, the error flag is turned OFF (step S2605), and the printer 2295 performs print output using the cassette set by the error cancel (step S2606). ).
[0142]
Thereafter, it is determined whether or not all pages have been output. If all the pages have not been completed, the process returns to step S2502 to receive the next page. On the other hand, when all the pages are completed, the process returns to the process of step S2501 to enter a reception standby state in which it is determined whether or not an image is received.
[0143]
As described above, even when an error such as the absence of the optimum size occurs at the time of auto cassette selection, since the cassette is selected by the printer 2295 in the remote place in this embodiment, it can be dealt with on the printer side. User operations can be simplified.
[0144]
That is, when the image input system on the remote side in the image forming system manages the cassette information of the paper cassette provided in the printer unit and outputs the image data received from the local side on the remote side, the image size of the received image data Based on the above, auto paper selection is performed under its own management. As a result, remote paper-side automatic paper selection and control relating to paper selection are possible.
[0145]
If remote output fails, the operator can operate the remote control panel to select a cassette that is different from the cassette in which the error occurred. Become. Further, since the reception of the image data from the local side is continued until the selection by the operator is made, the time for error recovery can be shortened. Furthermore, since image data is received in units of pages and waiting for selection by the operator, the operator can perform error recovery in consideration of the contents of each page, and flexibility in printout during error recovery improves.
[0146]
The above is the description of the embodiment of the present invention, but the present invention is not limited to the configuration of this embodiment, and has the functions shown in the claims or the configuration of the embodiment. Any configuration that can achieve the function is applicable.
[0147]
For example, in the above-described embodiment, the size including the size and orientation of the paper is referred to as the size. However, instead of selecting the cassette by size, the cassette may be selected by paper type. Further, the material of the paper used for image formation is not limited to paper, and may be a film sheet.
[0148]
Further, in the above-described embodiment, the case of outputting to the remote printer 2295 is shown, but the same applies to the case of outputting to the remote printer 2395. Each printer manages cassette information. An optimal cassette may be selected, and a warning may be displayed when there is no optimal cassette. Further, the same may be applied to the printer 2095 locally connected to the controller unit 2000.
[0149]
Further, the image output apparatus in a remote place may be a single printer or a system composed of a plurality of devices (for example, a host computer, an interface device, a reader, a printer, etc.).
[0150]
It goes without saying that the present invention can also be applied to a case where a recording medium storing software program codes for realizing the functions of the above-described embodiments is achieved by supplying a program to a system or apparatus. In this case, the program code itself read from the storage medium realizes the novel function of the present invention, and the storage medium storing the program constitutes the present invention.
[0151]
In the above embodiment, the program codes shown in the flowcharts shown in FIGS. 23 to 26 are stored in the storage medium. As a storage medium for supplying the program code, for example, a ROM, a flexible disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a DVD, a magnetic tape, a nonvolatile memory card, and the like can be used.
[0152]
【The invention's effect】
As described above, according to the present invention, the cassette is managed and selected by the remote apparatus, so that the user's operation can be simplified and the overall productivity is not lowered.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of an image forming system according to an embodiment.
FIG. 2 is a block diagram showing an internal configuration of a controller unit of the image input / output device.
FIG. 3 is an external view showing a configuration viewed from the outside of the image input / output device.
4 is a diagram illustrating a configuration of a scanner image processing unit 2080. FIG.
FIG. 5 is a diagram illustrating a configuration of a printer image processing unit 2090;
6 is a block diagram illustrating a configuration of an image compression unit 2040. FIG.
7 is a diagram illustrating a configuration of an image rotation unit 2030. FIG.
FIG. 8 is a diagram illustrating addresses of transfer source image data.
FIG. 9 is a diagram illustrating writing and reading directions of image data.
10 is a diagram showing a configuration of a device I / F unit 2020. FIG.
FIG. 11 is an external view illustrating a configuration of an operation unit.
FIG. 12 is a block diagram illustrating an internal configuration of an operation unit and an operation unit I / F.
FIG. 13 is a diagram showing an initial screen displayed on the LCD display unit.
FIG. 14 is a diagram showing a setting screen displayed when the soft key shown in FIG. 13 is pressed.
15 is a diagram showing a standard screen displayed when cascade copy setting is performed on the setting screen shown in FIG. 14 and a setting confirmation key is pressed.
FIG. 16 is a diagram illustrating a software configuration of processing executed by the controller unit.
FIG. 17 is a diagram illustrating a configuration of a TIFF header portion used in the present embodiment.
FIG. 18 is a diagram illustrating a margin position in a scanned image.
FIG. 19 is a diagram illustrating print processing when “no paper” is selected during A4 image printing and B4 paper is selected.
FIG. 20 is a diagram illustrating a screen displayed on the operation unit when designation of printing from a double-sided document to one side is performed.
FIG. 21 is a diagram showing a screen displayed on the operation unit at the time of setting the left binding.
FIG. 22 is a diagram illustrating a printing result when an A4 document image table 8301 and an A4 document image back 8302 are copied in a remote copy mode.
FIG. 23 is a flowchart illustrating a remote copy processing procedure in the image forming system.
24 is a flowchart showing an image output processing procedure by the controller unit 2000. FIG.
FIG. 25 is a flowchart showing an image output processing procedure in the image input / output device 220 on the remote side.
FIG. 26 is a flowchart showing an image output processing procedure in the image input / output device 220 on the remote side following FIG.
[Explanation of symbols]
200 Image input / output device
220 Image input / output device
230 Image input / output device
2000 Controller unit
2011 LAN
2012 Operation unit
2070 scanner
2095, 2295, 2395 Printer
4010 UI control unit
4020 Copy application section
4030 Common interface part
4040 Job Manager
4050 Scan Manager
4060 File Read Manager
4070 PDL manager
4080 sink manager
4090 Print Manager
4100 store manager
4110 Image Manager
4120 Network Application Department

Claims (13)

An image input / output device having output means for outputting image data and connected to another image input / output device via a communication medium,
Management means for managing cassette information of a plurality of paper cassettes provided in the output means;
Receiving means for receiving, from the other image input / output device, image data generated based on the original read by the other image input / output device, and information indicating the size of the original;
Wherein the other image output device according to the automatic cassette selection mode is designated, based on the information indicating the size of the document received by the cassette information and the receiving means she is managed by the management unit, received by the receiving means First selection means for automatically selecting a paper cassette for outputting the processed image data by the output means ,
And the output means, the first using the set in the selected paper cassette paper selecting means, image input and output device comprising an output to Turkey the image data received by the receiving unit. A second selecting means for selecting a paper cassette in response to an operation input by the operator;
The output means starts image output using the paper cassette selected by the second selection means when image output using the paper cassette selected by the first selection means is impossible. The image input / output device according to claim 1. 3. The image input according to claim 2, wherein the receiving unit continues to receive the image data transmitted from the other image input / output device until the selection by the second selecting unit is performed. Output device. The image input / output apparatus according to claim 3, wherein the receiving unit receives the image data in units of pages. If the first of the non image output using the selected paper cassette by the selection means, image input and output according to any one of claims 1 to 4, characterized by further comprising display means for displaying a warning apparatus. A control method for an image input / output device having output means for outputting image data and connected to another image input / output device via a communication medium,
A management step of managing cassette information of a plurality of paper cassettes provided in the output means ;
A receiving step of receiving, from the other image input / output device, image data generated based on the original read by the other image input / output device, and information indicating the size of the original;
Received in the receiving step based on the cassette information managed in the managing step and information indicating the size of the document received in the receiving step in accordance with the automatic cassette selection mode specified in the other image input / output device. A first selection step of automatically selecting a paper cassette for outputting the image data by the output means ;
The first using a paper set in the selected paper cassette in the selection step, the control method characterized by the image data received by the receiving step to have the output step of outputting by the output means. A second selection step of selecting a paper cassette in response to an operation input by the operator;
The output means starts image output using the paper cassette selected in the second selection step when image output using the paper cassette selected in the first selection step is impossible. The control method according to claim 6 . 8. The control method according to claim 7 , wherein the reception step continues to receive the image data sent from the other image input / output device until the selection is made in the second selection step. . The control method according to claim 8 , wherein in the receiving step, the image data is received in units of pages. 10. The display step according to claim 6 , further comprising a display step of displaying a warning by display means when image output using the paper cassette selected in the first selection step is impossible. Control method. An image input capable of executing a copy mode in which image data generated based on a document read by the first image input / output device is transmitted to the second image input / output device and printed by the second image input / output device. In the output system,
The first image input / output device includes:
Reading means for reading a document;
Designating means for designating an automatic cassette selection mode in executing the copy mode;
Transmitting means for transmitting image data generated based on the read original and information indicating the size of the read original to the second image input / output device;
The second image input / output device includes:
Receiving means for receiving the image data and information indicating the size transmitted by the transmitting means;
The second image input / output device includes a plurality of sheet cassettes in which sheets suitable for information indicating the size received by the receiving unit are set in accordance with the designation of the automatic cassette selection mode by the specifying unit. Selection means for automatically selecting from among paper cassettes,
Printing means for printing the image data received by the receiving means using the paper in the paper cassette selected by the selecting means;
An image input / output system comprising: A first image input / output device and a second image input device capable of executing an automatic cassette selection mode for automatically selecting a paper cassette in which a paper suitable for the size of the read original is set from a plurality of paper cassettes. An image input / output system to which an image input / output device is connected, wherein image data generated on the basis of a document read by the first image input / output device is printed by the first image input / output device. In an image input / output system capable of executing a copy mode to be transmitted to the second image input / output device and printed by the second input / output device,
The first image input / output device includes:
Designating means for designating the automatic cassette selection mode in executing the copy mode;
When the automatic cassette selection mode is designated by the designation means, a paper cassette on which paper suitable for the size of the document read by the first image input / output device is set is input to the first image input / output. First selecting means for automatically selecting from a plurality of paper cassettes provided in the apparatus;
Transmitting means for transmitting image data generated based on the read document and information indicating the size of the read document to the second image input / output device;
Printing means for printing image data generated on the basis of the read original using the paper in the paper cassette selected by the first selection means;
The second image input / output device includes:
Receiving means for receiving image data and information indicating the size transmitted by the transmitting means;
The second image input / output device includes a plurality of sheet cassettes in which sheets suitable for information indicating the size received by the receiving unit are set in accordance with the designation of the automatic cassette selection mode by the specifying unit. Second selecting means for automatically selecting from among the paper cassettes;
Second printing means for printing the image data received by the receiving means using the paper in the paper cassette selected by the second selecting means;
An image input / output system comprising: A memory having output means for outputting image data, and storing a program readable by the computer for causing the computer to execute a control method of the image input / output device connected to another image input / output device via a communication medium A medium,
The control method is:
A management step of managing cassette information of a plurality of paper cassettes provided in the output means;
A receiving step of receiving, from the other image input / output device, image data generated based on the original read by the other image input / output device, and information indicating the size of the original;
Received in the receiving step based on the cassette information managed in the managing step and the information indicating the size of the document received in the receiving step in accordance with the automatic cassette selection mode specified in the other image input / output device. A first selection step of automatically selecting a paper cassette for outputting the image data by the output means;
The first using a paper set in the selected paper cassette in the selection step, a storage medium, characterized in the image data received by the receiving step to have a an output step of outputting by the output means.

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